Your search keyword '"Viikki Plant Science Centre (ViPS)"' showing total 1,018 results

1. UV-screening and springtime recovery of photosynthetic capacity in leaves of Vaccinium vitis-idaea above and below the snow pack

Author

Pedro J. Aphalo, Santa Neimane, Anu Heikkilä, Albert Porcar-Castell, Twinkle Solanki, Marta Pieristè, Saara M. Hartikainen, Alexey Shapiguzov, Thomas Matthew Robson, Jon Atherton, University of Helsinki, University of Latvia (LU), Étude et compréhension de la biodiversité (ECODIV), Université de Rouen Normandie (UNIROUEN), Normandie Université (NU)-Normandie Université (NU), Multi-Scale Material Science for Energy and Environment ((MSC)2 UMI3466 CNRS-MIT), CNRS-MIT, Department of Forest Sciences [Helsinki], Faculty of Agriculture and Forestry [Helsinki], University of Helsinki-University of Helsinki, Finnish Meteorological Institute (FMI), Academy of Finland 304519, Finnish National Agency for Education (EDUFI fellowship program), Tiina and Antti Herlin Foundation 20180642, University of Helsinki, Organismal and Evolutionary Biology Research Programme, University of Helsinki, Canopy Spectral Ecology and Ecophysiology, University of Helsinki, Viikki Plant Science Centre (ViPS), University of Helsinki, Department of Forest Sciences, Organismal and Evolutionary Biology Research Programme, Canopy Spectral Ecology and Ecophysiology, Viikki Plant Science Centre (ViPS), Sensory and Physiological Ecology of Plants (SenPEP), Plant Biology, Biosciences, Plant ROS-Signalling, Department of Forest Sciences, Ecosystem processes (INAR Forest Sciences), and Forest Ecology and Management

Subjects

0106 biological sciences, 0301 basic medicine, Time Factors, Photoinhibition, BOREAL, Physiology, Plant Science, Forests, 01 natural sciences, Plant Epidermis, Anthocyanins, Soil, Flavonols, LOW-TEMPERATURE, Snow, Photosynthesis, 1183 Plant biology, microbiology, virology, chemistry.chemical_classification, spring dehardening, CLIMATE-CHANGE, biology, Chemistry, Temperature, Understorey, Horticulture, LIGHT, Seasons, Vaccinium, Ultraviolet Rays, Growing season, DWARF SHRUB, 03 medical and health sciences, LEAF, PHOTOSYSTEM-II, Genetics, [SDV.BV]Life Sciences [q-bio]/Vegetal Biology, Vaccinium vitis-idaea, Flavonoids, Spring dehardening, Photoprotection, Spectral quality, Photosystem II Protein Complex, Pigments, Biological, 15. Life on land, Evergreen, biology.organism_classification, Photosynthetic capacity, SUB-ARCTIC HEATH, Plant Leaves, 030104 developmental biology, 13. Climate action, WINTER, B RADIATION, Arctic browning, 010606 plant biology & botany

Abstract

International audience; Evergreen plants in boreal biomes undergo seasonal hardening and dehardening adjusting their photosynthetic capacity and photoprotection; acclimating to seasonal changes in temperature and irradiance. Leaf epidermal ultraviolet (UV)-screening by flavonols responds to solar radiation, perceived in part through increased ultraviolet-B (UV-B) radiation, and is a candidate trait to provide cross-photoprotection. At Hyytiälä Forestry Station, central Finland, we examined whether the accumulation of flavonols was higher in leaves of Vaccinium vitis-idaea L. growing above the snowpack compared with those below the snowpack. We found that leaves exposed to colder temperatures and higher solar radiation towards the top of hummocks suffered greater photoinhibition than those at the base of hummocks. Epidermal UV-screening was highest in upper-hummock leaves, particularly during winter when lower leaves were beneath the snowpack. There was also a negative relationship between indices of flavonols and anthocyanins across all leaves suggesting fine-tuning of flavonoid composition for screening vs. antioxidant activity in response to temperature and irradiance. However, the positive correlation between the maximum quantum yield of photosystem II photochemistry (Fv/Fm) and flavonol accumulation in upper hummock leaves during dehardening did not confer on them any greater cross-protection than would be expected from the general relationship of Fv/Fm with temperature and irradiance (throughout the hummocks). Irrespective of timing of snow-melt, photosynthesis fully recovered in all leaves, suggesting that V. vitis-idaea has the potential to exploit the continuing trend for longer growing seasons in central Finland without incurring significant impairment from reduced duration of snow cover.

Published

2019

2. Elevated temperature and CO2 interactively modulate sexual competition and ecophysiological responses of dioecious Populus cathayana

Author

Chunyang Li, Helena Korpelainen, Lei Yu, Juan Chen, Quan Liu, Ülo Niinemets, University of Helsinki, Viikki Plant Science Centre (ViPS), University of Helsinki, Hangzhou Normal Univ, Hangzhou Normal University, Coll Life & Environm Sci, Viikki Plant Science Centre (ViPS), Department of Agricultural Sciences, Population Genetics and Biodiversity Group, and Plant Production Sciences

Subjects

0106 biological sciences, media_common.quotation_subject, Climate change, Management, Monitoring, Policy and Law, Biology, CARBON-ISOTOPE DISCRIMINATION, Photosynthesis, 010603 evolutionary biology, 01 natural sciences, Competition (biology), PLANTS, SPATIAL SEGREGATION, DROUGHT, Nature and Landscape Conservation, media_common, Nitrogen use efficiency, 4112 Forestry, Biomass (ecology), CLIMATE-CHANGE, Ecology, AVAILABILITY, Global warming, Structural carbohydrates, Forestry, 15. Life on land, FACILITATION, Photosynthetic capacity, PHYSIOLOGICAL-RESPONSES, Sexual competition, Sexual dimorphism, 13. Climate action, Non-structural carbohydrates, 1181 Ecology, evolutionary biology, DIMORPHISM, Facilitation, GENDER, 010606 plant biology & botany

Abstract

It remains unclear how global climate change affects dioecious plants that may be especially vulnerable to climate drivers, because they often exhibit skewed sex ratios and eco-physiological specialization in certain microhabitats. In this study, female and male saplings of Populus cathayana were employed to explore sex-specific responses and the effects of sexual competition under elevated temperature (ET), elevated CO2 (EC) and combination of elevated temperature and CO2 (ETC). The results demonstrated that elevated temperature and CO2 interactively modulated sexual competition and responses of P. cathayana. Moreover, competition patterns affected the eco-physiological responses of P. cathayana to climate change treatments. Under both intra- and inter-sexual competition, biomass components, photosynthetic parameters and carbon-related metabolites of females were most strongly affected by ET, while males exhibited a higher photosynthesis and resource use efficiency, and a better biomass accumulation and carbon balance mechanism when compared to females when experiencing intra-sexual competition under EC. The competitive pressure of females on males in inter-sexual competition was intensified by ET, while it was alleviated by ETC. We conclude that climate change drivers and competition patterns differently regulate the sex-specific responses and competitive intensity of males and females, which may have a crucial effect on sex ratios, spatial sexual segregation, biomass production and carbon sequestration in dioecious species in the future.

Published

2021

3. Diversity of woodland strawberry inflorescences arises from heterochrony regulated by TERMINAL FLOWER 1 and FLOWERING LOCUS T

Author

Sergei Lembinen, Mikolaj Cieslak, Teng Zhang, Kathryn Mackenzie, Paula Elomaa, Przemyslaw Prusinkiewicz, Timo Hytönen, Department of Agricultural Sciences, Doctoral Programme in Plant Sciences, Plant Production Sciences, Asteraceae developmental biology and secondary metabolism, Viikki Plant Science Centre (ViPS), and Doctoral Programme in Integrative Life Science

Subjects

Homolog, Floral meristem, Protein, Arabidopsis, Cell Biology, Plant Science, Tomato, 4111 Agronomy, Genes, 416 Food Science, Identity, Architecture, Leafy, Model

Abstract

A vast variety of inflorescence architectures have evolved in angiosperms. Here, we analyze the diversity and development of the woodland strawberry (Fragaria vesca) inflorescence. Contrary to historical classifications, we show that it is a closed thyrse: a compound inflorescence with determinate primary monopodial axis and lateral sympodial branches, thus combining features of racemes and cymes. We demonstrate that this architecture is generated by 2 types of inflorescence meristems differing in their geometry. We further show that woodland strawberry homologs of TERMINAL FLOWER 1 (FvTFL1) and FLOWERING LOCUS T (FvFT1) regulate the development of both the racemose and cymose components of the thyrse. Loss of functional FvTFL1 reduces the number of lateral branches of the main axis and iterations in the lateral branches but does not affect their cymose pattern. These changes can be enhanced or compensated by altering FvFT1 expression. We complement our experimental findings with a computational model that captures inflorescence development using a small set of rules. The model highlights the distinct regulation of the fate of the primary and higher-order meristems, and explains the phenotypic diversity among inflorescences in terms of heterochrony resulting from the opposite action of FvTFL1 and FvFT1 within the thyrse framework. Our results represent a detailed analysis of thyrse architecture development at the meristematic and molecular levels.FLOWERING LOCUS T1 and TERMINAL FLOWER 1 control the number of lateral branches and their branching iterations in the thyrse inflorescence of woodland strawberry.

Published

2023

4. Scots pine responses to drought investigated with eddy covariance and sap flow methods

Author

Dukat, Paulina, Ziemblinska, Klaudia, Rasanen, Matti, Vesala, Timo, Olejnik, Janusz, Urbaniak, Marek, Department of Forest Sciences, Institute for Atmospheric and Earth System Research (INAR), Viikki Plant Science Centre (ViPS), Micrometeorology and biogeochemical cycles, Ecosystem processes (INAR Forest Sciences), and Doctoral Programme in Atmospheric Sciences

Subjects

Heat balance method, Drought stress, 4112 Forestry, Temperate forest, Scots pine, Forestry, Eddy covariance, Plant Science, Water balance, Transpiration

Abstract

Scots pine, as one of the dominant European tree species in the temperate zone, is experiencing intensified water deficits, especially in north-western and central Poland, where it suffers from frequent droughts and generally low precipitation. This work investigates drought impact on forest functioning, by analysing ecosystem transpiration under normal as well as dry conditions. Therefore, eddy covariance (EC) and sap flow measurements (using the thermal heat balance, THB, method) were combined to estimate transpiration (T) in two different-aged Scots pine (Pinus sylvestris) stands in north-western Poland: Mezyk (ME; 26 years old) and Tuczno (TU; 67 years old). Transpiration (T) estimates regarding EC measurements were derived from gross primary productivity (GPP) fluxes and vapour pressure deficit (VPD) dependence, considering their common relationship with stomatal activity. In 2019, the year following severe drought in Poland and Europe in general, total annual transpiration estimated based on sap flow measurements (TSF) was significantly lower than EC-derived transpiration (TEC) at both sites. The total ratio of TSF/TEC for the growing season (March–August) was 0.64 and 0.41 at ME and TU, respectively. We thus speculate that the understory, which was more abundant in TU than in ME, and which could only be observed by the EC system, may be responsible for the observed discrepancies. Bigger differences between TSF and TEC occurred under dry and wet conditions, while both were fairly similar under moderate conditions. The analysis of the relationships between TSF and soil water content (SWC) at depth of 10 cm revealed that there is a thresholds (SWC ~ 3.5%) at which TSF starts to decrease sharply, presumably due to stomatal closure. However, the decrease in GPP fluxes at the same time was less pronounced, indicating the impact of additional non-stomatal factor on water conductivity. We generally conclude that care should be taken if the conclusion of the occurrence of drought stress of some plants is derived from a bulk evapotranspiration flux, as it is commonly done with EC measurements averaging over the whole ecosystem. Our results also support the notion that non-stomatal water losses are an important element during extreme dry conditions, and that these may appear not only when stomata are already closed.

Published

2023

5. Chaenothecopsis (Mycocaliciales, Ascomycota) from exudates of endemic New Zealand Podocarpaceae

Author

Beimforde, Christina, Schmidt, Alexander, Tuovila, Hanna, Kaulfuss, Uwe, Germer, Juliane, Lee, William G., Rikkinen, Jouko, Botany, Biosciences, Plant Biology, Helsinki Institute of Sustainability Science (HELSUS), Teachers' Academy, The Academic Outreach Network, Viikki Plant Science Centre (ViPS), and Lichens

Subjects

Podocarpaceae, Mycocaliciales, resinicolous fungi, 1181 Ecology, evolutionary biology, Chaenothecopsis, Phyllocladus, plant exudate, Prumnopitys, Ecology, Evolution, Behavior and Systematics, New Zealand

Abstract

The order Mycocaliciales (Ascomycota) comprises fungal species with diverse, often highly specialized substrate ecologies. Particularly within the genus Chaenothecopsis, many species exclusively occur on fresh and solidified resins or other exudates of vascular plants. In New Zealand, the only previously known species growing on plant exudate is Chaenothecopsis schefflerae, found on several endemic angiosperms in the family Araliaceae. Here we describe three new species; Chaenothecopsis matai Rikkinen, Beimforde, Tuovila & A.R. Schmidt, C. nodosa Beimforde, Tuovila, Rikkinen & A.R. Schmidt, and C. novae-zelandiae Rikkinen, Beimforde, Tuovila & A.R. Schmidt, all growing on exudates of endemic New Zealand conifers of the Podocarpaceae family, particularly on Prumnopitys taxifolia. Phylogenetic analyses based on ribosomal DNA regions (ITS and LSU) grouped them into a distinct, monophyletic clade. This, as well as the restricted host range, suggests that all three taxa are endemic to New Zealand. Copious insect frass between the ascomata contain ascospores or show an early stage of ascomata development, indicating that the fungi are spread by insects. The three new species represent the first evidence of Chaenothecopsis from any Podocarpaceae species and the first from any gymnosperm exudates in New Zealand.

Published

2023

6. Aerosols, Clusters, Greenhouse Gases, Trace Gases and Boundary-Layer Dynamics: on Feedbacks and Interactions

Author

Markku Kulmala, Tom Kokkonen, Ekaterina Ezhova, Alexander Baklanov, Alexander Mahura, Ivan Mammarella, Jaana Bäck, Hanna K. Lappalainen, Svyatoslav Tyuryakov, Veli-Matti Kerminen, Sergej Zilitinkevich, Tuukka Petäjä, Institute for Atmospheric and Earth System Research (INAR), Global Atmosphere-Earth surface feedbacks, Micrometeorology and biogeochemical cycles, Viikki Plant Science Centre (ViPS), Department of Forest Sciences, Forest Ecology and Management, Ecosystem processes (INAR Forest Sciences), and INAR Physics

Subjects

Aerosols, Turbulence, Atmospheric Science, Greenhouse gases, Boundary-layer meteorology, 114 Physical sciences, Feedback

Abstract

Turbulence is the key process transporting material and energy in the atmosphere. Furthermore, turbulence causes concentration fluctuations, influencing different atmospheric processes such as deposition, chemical reactions, formation of low-volatile vapours, formation of new aerosol particles and their growth in the atmosphere, and the effect of aerosol particles on boundary-layer meteorology. In order to analyse the connections, interactions and feedbacks relating those different processes require a deep understanding of atmospheric turbulence mechanisms, atmospheric chemistry and aerosol dynamics. All these processes will further influence air pollution and climate. The better we understand these processes and their interactions and associated feedback, the more effectively we can mitigate air pollution as well as mitigate climate forcers and adapt to climate change. We present several aspects on the importance of turbulence including how turbulence is crucial for atmospheric phenomena and feedbacks in different environments. Furthermore, we discuss how boundary-layer dynamics links to aerosols and air pollution. Here, we present also a roadmap from deep understanding to practical solutions.

Published

2023

7. Accuracy, realism and general applicability of European forest models

Author

Mats Mahnken, Maxime Cailleret, Alessio Collalti, Carlo Trotta, Corrado Biondo, Ettore D'Andrea, Daniela Dalmonech, Gina Marano, Annikki Mäkelä, Francesco Minunno, Mikko Peltoniemi, Volodymyr Trotsiuk, Daniel Nadal‐Sala, Santiago Sabaté, Patrick Vallet, Raphaël Aussenac, David R. Cameron, Friedrich J. Bohn, Rüdiger Grote, Andrey L. D. Augustynczik, Rasoul Yousefpour, Nica Huber, Harald Bugmann, Katarina Merganičová, Jan Merganic, Peter Valent, Petra Lasch‐Born, Florian Hartig, Iliusi D. Vega del Valle, Jan Volkholz, Martin Gutsch, Giorgio Matteucci, Jan Krejza, Andreas Ibrom, Henning Meesenburg, Thomas Rötzer, Marieke van der Maaten‐Theunissen, Ernst van der Maaten, Christopher P. O. Reyer, Risques, Ecosystèmes, Vulnérabilité, Environnement, Résilience (RECOVER), Aix Marseille Université (AMU)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Laboratoire des EcoSystèmes et des Sociétés en Montagne (UR LESSEM), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Department of Forest Sciences, Viikki Plant Science Centre (ViPS), Annikki Mäkelä-Carter / Principal Investigator, Forest Modelling Group, Forest Ecology and Management, Ecosystem processes (INAR Forest Sciences), and Institute for Atmospheric and Earth System Research (INAR)

Subjects

model evaluation, Climate Change, Carbon Cycle, model ensemble, USE EFFICIENCY, SDG 13 - Climate Action, ddc:550, PROGRAM MULTISCALE SYNTHESIS, Environmental Chemistry, terrestrial carbon dynamics, General Environmental Science, 4112 Forestry, gap model, Global and Planetary Change, CLIMATE-CHANGE, NET ECOSYSTEM EXCHANGE, Ecology, INTERCOMPARISON PROJECT, Temperature, Water, PINUS-SYLVESTRIS, process-based modeling, CARBON BALANCE MODEL, eddy-covariance, Carbon, Earth sciences, 1181 Ecology, evolutionary biology, [SDE]Environmental Sciences, CO2 ENRICHMENT, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, EDDY COVARIANCE DATA, PRIMARY PRODUCTIVITY

Abstract

Forest models are instrumental for understanding and projecting the impact of climate change on forests. A considerable number of forest models have been developed in the last decades. However, few systematic and comprehensive model comparisons have been performed in Europe that combine an evaluation of modelled carbon and water fluxes and forest structure. We evaluate 13 widely used, state-of-the-art, stand-scale forest models against field measurements of forest structure and eddy-covariance data of carbon and water fluxes over multiple decades across an environmental gradient at nine typical European forest stands. We test the models' performance in three dimensions: accuracy of local predictions (agreement of modelled and observed annual data), realism of environmental responses (agreement of modelled and observed responses of daily gross primary productivity to temperature, radiation and vapour pressure deficit) and general applicability (proportion of European tree species covered). We find that multiple models are available that excel according to our three dimensions of model performance. For the accuracy of local predictions, variables related to forest structure have lower random and systematic errors than annual carbon and water flux variables. Moreover, the multi-model ensemble mean provided overall more realistic daily productivity responses to environmental drivers across all sites than any single individual model. The general applicability of the models is high, as almost all models are currently able to cover Europe's common tree species. We show that forest models complement each other in their response to environmental drivers and that there are several cases in which individual models outperform the model ensemble. Our framework provides a first step to capturing essential differences between forest models that go beyond the most commonly used accuracy of predictions. Overall, this study provides a point of reference for future model work aimed at predicting climate impacts and supporting climate mitigation and adaptation measures in forests., Global Change Biology, 28 (23), ISSN:1354-1013, ISSN:1365-2486

Published

2022

8. Implementation and initial calibration of carbon-13 soil organic matter decomposition in the Yasso model

Author

Jarmo Mäkelä, Laura Arppe, Hannu Fritze, Jussi Heinonsalo, Kristiina Karhu, Jari Liski, Markku Oinonen, Petra Straková, Toni Viskari, Ilmatieteen laitos, Finnish Meteorological Institute, Natural Sciences Unit, Finnish Museum of Natural History, Department of Food and Nutrition, Department of Forest Sciences, Department of Microbiology, Forest Ecology and Management, Viikki Plant Science Centre (ViPS), Jussi Heinonsalo / Principal Investigator, Forest Soil Science and Biogeochemistry, Ecosystem processes (INAR Forest Sciences), and Soils and climate change

Subjects

1171 Geosciences, ekosysteemit, FLUXES, maaperä, CARBON SEQUESTRATION, carbon, hiili, 1181 Ecology, evolutionary biology, DRAWDOWN, ecosystems, Ecology, Evolution, Behavior and Systematics, soil, Earth-Surface Processes

Abstract

Soils account for the largest share of carbon found in terrestrial ecosystems, and their status is of considerable interest for the global carbon cycle budget and atmospheric carbon concentration. The decomposition of soil organic matter depends on environmental conditions and human activities, which raises the question of how permanent are these carbon storages under changing climate. One way to get insight into carbon decomposition processes is to analyse different carbon isotope concentrations in soil organic matter. In this paper we introduce a carbon-13-isotope-specific soil organic matter decomposition add-on into the Yasso soil carbon model and assess its functionality. The new 13C-dedicated decomposition is straightforward to implement and depends linearly on the default Yasso model parameters and the relative carbon isotope (13C/12C) concentration. The model modifications are based on the assumption that the heavier 13C atoms are not as reactive as 12C. The new formulations were calibrated using fractionated C, 13C and δ13 measurements from litterbags containing pine needles and woody material, which were left to decompose in natural environment for 4 years. The introduced model modifications considerably improve the model behaviour in a 100-year-long simulation, where modelled δ13 is compared against fractionated peat column carbon content. The work presented here is a proof of concept and enables 13C to be used as a natural tracer to detect changes in the underlying soil organic matter decomposition.

Published

2022

9. Genotypes exhibit no variation in precision foraging in mycorrhizal Norway spruce seedlings

Author

Sannakajsa M. Velmala, Matti J. Salmela, Tommy Chan, Teemu Hölttä, Leena Hamberg, Risto Sievänen, Taina Pennanen, Institute for Atmospheric and Earth System Research (INAR), Viikki Plant Science Centre (ViPS), Department of Forest Sciences, Ecosystem processes (INAR Forest Sciences), Forest Ecology and Management, and Forest Soil Science and Biogeochemistry

Subjects

11832 Microbiology and virology, 4112 Forestry, EFFICIENCY, STRATEGIES, ROOT-SYSTEM ARCHITECTURE, Soil Science, Norway spruce (Picea abies), Root exploitation, Plant Science, Intraspecific variation, 11831 Plant biology, PICEA-ABIES, FAMILIES, Root architecture, Lateral root, PATHOGENIC FUNGI, Convex hull, EXPLOITATION, PLANT, TRAITS, RESPONSES

Abstract

Aims Fine roots, that comprise the adjustable part of the root system, are important in spatially heterogeneous boreal forest soils. We investigated the soil exploring patterns of Norway spruce (Picea abies) seedlings of equal height belonging to families representing two contrasting growth phenotypes that have shown fast and slow growth rates in long-term experiments. We hypothesised that seedlings of the fast-growing phenotype would show a more explorative root growth strategy, intense branching, and root proliferation in response to the nutrient patch, and that slow-growing phenotypes would be more tolerant to drought stress. Methods Seedlings were grown in flat Perspex microcosms with a clod of humus placed in the mid-bottom part of each microcosm for eight months. The order-based and functional classification, branching topology, and size of seedling root systems were studied with WinRHIZO™ image-analysis software and root exploration patterns with LIGNUM-model simulations. In addition, transpiration, stomatal conductance, net assimilation rate responses were measured. Results No differences were found in the early foraging of roots for the humus clod nor net assimilation rate and transpiration between the phenotype groups. Seedlings were favouring exploitation over exploration in the early phases of development regardless of growth phenotype group. However, in fast-growing phenotypes, the main roots were longer, and the lateral root pool favoured long and bifurcated laterals that formed larger absorptive root area. Conclusions Our results indicate that in nutrient-poor conditions, better growth of lateral roots precedes future differences in the aboveground growth rate of Norway spruce.

Published

2022

10. Mesophilic and thermophilic viruses are associated with nutrient cycling during hyperthermophilic composting

Author

Hanpeng Liao, Chen Liu, Chaofan Ai, Tian Gao, Qiu-E Yang, Zhen Yu, Shaoming Gao, Shungui Zhou, Ville-Petri Friman, Helsinki Institute of Sustainability Science (HELSUS), Helsinki One Health (HOH), Viikki Plant Science Centre (ViPS), Department of Microbiology, and Department of Biochemistry and Developmental Biology

Subjects

Algorithm, 11832 Microbiology and virology, Genes, Assembly processes, Phages, Tool, Genomes, Microbiology, Removal, Ecology, Evolution, Behavior and Systematics, Consequences, Alignment, 4111 Agronomy

Abstract

Publisher Copyright: © 2023, The Author(s). While decomposition of organic matter by bacteria plays a major role in nutrient cycling in terrestrial ecosystems, the significance of viruses remains poorly understood. Here we combined metagenomics and metatranscriptomics with temporal sampling to study the significance of mesophilic and thermophilic bacteria and their viruses on nutrient cycling during industrial-scale hyperthermophilic composting (HTC). Our results show that virus-bacteria density dynamics and activity are tightly coupled, where viruses specific to mesophilic and thermophilic bacteria track their host densities, triggering microbial community succession via top-down control during HTC. Moreover, viruses specific to mesophilic bacteria encoded and expressed several auxiliary metabolic genes (AMGs) linked to carbon cycling, impacting nutrient turnover alongside bacteria. Nutrient turnover correlated positively with virus–host ratio, indicative of a positive relationship between ecosystem functioning, viral abundances, and viral activity. These effects were predominantly driven by DNA viruses as most detected RNA viruses were associated with eukaryotes and not associated with nutrient cycling during the thermophilic phase of composting. Our findings suggest that DNA viruses could drive nutrient cycling during HTC by recycling bacterial biomass through cell lysis and by expressing key AMGs. Viruses could hence potentially be used as indicators of microbial ecosystem functioning to optimize productivity of biotechnological and agricultural systems.

Published

2023

11. Tree organ growth and carbon allocation dynamics impact the magnitude and δ13C signal of stem and soil CO2 fluxes

Author

Yu Tang, Pauliina Schiestl-Aalto, Matthias Saurer, Elina Sahlstedt, Liisa Kulmala, Pasi Kolari, Kira Ryhti, Yann Salmon, Tuula Jyske, Yiyang Ding, Jaana Bäck, Katja T Rinne-Garmston, Ecosystem processes (INAR Forest Sciences), Institute for Atmospheric and Earth System Research (INAR), Department of Forest Sciences, Micrometeorology and biogeochemical cycles, Viikki Plant Science Centre (ViPS), Forest Soil Science and Biogeochemistry, Department of Microbiology, and Forest Ecology and Management

Subjects

compound-specific, Physiology, Carbohydrates, Plant Science, Forests, Trees, DIOXIDE EFFLUX, Soil, SUMMER DROUGHT, ISOTOPE DISCRIMINATION, PHLOEM, boreal forest, PINUS-SYLVESTRIS SEEDLINGS, SCOTS PINE, water-soluble carbohydrates (WSCs), 4112 Forestry, starch, 1184 Genetics, developmental biology, physiology, NORWAY SPRUCE, Pinus sylvestris, sucrose, 11831 Plant biology, Carbon, LARCH TREES, RESPIRATION, ELEVATED CO2, non-structural carbohydrates (NSCs)

Abstract

Incomplete knowledge of carbon (C) allocation dynamics in trees hinders accurate modeling and future predictions of tree growth. We studied C allocation dynamics in a mature Pinus sylvestris L. dominated forest with a novel analytical approach, allowing the first comparison of: (i) magnitude and delta C-13 of shoot, stem and soil CO2 fluxes (A(shoot), R-stem and R-soil), (ii) concentration and delta C-13 of compound-specific and/or bulk non-structural carbohydrates (NSCs) in phloem and roots and (iii) growth of stem and fine roots. Results showed a significant effect of phloem NSC concentrations on tracheid growth, and both variables significantly impacted R-stem. Also, concentrations of root NSCs, especially starch, had a significant effect on fine root growth, although no effect of root NSC concentrations or root growth was detected on R-soil. Time series analysis between delta C-13 of A(shoot) and delta C-13 of R-stem or delta C-13 of R-soil revealed strengthened C allocation to stem or roots under high C demands. Furthermore, we detected a significant correlation between delta C-13 of R-stem and delta C-13 of phloem sucrose and glucose, but not for starch or water-soluble carbohydrates. Our results indicate the need to include C allocation dynamics into tree growth models. We recommend using compound-specific concentration and delta C-13 analysis to reveal C allocation processes that may not be detected by the conventional approach that utilizes bulk organic matter.

Published

2022

12. Sunflecks in the upper canopy: dynamics of light‐use efficiency in sun and shade leaves of Fagus sylvatica

Author

Maxime Durand, Zsofia R. Stangl, Yann Salmon, Alexandra J. Burgess, Erik H. Murchie, T. Matthew Robson, Canopy Spectral Ecology and Ecophysiology, Organismal and Evolutionary Biology Research Programme, University of Helsinki, Department of Forest Sciences, Institute for Atmospheric and Earth System Research (INAR), Viikki Plant Science Centre (ViPS), Micrometeorology and biogeochemical cycles, and Ecosystem processes (INAR Forest Sciences)

Subjects

sun and shade leaves, STEADY-STATE, Fagus sylvatica, Physiology, MESOPHYLL CONDUCTANCE, TROPICAL RAIN-FOREST, canopy vertical gradients, FLUCTUATING LIGHT, photosynthetic induction, stomatal dynamics, Plant Science, 11831 Plant biology, Trees, Plant Leaves, sunfleck, ENERGY-DISSIPATION, VERTICAL GRADIENT, Fagus, Sunlight, Photosynthesis, PIGMENT COMPOSITION, STOMATAL RESPONSES, provenance trial, GAS-EXCHANGE

Abstract

Sunflecks are transient patches of direct radiation that provide a substantial proportion of the daily irradiance to leaves in the lower canopy. In this position, faster photosynthetic induction would allow for higher sunfleck-use efficiency, as is commonly reported in the literature. Yet, when sunflecks are too few and far between, it may be more beneficial for shade leaves to prioritize efficient photosynthesis under shade. We investigated the temporal dynamics of photosynthetic induction, recovery under shade, and stomatal movement during a sunfleck, in sun and shade leaves of Fagus sylvatica from three provenances of contrasting origin. We found that shade leaves complete full induction in a shorter time than sun leaves, but that sun leaves respond faster than shade leaves due to their much larger amplitude of induction. The core-range provenance achieved faster stomatal opening in shade leaves, which may allow for better sunfleck-use efficiency in denser canopies and lower canopy positions. Our findings represent a paradigm shift for future research into light fluctuations in canopies, drawing attention to the ubiquitous importance of sunflecks for photosynthesis, not only in lower-canopy leaves where shade is prevalent, but particularly in the upper canopy where longer sunflecks are more common due to canopy openness.

Published

2022

13. Mimush Sheep and the Spectre of Inbreeding: Historical Background for Festetics’s Organic and Genetic Laws Four Decades Before Mendel’s Experiments in Peas

Author

Péter Poczai, Jorge A. Santiago-Blay, Jiří Sekerák, István Bariska, Attila T. Szabó, Botany, Viikki Plant Science Centre (ViPS), and Embryophylo

Subjects

Inheritance capacity, Sheep, Heredity, Wool, Scientific development, Peas, Hereditary disease, Genetic prehistory, SCIENCE, Europe, Consanguinity, History and Philosophy of Science, 1181 Ecology, evolutionary biology, Genetics, Animals, Inbreeding, General Agricultural and Biological Sciences, Animal breeding

Abstract

The upheavals of late eighteenth century Europe encouraged people to demand greater liberties, including the freedom to explore the natural world, individually or as part of investigative associations. The Moravian Agricultural and Natural Science Society, organized by Christian Carl André, was one such group of keen practitioners of theoretical and applied scientific disciplines. Headquartered in the “Moravian Manchester” Brünn (nowadays Brno), the centre of the textile industry, society members debated the improvement of sheep wool to fulfil the needs of the Habsburg armies fighting in the Napoleonic Wars. Wool, as the raw material of soldiers' clothing, could influence the war’s outcome. During the early nineteenth century, wool united politics, economics, and science in Brno, where breeders and natural scientists investigated the possibilities of increasing wool production. They regularly discussed how “climate” or “seed” characteristics influenced wool quality and quantity. Breeders and academics put their knowledge into immediate practice to create sheep with better wool traits through consanguineous matching of animals and artificial selection. This apparent disregard for the incest taboo, however, was viewed as violating natural laws and cultural norms. The debate intensified between 1817 and 1820, when a Hungarian veteran soldier, sheep breeder, and self-taught natural scientist, Imre (Emmerich) Festetics, displayed his inbred Mimush sheep, which yielded wool extremely well suited for the fabrication of light but strong garments. Members of the Society questioned whether such “bastard sheep” would be prone to climatic degeneration, should be regarded as freaks of nature, or could be explained by natural laws. The exploration of inbreeding in sheep began to be distilled into hereditary principles that culminated in 1819 with Festetics’s “laws of organic functions” and “genetic laws of nature,” four decades before Gregor Johann Mendel’s seminal work on heredity in peas.

Published

2022

14. Investigating Foliar Macro- and Micronutrient Variation with Chlorophyll Fluorescence and Reflectance Measurements at the Leaf and Canopy Scales in Potato

Author

Jaakko Oivukkamäki, Jon Atherton, Shan Xu, Anu Riikonen, Chao Zhang, Teemu Hakala, Eija Honkavaara, Albert Porcar-Castell, Department of Forest Sciences, Doctoral Programme in Atmospheric Sciences, Ecosystem processes (INAR Forest Sciences), Forest Ecology and Management, Doctoral Programme in Plant Sciences, Department of Agricultural Sciences, Viikki Plant Science Centre (ViPS), Maanmittauslaitos, and National Land Survey of Finland

Subjects

SIF, chlorophyll fluorescence, UAV, potato (Solanum tuberosum L.), SIF, PRI, canopy structure, General Earth and Planetary Sciences, potato (Solanum tuberosum L.), 11831 Plant biology, 4111 Agronomy

Abstract

Funding Information: This work was supported by the University of Helsinki (starting package funds to Porcar-Castell) and the Horizon 2020 project number 820852 (“E-SHAPE” (EuroGEOSS Showcases: Applications Powered by Europe)). Open access funding provided by University of Helsinki. Publisher Copyright: © 2023 by the authors. Vegetation indices (VIs) related to plant greenness have been studied extensively for the remote detection of foliar nitrogen content. Yet, the potential of chlorophyll fluorescence (ChlF) and photoprotection-based indices such as the photochemical reflectance index (PRI) or the chlorophyll/carotenoid index (CCI) for the detection of a wide range of nutrients remains elusive. We measured the dynamics of foliar macro- and micronutrient contents in potato plants as affected by fertilization and water stress, along with leaf and canopy level observations of spectral reflectance and ChlF (or solar-induced fluorescence). ChlF and photoprotection-related indices were more strongly related to a wide range of foliar nutrient contents compared to greenness-based indices. At the leaf level, relationships were largely mediated by foliar chlorophyll contents (Cab) and leaf morphology, which resulted in two contrasting groupings: a group dominated by macronutrients N, P, K, and Mg that decreased during canopy development and was positively correlated with Cab, and a group including Cu, Mn, Zn, and S that increased and was negatively related to Cab. At the canopy-level, spectral indices were additionally influenced by canopy structure, and so their capacity to detect foliar nutrient contents depends on the spatiotemporal covariation between foliar Cab, morphology, and canopy structure within the observations.

Published

2023

15. Identifying physiological and genetic determinants of faba bean transpiration response to evaporative demand

Author

Hend Mandour, Hamid Khazaei, Frederick L Stoddard, Ian C Dodd, Helsinki Institute of Sustainability Science (HELSUS), Viikki Plant Science Centre (ViPS), Department of Agricultural Sciences, Plant Production Sciences, Legume science, and Crop Science Research Group

Subjects

Hydraulic conductance, Vapour pressure deficit, Faba bean, Plant Science, Abiotic stress, 4111 Agronomy, Genetic control, Transpiration

Abstract

Background and Aims Limiting maximum transpiration rate (TR) under high vapour pressure deficit (VPD) works as a water conservation strategy. While some breeding programmes have incorporated this trait into some crops to boost yields in water-limited environments, its underlying physiological mechanisms and genetic regulation remain unknown for faba bean (Vicia faba). Thus, we aimed to identify genetic variation in the TR response to VPD in a population of faba bean recombinant inbred lines (RILs) derived from two parental lines with contrasting water use (Mélodie/2 and ILB 938/2). Methods Plants were grown in well-watered soil in a climate-controlled glasshouse with diurnally fluctuating VPD and light conditions. Whole plant transpiration was measured in a gas exchange chamber that tightly regulated VPD around the shoot under constant light, while whole-plant hydraulic conductance and its components (root and stem hydraulic conductance) were calculated from dividing TR by water potential gradients measured with a pressure chamber. Key Results Although TR of Mélodie/2 increased linearly with VPD, ILB 938/2 limited its TR above 2.0 kPa. Nevertheless, Mélodie/2 had a higher leaf water potential than ILB 938/2 at both low (1.0 kPa) and high (3.2 kPa) VPD. Almost 90 % of the RILs limited their TR at high VPD with a break-point (BP) range of 1.5–3.0 kPa and about 10 % had a linear TR response to VPD. Thirteen genomic regions contributing to minimum and maximum transpiration, and whole-plant and root hydraulic conductance, were identified on chromosomes 1 and 3, while one locus associated with BP transpiration was identified on chromosome 5. Conclusions This study provides insight into the physiological and genetic control of transpiration in faba bean and opportunities for marker-assisted selection to improve its performance in water-limited environments.

Published

2023

16. Viral and Bacterial Communities Collaborate through Complementary Assembly Processes in Soil to Survive Organochlorine Contamination

Author

Shujian Yuan, Ville-Petri Friman, Jose Luis Balcazar, Xiaoxuan Zheng, Mao Ye, Mingming Sun, Feng Hu, Helsinki One Health (HOH), Viikki Plant Science Centre (ViPS), and Department of Microbiology

Subjects

11832 Microbiology and virology, Soil, Ecology, Organochlorine pesticides, Microbial community assembly, Virus-host interactions, Applied Microbiology and Biotechnology, Food Science, Biotechnology, Virus, 4111 Agronomy

Abstract

doi: 10.1128/aem.01810-22 The ecological drivers that direct the assembly of viral and host bacterial communities are largely unknown, even though viral-encoded accessory genes help host bacteria survive in polluted environments. To understand the ecological mechanism(s) of viruses and hosts synergistically surviving under organochlorine pesticide (OCP) stress, we investigated the community assembly processes of viruses and bacteria at the taxon and functional gene levels in clean and OCP-contaminated soils in China using a combination of metagenomics/viromics and bioinformatics approaches. We observed a decreased richness of bacterial taxa and functional genes but an increased richness of viral taxa and auxiliary metabolic genes (AMGs) in OCP-contaminated soils (from 0 to 2,617.6 mg center dot kg(-1)). In OCP-contaminated soils, the assembly of bacterial taxa and genes was dominated by a deterministic process, of which the relative significance was 93.0% and 88.7%, respectively. In contrast, the assembly of viral taxa and AMGs was driven by a stochastic process, which contributed 83.1% and 69.2%, respectively. The virus-host prediction analysis, which indicated Siphoviridae was linked to 75.0% of bacterial phyla, and the higher migration rate of viral taxa and AMGs in OCP-contaminated soil suggested that viruses show promise for the dissemination of functional genes among bacterial communities. Taken together, the results of this study indicated that the stochastic assembly processes of viral taxa and AMGs facilitated bacterial resistance to OCP stress in soils. Moreover, our findings provide a novel avenue for understanding the synergistic interactions between viruses and bacteria from the perspective of microbial ecology, highlighting the significance of viruses in mediating bioremediation of contaminated soils.IMPORTANCE The interaction between viral communities and microbial hosts has been studied extensively, and the viral community affects host community metabolic function through AMGs. Microbial community assembly is the process by which species colonize and interact to establish and maintain communities. This is the first study that aimed to understand the assembly process of bacterial and viral communities under OCP stress. The findings of this study provide information about microbial community responses to OCP stress and reveal the collaborative interactions between viral and bacterial communities to resist pollutant stress. Thereby, we highlight the importance of viruses in soil bioremediation from the perspective of community assembly.The interaction between viral communities and microbial hosts has been studied extensively, and the viral community affects host community metabolic function through AMGs. Microbial community assembly is the process by which species colonize and interact to establish and maintain communities.

Published

2023

17. Evaluation of pathogenicity of Botrytis species isolated from different legumes

Author

Elīna Brauna-Morževska, Frederick L. Stoddard, Biruta Bankina, Jānis Kaņeps, Gunita Bimšteine, Irina Petrova, Ingrīda Neusa-Luca, Ance Roga, Dāvids Fridmanis, Department of Agricultural Sciences, Helsinki Institute of Sustainability Science (HELSUS), Viikki Plant Science Centre (ViPS), Crop Science Research Group, Legume science, Plant Production Sciences, Doctoral Programme in Food Chain and Health, Doctoral Programme in Plant Sciences, and Doctoral Programme in Sustainable Use of Renewable Natural Resources

Subjects

11832 Microbiology and virology, Chocolate spot, Pathogenicity tests, Medusae, Plant Science, Botrytis, Euroamericana, Legumes, 11831 Plant biology, Gray mold, 4111 Agronomy

Abstract

Fungi of genus Botrytis are important pathogens of legumes, causing gray mold and chocolate spot diseases. The use of molecular methods to identify pathogens has resulted in the discovery of several new Botrytis species and new associations of pathogens with diseases. Thus, chocolate spot of faba bean is now associated with at least four species: B. fabae, B. cinerea, B. pseudocinerea and B. fabiopsis. Species of Botrytis differ in host plant, pathogenicity, fungicide resistance and other relevant properties that affect disease control. The aim of this study was to identify the species of Botrytis isolated from different legume crops and to evaluate their in vitro pathogenicity. Between 2014 and 2019, 278 isolates of Botrytis were obtained from infected legumes in Latvia. A phylogenetic analysis was carried out by sequencing three nuclear genes, RPB2, HSP60, and G3PDH, considered to be diagnostic for species in this genus. A set of 21 representative isolates was selected for pathogenicity tests on detached leaves of faba bean, field pea, lupin and soybean using 5-mm mycelium-agar plugs. The diameter of the formed lesions under the inoculated plug was measured crosswise each day. The datasets were subjected to analysis of variance with the split-plot design of the experiment and repeated-measures model. Six species were identified: B. cinerea, B. fabae, B. pseudocinerea, B. fabiopsis, B. euroamericana and B. medusae. In addition to the expected combinations of host and pathogen, naturally occurring infections of B. fabiopsis were found on chickpea, B. euroamericana on faba bean and B. medusae in lupin seeds. Species and isolate had significant effects on pathogenicity on all crops tested. Several isolates were pathogenic on two or more host species: two of B. pseudocinerea, two of B. cinerea, two of B. fabiopsis and the one of B. medusae. One isolate of B. pseudocinerea and two of B. fabiopsis caused primary lesions on all five host species. The results show that these Botrytis species have a broad host range that should be borne in mind when planning crop sequences and rotations.

Published

2023

18. The giant diploid faba genome unlocks variation in a global protein crop

Author

Murukarthick Jayakodi, Agnieszka A. Golicz, Jonathan Kreplak, Lavinia I. Fechete, Deepti Angra, Petr Bednář, Elesandro Bornhofen, Hailin Zhang, Raphaël Boussageon, Sukhjiwan Kaur, Kwok Cheung, Jana Čížková, Heidrun Gundlach, Asis Hallab, Baptiste Imbert, Gabriel Keeble-Gagnère, Andrea Koblížková, Lucie Kobrlová, Petra Krejčí, Troels W. Mouritzen, Pavel Neumann, Marcin Nadzieja, Linda Kærgaard Nielsen, Petr Novák, Jihad Orabi, Sudharsan Padmarasu, Tom Robertson-Shersby-Harvie, Laura Ávila Robledillo, Andrea Schiemann, Jaakko Tanskanen, Petri Törönen, Ahmed O. Warsame, Alexander H. J. Wittenberg, Axel Himmelbach, Grégoire Aubert, Pierre-Emmanuel Courty, Jaroslav Doležel, Liisa U. Holm, Luc L. Janss, Hamid Khazaei, Jiří Macas, Martin Mascher, Petr Smýkal, Rod J. Snowdon, Nils Stein, Frederick L. Stoddard, Jens Stougaard, Nadim Tayeh, Ana M. Torres, Björn Usadel, Ingo Schubert, Donal Martin O’Sullivan, Alan H. Schulman, Stig Uggerhøj Andersen, Institute of Biotechnology, Computational genomics, Organismal and Evolutionary Biology Research Programme, Genetics, Bioinformatics, Department of Agricultural Sciences, Viikki Plant Science Centre (ViPS), Helsinki Institute of Sustainability Science (HELSUS), Crop Science Research Group, Legume science, and Plant Production Sciences

Subjects

Multidisciplinary, 1184 Genetics, developmental biology, physiology, ddc:500, 11831 Plant biology, metabolism, Genome-Wide Association Study, Plant Proteins, genetics, Plant Breeding, Vicia faba, DNA Copy Number Variations, Diploidy, 4111 Agronomy

Abstract

Increasing the proportion of locally produced plant protein in currently meat-rich diets could substantially reduce greenhouse gas emissions and loss of biodiversity1. However, plant protein production is hampered by the lack of a cool-season legume equivalent to soybean in agronomic value2. Faba bean (Vicia faba L.) has a high yield potential and is well suited for cultivation in temperate regions, but genomic resources are scarce. Here, we report a high-quality chromosome-scale assembly of the faba bean genome and show that it has expanded to a massive 13 Gb in size through an imbalance between the rates of amplification and elimination of retrotransposons and satellite repeats. Genes and recombination events are evenly dispersed across chromosomes and the gene space is remarkably compact considering the genome size, although with substantial copy number variation driven by tandem duplication. Demonstrating practical application of the genome sequence, we develop a targeted genotyping assay and use high-resolution genome-wide association analysis to dissect the genetic basis of seed size and hilum colour. The resources presented constitute a genomics-based breeding platform for faba bean, enabling breeders and geneticists to accelerate the improvement of sustainable protein production across the Mediterranean, subtropical and northern temperate agroecological zones.

Published

2023

19. Estimating intraseasonal intrinsic water-use efficiency from high-resolution tree-ring delta C-13 data in boreal Scots pine forests

Author

Yu Tang, Elina Sahlstedt, Giles Young, Pauliina Schiestl‐Aalto, Matthias Saurer, Pasi Kolari, Tuula Jyske, Jaana Bäck, Katja T. Rinne‐Garmston, Institute for Atmospheric and Earth System Research (INAR), Ecosystem processes (INAR Forest Sciences), Micrometeorology and biogeochemical cycles, Viikki Plant Science Centre (ViPS), Department of Forest Sciences, and Forest Ecology and Management

Subjects

Leaf gas exchange, Physiology, Intrinsic water-use efficiency, tree-ring delta C-13, Pinus sylvestris L, Mesophyll conductance, Plant Science, Eddy covariance, Postphotosynthetic isotopic fractionation, 11831 Plant biology, Laser ablation

Abstract

Intrinsic water-use efficiency (iWUE), a key index for carbon and water balance, has been widely estimated from tree-ring delta C-13 at annual resolution, but rarely at high-resolution intraseasonal scale. We estimated high-resolution iWUE from laser-ablation delta C-13 analysis of tree-rings (iWUE(iso)) and compared it with iWUE derived from gas exchange (iWUE(gas)) and eddy covariance (iWUE(EC)) data for two Pinus sylvestris forests from 2002 to 2019. By carefully timing iWUE(iso) via modeled tree-ring growth, iWUE(iso) aligned well with iWUE(gas) and iWUE(EC) at intraseasonal scale. However, year-to-year patterns of iWUE(gas), iWUE(iso), and iWUE(EC) were different, possibly due to distinct environmental drivers on iWUE across leaf, tree, and ecosystem scales. We quantified the modification of iWUE(iso) by postphotosynthetic delta C-13 enrichment from leaf sucrose to tree rings and by nonexplicit inclusion of mesophyll and photorespiration terms in photosynthetic discrimination model, which resulted in overestimation of iWUE(iso) by up to 11% and 14%, respectively. We thus extended the application of tree-ring delta C-13 for iWUE estimates to high-resolution intraseasonal scale. The comparison of iWUE(gas), iWUE(iso), and iWUE(EC) provides important insights into physiological acclimation of trees across leaf, tree, and ecosystem scales under climate change and improves the upscaling of ecological models.

Published

2023

20. Monocot diet sources drive diversity of gut bacterial communities in Spodoptera frugiperda (Lepidoptera: Noctuidae) larvae

Author

Fred O Asiegbu, Juliana Ugwu, Wenzi Ren, Department of Forest Sciences, Helsinki Institute of Sustainability Science (HELSUS), Viikki Plant Science Centre (ViPS), Frederick Asiegbu / Principal Investigator, and Forest Ecology and Management

Subjects

MIDGUT, TRADE-OFFS, lab-reared larvae, MOTH, WILD, TAXONOMY, MICROBIOTA, fall armyworm, plant diets, LIFE, Insect Science, 1181 Ecology, evolutionary biology, POPULATIONS, monocot, PLANT, PHYSIOLOGY, bacteria, Agronomy and Crop Science

Abstract

Microbiome research is currently gaining tremendous interest on the impact of diets and environment to influence life traits of several hosts. Full understanding of the insect ecology and characterization of gut microbial community including their natural enemies is vital for development of novel insect pest management strategies. This study examined the gut bacterial communities of Fall armyworm (FAW) Spodoptera frugiperda reared in the laboratory with three monocot plant diets (Sugarcane [M1], maize [M2] and onion [M3]) using 16S rRNA gene sequencing. The study revealed variations in the structure and community of the gut bacterial biota of FAW larvae reared with three monocot plants. Diet sources greatly altered the structure of the gut bacterial community. Three alpha diversity indices (observed species richness Chao1 and ACE) showed significant differences among the various diet groups. The principal component analysis revealed a moderate distinction in bacterial communities of the FAW larvae reared with the three monocot plants. Higher numbers of operational taxonomic units (OTUs) were observed in sugarcane diet (M1). The bacterial communities of all the larvae groups were dominated by phylum Firmicutes. A redundancy analysis (RDA) indicated that neutral detergent fibre (NDF) (p < 0.0005) was the most significant factors influencing the community distribution of gut bacteria of FAW larvae. Functional Annotation of Prokaryotic Taxa (FAPROTAX) analysis predicted that chemoheterotrophy, fermentation, aerobic chemoheterotrophy and aromatic compound degradation were the prominent putative functions of FAW larvae gut bacteria communities. Chemoheterotrophy was the most dominant putative functions predicted and was higher in sugarcane diet. Furthermore, the complexity of the network structure was higher in M1 while the modularity was higher in maize diet. The different monocot diets had a considerable impact on bacterial composition in the gut of Fall armyworm larvae and their ecological and functional relevance are discussed.

Published

2022

21. The benefits of informed management of sunlight in production greenhouses and polytunnels

Author

T. Matthew Robson, Marta Pieristè, Maxime Durand, Titta K. Kotilainen, Pedro J. Aphalo, Canopy Spectral Ecology and Ecophysiology, Viikki Plant Science Centre (ViPS), Biosciences, Organismal and Evolutionary Biology Research Programme, Faculty of Biological and Environmental Sciences, Plant Biology, and Sensory and Physiological Ecology of Plants (SenPEP)

Subjects

ultraviolet radiation, TRANSMISSION, solar radiation, ULTRAVIOLET, WHEAT, CROP, Forestry, food security, Plant Science, Horticulture, RED, 11831 Plant biology, controlled plant production, YIELD, LIGHT QUALITY, GROWTH, photobiology, PHOTOSYNTHETICALLY ACTIVE RADIATION, energy efficiency, LIBRADTRAN SOFTWARE PACKAGE, Ecology, Evolution, Behavior and Systematics

Abstract

Societal Impact Statement The effective management of light is beneficial for growers of plants in greenhouses, polytunnels and under cloches. The materials and structures used to construct these environments often create light-limited conditions for crops and change the spectral composition of sunlight they receive. Combining practical measures, drawn from knowledge of plant photobiology, allows growers to monitor, forecast and optimise conditions in their growing environment according to its geographical location and the crop grown. Improved management of light through these measures could be expected to improve food quality and yield, and potentially reduce use of energy, water and pesticides. Horticultural production in greenhouses and in polytunnels expands the viable geographic range of many crop species and extends their productive growing season. These semi-controlled growing environments buffer natural fluctuations in heat, cold and light and hold potential to improve food security with a low environmental footprint. Over the last decade, technological advances in cladding materials, smart filters, photo-electric cells for energy production and LED lighting have created opportunities to improve the light environment within these structures. In parallel, there have been large advances in plant photobiology, underpinned by progress in identifying the mechanisms of photomorphogenesis and photoprotection, mediated by plant photoreceptors and their interactions, across regions of the spectrum. However, there remains unexploited potential to synthesise and transfer knowledge from these fields to horticulture, particularly with respect to tailoring the use of sunlight to specific locations and production systems. Here, we systematically explain (1) the value of modelling and monitoring patterns of sunlight to allow for informed design of the growth environment; (2) the means of optimising light conditions through selection of materials and structures; (3) the requirements of different crop plants in terms of the amount and spectral composition of light that will benefit yield and food quality; (4) the potential to combine this knowledge for effective management of the sunlight; and, finally, (5) the additional benefits these actions may bring to growers and society at large, beyond the crops themselves, in terms of water use and energy efficiency.

Published

2022

22. Does growing atmospheric CO2 explain increasing carbon sink in a boreal coniferous forest?

Author

Samuli Launiainen, Gabriel G. Katul, Kersti Leppä, Pasi Kolari, Toprak Aslan, Tiia Grönholm, Lauri Korhonen, Ivan Mammarella, Timo Vesala, Institute for Atmospheric and Earth System Research (INAR), Micrometeorology and biogeochemical cycles, Ecosystem processes (INAR Forest Sciences), and Viikki Plant Science Centre (ViPS)

Subjects

4112 Forestry, Global and Planetary Change, Ecology, Ecosystem modeling, Water use efficiency, Eddy-covariance, Carbon balance, Fluxnet, Carbon and water fluxes, Leaf area index, Climate change, Environmental Chemistry, Boreal forest, Decadal trends, Inter-annual variability, General Environmental Science

Abstract

The terrestrial net ecosystem productivity (NEP) has increased during the past three decades, but the mechanisms responsible are still unclear. We analyzed 17 years (2001-2017) of eddy-covariance measurements of NEP, evapotranspiration (ET) and light and water use efficiency from a boreal coniferous forest in Southern Finland for trends and inter-annual variability (IAV). The forest was a mean annual carbon sink (252 [+/- 42] gC m-2a-1), and NEP increased at rate +6.4-7.0 gC m-2a-1 (or ca. +2.5% a-1) during the period. This was attributed to the increasing gross-primary productivity GPP and occurred without detectable change in ET. The start of annual carbon uptake period was advanced by 0.7 d a-1, and increase in GPP and NEP outside the main growing season contributed ca. one-third and one-fourth of the annual trend, respectively. Meteorological factors were responsible for the IAV of fluxes but did not explain the long-term trends. The growing season GPP trend was strongest in ample light during the peak growing season. Using a multi-layer ecosystem model, we showed that direct CO2 fertilization effect diminishes when moving from leaf to ecosystem, and only 30-40% of the observed ecosystem GPP increase could be attributed to CO2. The increasing trend in leaf-area index (LAI), stimulated by forest thinning in 2002, was the main driver of the enhanced GPP and NEP of the mid-rotation managed forest. It also compensated for the decrease of mean leaf stomatal conductance with increasing CO2 and LAI, explaining the apparent proportionality between observed GPP and CO2 trends. The results emphasize that attributing trends to their physical and physiological drivers is challenged by strong IAV, and uncertainty of LAI and species composition changes due to the dynamic flux footprint. The results enlighten the underlying mechanisms responsible for the increasing terrestrial carbon uptake in the boreal zone.

Published

2022

23. Towards agricultural soil carbon monitoring, reporting, and verification through the Field Observatory Network (FiON)

Author

O. Nevalainen, O. Niemitalo, I. Fer, A. Juntunen, T. Mattila, O. Koskela, J. Kukkamäki, L. Höckerstedt, L. Mäkelä, P. Jarva, L. Heimsch, H. Vekuri, L. Kulmala, Å. Stam, O. Kuusela, S. Gerin, T. Viskari, J. Vira, J. Hyväluoma, J.-P. Tuovinen, A. Lohila, T. Laurila, J. Heinonsalo, T. Aalto, I. Kunttu, J. Liski, Department of Forest Sciences, Ecosystem processes (INAR Forest Sciences), Institute for Atmospheric and Earth System Research (INAR), Forest Ecology and Management, Department of Microbiology, Viikki Plant Science Centre (ViPS), Jussi Heinonsalo / Principal Investigator, Forest Soil Science and Biogeochemistry, Suomen ympäristökeskus, and The Finnish Environment Institute

Subjects

Atmospheric Science, hiili, Geophysics. Cosmic physics, viljelymenetelmät, Oceanography, 114 Physical sciences, ilmastovaikutukset, carbon farming practices, maatalous, Suomi, WATER, seuranta, Finland, 1172 Environmental sciences, agriculture, climate effects, 4112 Forestry, greenhouse gas emissions, QC801-809, Geology, maatalousmaa, MODEL, ORGANIC-MATTER, kasvihuonekaasut, LINKING, päästöt

Abstract

Better monitoring, reporting, and verification (MRV) of the amount, additionality, and persistence of the sequestered soil carbon is needed to understand the best carbon farming practices for different soils and climate conditions, as well as their actual climate benefits or cost efficiency in mitigating greenhouse gas emissions. This paper presents our Field Observatory Network (FiON) of researchers, farmers, companies, and other stakeholders developing carbon farming practices. FiON has established a unified methodology towards monitoring and forecasting agricultural carbon sequestration by combining offline and near-real-time field measurements, weather data, satellite imagery, modeling, and computing networks. FiON's first phase consists of two intensive research sites and 20 voluntary pilot farms testing carbon farming practices in Finland. To disseminate the data, FiON built a web-based dashboard called the Field Observatory (v1.0, https://www.fieldobservatory.org/, last access: 3 February 2022). The Field Observatory is designed as an online service for near-real-time model–data synthesis, forecasting, and decision support for the farmers who are able to monitor the effects of carbon farming practices. The most advanced features of the Field Observatory are visible on the Qvidja site, which acts as a prototype for the most recent implementations. Overall, FiON aims to create new knowledge on agricultural soil carbon sequestration and effects of carbon farming practices as well as provide an MRV tool for decision support.

Published

2022

24. The 2018 European heatwave led to stem dehydration but not to consistent growth reductions in forests

Author

Salomón, Roberto L., Peters, Richard L., Zweifel, Roman, Sass-Klaassen, Ute G.W., Stegehuis, Annemiek I., Smiljanic, Marko, Poyatos, Rafael, Babst, Flurin, Cienciala, Emil, Fonti, Patrick, Lerink, Bass J.W., Lindner, Marcus, Martínez-Vilalta, Jordi, Mencuccini, Maurizio, Nabuurs, Gert-Jan, van der Maaten, Ernst, von Arx, Georg, Bär, Andreas, Akhmetzyanov, Linar, Balanzategui, Daniel, Bellan, Michal, Bendix, Jörg, Berveiller, Daniel, Blaženec, Miroslav, Čada, Vojtěch, Carraro, Vinicio, Cecchini, Sébastien, Chan, Tommy, Conedera, Marco, Delpierre, Nicolas, Delzon, Sylvain, Ditmarová, Lubica, Dolezal, Jiri, Dufrêne, Eric, Edvardsson, Johannes, Ehekircher, Stefan, Forner, Alicia, Frouz, Jan, Ganthaler, Andrea, Gryc, Vladimír, Güney, Aylin, Heinrich, Ingo, Hentschel, Rainer, Janda, Pavel, Ježík, Marek, Kahle, Hans-Peter, Knüsel, Simon, Krejza, Jan, Kuberski, Łukasz, Kučera, Jiří, Lebourgeois, François, Mikoláš, Martin, Matula, Radim, Mayr, Stefan, Oberhuber, Walter, Obojes, Nikolaus, Osborne, Bruce, Paljakka, Teemu, Plichta, Roman, Rabbel, Inke, Rathgeber, Cyrille B.K., Salmon, Yann, Saunder, Matthew, Scharnweber, Tobias, Sitková, Zuzana, Stangler, Dominik Florian, Stereńczak, Krzysztof, Stereńczak, Marko, Střelcová, Katarína, Světlík, Jan, Svodoba, Miroslav, Tobin, Brian, Trotsiuk, Volodymyr, Urban, Josef, Valladares Ros, Fernando, Vavrčík, Hanuš, Vejpustková, Monika, Walthert, Lorenz, Wilmking, Martin, Zin, Ewa, Zou, Junliang, Steppe, Kathy, Institute for Atmospheric and Earth System Research (INAR), Ecosystem processes (INAR Forest Sciences), Department of Forest Sciences, University of Helsinki, Viikki Plant Science Centre (ViPS), Micrometeorology and biogeochemical cycles, Ministerio de Ciencia e Innovación (España), Swiss National Science Foundation, and Ministerio de Economía y Competitividad (España)

Subjects

Agriculture and Food Sciences, Climate, Ecophysiology, Bos- en Landschapsecologie, General Physics and Astronomy, Forests, Trees, CARBON, Soil, HYDRAULIC SAFETY MARGINS, ECOSYSTEMS, Forest and Landscape Ecology, SAP FLOW, Plant ecology, TEMPERATURE, DROUGHT, 4112 Forestry, Multidisciplinary, PRODUCTIVITY, Dehydration, Ecology, Norway, Climate-change ecology, Pinus sylvestris, PE&RC, Droughts, SUMMER, Vegetatie, Bos- en Landschapsecologie, Climate Research, Infrared Rays, Climate Change, Science, Article, General Biochemistry, Genetics and Molecular Biology, TREE WATER-DEFICIT, Life Science, Bosecologie en Bosbeheer, Picea, Vegetatie, 1172 Environmental sciences, Ecosystem, Vegetation, Water, Forest Science, General Chemistry, Heat, Forest Ecology and Forest Management, Vegetation, Forest and Landscape Ecology, Forest ecology, RESPONSES

Abstract

Heatwaves exert disproportionately strong and sometimes irreversible impacts on forest ecosystems. These impacts remain poorly understood at the tree and species level and across large spatial scales. Here, we investigate the effects of the record-breaking 2018 European heatwave on tree growth and tree water status using a collection of high-temporal resolution dendrometer data from 21 species across 53 sites. Relative to the two preceding years, annual stem growth was not consistently reduced by the 2018 heatwave but stems experienced twice the temporary shrinkage due to depletion of water reserves. Conifer species were less capable of rehydrating overnight than broadleaves across gradients of soil and atmospheric drought, suggesting less resilience toward transient stress. In particular, Norway spruce and Scots pine experienced extensive stem dehydration. Our high-resolution dendrometer network was suitable to disentangle the effects of a severe heatwave on tree growth and desiccation at large-spatial scales in situ, and provided insights on which species may be more vulnerable to climate extremes., This work utilised the network of dendrometer observations established by the COST Action network STReESS (grant FP1106). We acknowledge the involved networks TreeNet, Swiss Long-term Forest Ecosystem Research Programme LWF, French National Network for Long-term FOrest ECOsystem Monitoring RENECOFOR, the German Long Term Ecosystem Research Network LTER-D, the Italian Long Term Ecosystem Research Network ILTER, the Integrated Carbon Observation System ICOS and Tree-Watch.net. R.L.S. acknowledges funding from the Special Research Fund (BOF) of Ghent University for Postdoctoral Fellowships and the Spanish Ministry of Science, Innovation, and Universities (Juan de la Cierva Programme, grant IJC2018-036123-I). R.L.P., R.Z., P.F., and G.v.A. acknowledge funding from the Federal Office for the Environment FOEN (00.0365.PZ I 0427-0562, 09.0064.PJ/R301-0223; project treenet.info) and the Swiss National Science Foundation SNF (20FI21_148992, 20FI_173691, P2BSP3_184475; project LOTFOR 150205 and Grant 20FI20_173691; project ICOS-CH). J.M.V. and M.M. acknowledge funding from the Spanish MINECO via competitive grants CGL2013-46808-R and CGL2017-89149-C2-1-R. R.P. acknowledges funding from the grant RTI2018-095297-J-I00 (Spain) and by a Humboldt Research Fellowship for Experienced Researchers (Germany).

Published

2022

25. Effects of mammalian sex hormones on in vitro organogenesis of common bean (Phaseolus vulgaris L.)

Author

Kamil Haliloğlu, Aras Türkoğlu, Özge Balpınar, Halil İbrahim Öztürk, Güller Özkan, Peter Poczai, Botany, Viikki Plant Science Centre (ViPS), and Embryophylo

Subjects

Multidisciplinary, 1181 Ecology, evolutionary biology, 1184 Genetics, developmental biology, physiology, 11831 Plant biology

Abstract

Beans are an important plant species and are one of the most consumed legumes in human nutrition, especially as a protein, vitamin, mineral, and fiber source. Common bean (Phaseolus vulgaris L.) is a plant that also has an important role in natural nitrogen fixation. Currently, in vitro regeneration and micropropagation applications are limited in relation to genetic factors in bean Accordingly, there is great need to optimize micropropagation and tissue culture methods of the bean plant. To date, the effect of mammalian sex hormones (MSH) on in vitro conditions in P. vulgaris L. is poorly understood. This study examined the effects of different types of explants (embryo, hypocotyl, plumule, and radicle), MSH type (progesterone, 17 β-estradiol, estrone, and testosterone), and MSH concentration (10−4, 10−6, 10−8 and 10−10 mmol L−1) on the responding explants induction rate (REI), viability of plantlets rate (VPR), shoot proliferation rate (SPR), root proliferation rate (RPR), and callus induction rate (CIR). The effects of mammalian sex hormones, concentrations, explant type, and their interactions were statistically significant (p ≤ 0.01) in all examined parameters. The best explants were embryo and plumule. Our results showed that the highest REI rate (100%) was recorded when 10−10 mmol L−1 of all MSH was applied to MS medium using the plumule explant. The highest VPR (100%) was obtained when 10−10 mmol L−1 of all MSH was applied to MS medium using the plumule explant. The highest root proliferation rates (77.5%) were recorded in MS medium supplemented with 10−8 mmol L−1 17β-estradiol using embryo explant. The highest percentage of shoot-forming explants (100%) generally was obtained from embryo and plumule cultured in the MS culture medium with low MSH concentration. In addition, the highest CIR (100%) was obtained from embryo and plumule explant cultured in MS medium containing 10−10 mmol L−1 of all MSH types. In conclusion, we observed that mammalian sex hormones may be used in bean in vitro culture.

Published

2023

26. Selenium species transforming along soil-plant continuum and their beneficial roles for horticultural crops

Author

Guo, Qingxue, Ye, Jianhui, Zeng, Jianming, Chen, Liang, Korpelainen, Helena, Li, Chunyang, Department of Agricultural Sciences, Viikki Plant Science Centre (ViPS), Population Genetics and Biodiversity Group, and Plant Production Sciences

Subjects

Brassica-juncea, Bioavailability, Speciation, Elemental selenium, Vitis-vinifera l, Microbial oxidation, Amino-acids, 11831 Plant biology, Selenate, Se, Reduction, 4111 Agronomy

Abstract

Selenium (Se) acquirement from daily diet can help reduce the risk of many diseases. The edible parts of crop plants are the main source of dietary Se, while the Se content in crops is determined by Se bioavailability in soil. We summarize recent research on the biogeochemical cycle of Se driven by specific microorganisms and emphasize the oxidizing process in the Se cycle. Moreover, we discuss how plant root exudates and rhizosphere microorganisms affect soil Se availability. Finally, we cover beneficial microorganisms, including endophytes, that promote crop quality and improve crop tolerance to environmental stresses. Se availability to plants depends on the balance between adsorption and desorption, reduction, methylation and oxidation, which are determined by interactions among soil properties, microbial communities and plants. Reduction and methylation processes governed by bacteria or fungi lead to declined Se availability, while Se oxidation regulated by Se-oxidizing microorganisms increases Se availability to plants. Despite a much lower rate of Se oxidization compared to reduction and methylation, the potential roles of microbial communities in increasing Se bioavailability are probably largely underestimated. Enhancing Se oxidation and Se desorption are crucial for the promotion of Se bioavailability and uptake, particularly in Se-deficient soils. Beneficial roles of Se are reported in terms of improved crop growth and quality, and enhanced protection against fungal diseases and abiotic stress through improved photosynthetic traits, increased sugar and amino acid contents, and promoted defense systems. Understanding Se transformation along the plant-soil continuum is crucial for agricultural production and even for human health.

Published

2023

27. Rhizosphere phage communities drive soil suppressiveness to bacterial wilt disease

Author

Keming Yang, Xiaofang Wang, Rujiao Hou, Chunxia Lu, Zhe Fan, Jingxuan Li, Shuo Wang, Yangchun Xu, Qirong Shen, Ville-Petri Friman, Zhong Wei, Helsinki One Health (HOH), Viikki Plant Science Centre (ViPS), Department of Microbiology, and Helsinki Institute of Sustainability Science (HELSUS)

Subjects

11832 Microbiology and virology, Microbiology (medical), Rhizosphere virome, Phage community ecology, Ralstonia solanacearum, Viral metagenomics, Bacterial wilt disease, Trophic interactions, Microbiology

Abstract

Background Bacterial viruses, phages, play a key role in nutrient turnover and lysis of bacteria in terrestrial ecosystems. While phages are abundant in soils, their effects on plant pathogens and rhizosphere bacterial communities are poorly understood. Here, we used metagenomics and direct experiments to causally test if differences in rhizosphere phage communities could explain variation in soil suppressiveness and bacterial wilt plant disease outcomes by plant-pathogenic Ralstonia solanacearum bacterium. Specifically, we tested two hypotheses: (1) that healthy plants are associated with stronger top-down pathogen control by R. solanacearum-specific phages (i.e. ‘primary phages’) and (2) that ‘secondary phages’ that target pathogen-inhibiting bacteria play a stronger role in diseased plant rhizosphere microbiomes by indirectly ‘helping’ the pathogen. Results Using a repeated sampling of tomato rhizosphere soil in the field, we show that healthy plants are associated with distinct phage communities that contain relatively higher abundances of R. solanacearum-specific phages that exert strong top-down pathogen density control. Moreover, ‘secondary phages’ that targeted pathogen-inhibiting bacteria were more abundant in the diseased plant microbiomes. The roles of R. solanacearum-specific and ‘secondary phages’ were directly validated in separate greenhouse experiments where we causally show that phages can reduce soil suppressiveness, both directly and indirectly, via top-down control of pathogen densities and by alleviating interference competition between pathogen-inhibiting bacteria and the pathogen. Conclusions Together, our findings demonstrate that soil suppressiveness, which is most often attributed to bacteria, could be driven by rhizosphere phage communities that regulate R. solanacearum densities and strength of interference competition with pathogen-suppressing bacteria. Rhizosphere phage communities are hence likely to be important in determining bacterial wilt disease outcomes and soil suppressiveness in agricultural fields.

Published

2023

28. Bulk Transfer Coefficients Estimated From Eddy-Covariance Measurements Over Lakes and Reservoirs

Author

Sofya Guseva, Fernando Armani, Ankur Rashmikant Desai, Nelson Luís Dias, Thomas Friborg, Hiroki Iwata, Joachim Jansen, Gabriella Lükő, Ivan Mammarella, Irina Repina, Anna Rutgersson, Torsten Sachs, Katharina Scholz, Uwe Spank, Victor M Stepanenko, Péter Torma, Timo Vesala, Andreas Lorke, Institute for Atmospheric and Earth System Research (INAR), Micrometeorology and biogeochemical cycles, Viikki Plant Science Centre (ViPS), and Ecosystem processes (INAR Forest Sciences)

Subjects

Atmospheric Science, Climate Research, bulk transfer coefficients, Meteorologi och atmosfärforskning, Eddy-covariance, Oceanografi, hydrologi och vattenresurser, reservoirs, 114 Physical sciences, Bulk transfer coefficients, Klimatforskning, Lakes, Oceanography, Hydrology and Water Resources, Geophysics, Reservoirs, Space and Planetary Science, Meteorology and Atmospheric Sciences, lakes, Earth and Planetary Sciences (miscellaneous), eddy-covariance

Abstract

The drag coefficient, Stanton number and Dalton number are of particular importance for estimating the surface turbulent fluxes of momentum, heat and water vapor using bulk parameterization. Although these bulk transfer coefficients have been extensively studied over the past several decades in marine and large-lake environments, there are no studies analyzing their variability for smaller lakes. Here, we evaluated these coefficients through directly measured surface fluxes using the eddy-covariance technique over more than 30 lakes and reservoirs of different sizes and depths. Our analysis showed that the transfer coefficients (adjusted to neutral atmospheric stability) were generally within the range reported in previous studies for large lakes and oceans. All transfer coefficients exhibit a substantial increase at low wind speeds (

Published

2023

29. Diurnal variability of atmospheric O2, CO2 and their exchange ratio above a boreal forest in southern Finland

Author

Kim A. P. Faassen, Linh N. T. Nguyen, Eadin R. Broekema, Bert A. M. Kers, Ivan Mammarella, Timo Vesala, Penelope A. Pickers, Andrew C. Manning, Jordi Vilà-Guerau de Arellano, Harro A. J. Meijer, Wouter Peters, Ingrid T. Luijkx, Institute for Atmospheric and Earth System Research (INAR), Micrometeorology and biogeochemical cycles, Viikki Plant Science Centre (ViPS), and Ecosystem processes (INAR Forest Sciences)

Subjects

Meteorologie en Luchtkwaliteit, Atmospheric Science, WIMEK, Meteorology and Air Quality, Respiration, Sulfide, Climate, Tall tower, Luchtkwaliteit, O-2/n-2, Air Quality, Oxygen, Meteorology, Fluxes, Gas, Carbon-dioxide, Life Science, Nitrate assimilation, Meteorologie, 1172 Environmental sciences

Abstract

The exchange ratio (ER) between atmospheric O2 and CO2 is a useful tracer for better understanding the carbon budget on global and local scales. The variability of ER (in mol O2 per mol CO2) between terrestrial ecosystems is not well known, and there is no consensus on how to derive the ER signal of an ecosystem, as there are different approaches available, either based on concentration (ERatmos) or flux measurements (ERforest). In this study we measured atmospheric O2 and CO2 concentrations at two heights (23 and 125 m) above the boreal forest in Hyytiälä, Finland. Such measurements of O2 are unique and enable us to potentially identify which forest carbon loss and production mechanisms dominate over various hours of the day. We found that the ERatmos signal at 23 m not only represents the diurnal cycle of the forest exchange but also includes other factors, including entrainment of air masses in the atmospheric boundary layer before midday, with different thermodynamic and atmospheric composition characteristics. To derive ERforest, we infer O2 fluxes using multiple theoretical and observation-based micro-meteorological formulations to determine the most suitable approach. Our resulting ERforest shows a distinct difference in behaviour between daytime (0.92 ± 0.17 mol mol−1) and nighttime (1.03 ± 0.05 mol mol−1). These insights demonstrate the diurnal variability of different ER signals above a boreal forest, and we also confirmed that the signals of ERatmos and ERforest cannot be used interchangeably. Therefore, we recommend measurements on multiple vertical levels to derive O2 and CO2 fluxes for the ERforest signal instead of a single level time series of the concentrations for the ERatmos signal. We show that ERforest can be further split into specific signals for respiration (1.03 ± 0.05 mol mol−1) and photosynthesis (0.96 ± 0.12 mol mol−1). This estimation allows us to separate the net ecosystem exchange (NEE) into gross primary production (GPP) and total ecosystem respiration (TER), giving comparable results to the more commonly used eddy covariance approach. Our study shows the potential of using atmospheric O2 as an alternative and complementary method to gain new insights into the different CO2 signals that contribute to the forest carbon budget.

Published

2023

30. Epistatic modifiers influence the expression of continual flowering in strawberry

Author

Helen Maria Cockerton, Charlotte Florence Nellist, Timo Hytönen, Suzanne Litthauer, Katie Hopson, Adam Whitehouse, Maria Sobczyk, Richard Jonathan Harrison, Department of Agricultural Sciences, Viikki Plant Science Centre (ViPS), and Plant Production Sciences

Subjects

epistasis, Flowering time, Everbearing, Plant Science, Horticulture, GENETIC-CONTROL, TEMPERATURE, Ecology, Evolution, Behavior and Systematics, POPULATION, marker-assisted breeding, QK, Forestry, flowering time, genome-wide association study (GWAS), 11831 Plant biology, Marker-assisted breeding, functional redundancy, FRAGARIA, HOMOLOG, PHOTOPERIOD, EVOLUTIONARY, VARIETIES, TERMINAL-FLOWER1, everbearing, RESPONSES

Abstract

SummaryPrevious work within the community led to the identification of a single dominant allele that controls the everbearing trait. However, frequent observations have indicated that crosses do not segregate in a Mendelian fashion, as would be expected for a trait controlled by a single dominant gene. Therefore, it was hypothesised that one or more unidentified epistatic alleles interact with the major gene.A GWAS was conducted on 587 June-bearers and 207 everbearers to assess the genetic components associated with flowering habit. The segregation ratios of parental strawberry lines with known phenotypes were used to validate the identified alleles.Three loci including the known, major FaPFRU locus and two epistatic modifiers were identified. These modifiers function as enhancers of the everbearing trait in individuals containing a single copy of the FaPFRU everbearing allele and appear to be functionally redundant. Principally, heterozygous individuals required the presence of two modifying alleles in order to allow expression of the everbearing trait.Inclusion of the epistatic alleles improved the prediction of everbearing segregation ratios, beyond that of a single allele model, however, a large proportion of the variation remained unexplained. Future work should identify the additional repressor and enhancer modifiers not identified here. Discovering the genetic components controlling the everbearing trait can enable genetic informed strawberry improvement.Society Impact StatementUntil the 1970s, the majority of commercial strawberry varieties produced a single bloom of flowers. However, continuously flowering, everbearing strawberries are now routinely cultivated and use is increasing. Indeed, introgression of the everbearing flowering trait can lead to economic benefits for growers through the production of a continual crop from the same plant. Utilising genetic guided improvement has the power to streamline everbearing generation. As such, utilising the genetic markers reported here, can help to identify everbearing individuals at an early time point in the breeding process. Furthermore, these markers can help to improve the predictions of progeny segregation ratios.

Published

2023

31. Cryopreservation

Author

Corrales, Carolina, Leliaert, Frederik, Forrest, Laura, Martín, María Paz, Vandelook, Filip, Thines, Marco, Poczai, Péter, Kahila, Gila, Mulcahy, Daniel, Haring, Elisabeth, Krukenhauser, Luise, Mackenzie-Dodds, Jackie, Nagel, Manuela, Ballesteros, Daniel, Astrin, Jonas J., Corrales, Carolina, Astrin, Jonas J., Botany, Viikki Plant Science Centre (ViPS), and Embryophylo

Subjects

1181 Ecology, evolutionary biology, 1184 Genetics, developmental biology, physiology, 11831 Plant biology

Published

2023

32. Diel, seasonal, and inter-annual variation in carbon dioxide effluxes from lakes and reservoirs

Author

Malgorzata Golub, Nikaan Koupaei-Abyazani, Timo Vesala, Ivan Mammarella, Anne Ojala, Gil Bohrer, Gesa A Weyhenmeyer, Peter D Blanken, Werner Eugster, Franziska Koebsch, Jiquan Chen, Kevin Czajkowski, Chandrashekhar Deshmukh, Frederic Guérin, Jouni Heiskanen, Elyn Humphreys, Anders Jonsson, Jan Karlsson, George Kling, Xuhui Lee, Heping Liu, Annalea Lohila, Erik Lundin, Tim Morin, Eva Podgrajsek, Maria Provenzale, Anna Rutgersson, Torsten Sachs, Erik Sahlée, Dominique Serça, Changliang Shao, Christopher Spence, Ian B Strachan, Wei Xiao, Ankur R Desai, Institute for Atmospheric and Earth System Research (INAR), Viikki Plant Science Centre (ViPS), Micrometeorology and biogeochemical cycles, Ecosystem processes (INAR Forest Sciences), and Faculty of Biological and Environmental Sciences

Subjects

Climate Research, synthesis, Renewable Energy, Sustainability and the Environment, Meteorologi och atmosfärforskning, Public Health, Environmental and Occupational Health, Geovetenskap och miljövetenskap, Eddy covariance, reservoirs, Freshwater systems, freshwater systems, Klimatforskning, carbon flux, Lakes, Synthesis, Reservoirs, Meteorology and Atmospheric Sciences, lakes, eddy covariance, Earth and Related Environmental Sciences, Carbon flux, 1172 Environmental sciences, General Environmental Science

Abstract

Accounting for temporal changes in carbon dioxide (CO2) effluxes from freshwaters remains a challenge for global and regional carbon budgets. Here, we synthesize 171 site-months of flux measurements of CO2 based on the eddy covariance method from 13 lakes and reservoirs in the Northern Hemisphere, and quantify dynamics at multiple temporal scales. We found pronounced sub-annual variability in CO2 flux at all sites. By accounting for diel variation, only 11% of site-months were net daily sinks of CO2. Annual CO2 emissions had an average of 25% (range 3%–58%) interannual variation. Similar to studies on streams, nighttime emissions regularly exceeded daytime emissions. Biophysical regulations of CO2 flux variability were delineated through mutual information analysis. Sample analysis of CO2 fluxes indicate the importance of continuous measurements. Better characterization of short- and long-term variability is necessary to understand and improve detection of temporal changes of CO2 fluxes in response to natural and anthropogenic drivers. Our results indicate that existing global lake carbon budgets relying primarily on daytime measurements yield underestimates of net emissions.

Published

2023

33. DNA Assessment

Author

Corrales, Carolina, Veltjen, Emily, Poczai, Péter, Mackenzie-Dodds, Jackie, Haring, Elisabeth, Martín, María Paz, Mulcahy, Daniel, Astrin, Jonas J., Corrales, Carolina, Astrin, Jonas J., Botany, Viikki Plant Science Centre (ViPS), and Embryophylo

Subjects

1181 Ecology, evolutionary biology, 1184 Genetics, developmental biology, physiology, 11831 Plant biology

Published

2023

34. Metadata and Data Management

Author

Corrales, Carolina, Poczai, Péter, Mulcahy, Daniel, Mackenzie-Dodds, Jackie, Haring, Elisabeth, Paz Martin, María, Haston, Elspeth, Vondráček, Dominik, Astrin, Jonas J., Corrales, Carolina, Astrin, Jonas J., Botany, Viikki Plant Science Centre (ViPS), and Embryophylo

Subjects

1181 Ecology, evolutionary biology, 1184 Genetics, developmental biology, physiology, 11831 Plant biology

Published

2023

35. Potato virus A particles – A versatile material for self-assembled nanopatterned surfaces

Author

Swarnalok De, Hoang M. Nguyen, Ville Liljeström, Kristiina Mäkinen, Mauri A. Kostiainen, Jaana Vapaavuori, Plant-Virus Interactions, Department of Microbiology, Biosciences, Viikki Plant Science Centre (ViPS), Multifunctional Materials Design, OtaNano, University of Helsinki, Department of Bioproducts and Biosystems, Department of Chemistry and Materials Science, Aalto-yliopisto, and Aalto University

Subjects

Virology, 216 Materials engineering, Potato virus A Self-assembly Virus nanoparticles Bio-templates Liquid crystal Nanopatterning

Abstract

openaire: EC/H2020/949648/EU//ModelCom The research in Multifunctional Material Design lab (Aalto University) was funded by The Ella Georg Ehrnrooth Foundation, the European Research Council (H2020) StG “Autonomously adapting and communicating modular textiles” No. 949648 ModelCom, Academy of Finland SUPER-WEAR project (decision number: 322214), ProCrystal (decision 680210), Academy of Finland's Flagship Programme under Projects No. 318890 and 318891 (Competence Center for Materials Bioeconomy, FinnCERES). Research in the Mäkinen lab (University of Helsinki) is supported by Academy of Finland (decision 332950). Further, we acknowledge OtaNano Nanomicroscopy Center at Aalto University for their facilities and expertise that were crucial for the SAXS and TEM studies carried out in this work. We also Acknowledge HiLIFE Biocomplex unit at the University of Helsinki, a member of Instruct-ERIC Centre Finland, FINStruct, and Biocenter Finland for their facilities and expertise that were crucial for the purification of PVA VNPs. Potato virus A (PVA) is a plant-infecting RNA virus that produces flexible particles with a high aspect ratio. PVA has been investigated extensively for its infection biology, however, its potential to serve as a nanopatterning platform remains unexplored. Here, we study the liquid crystal and interfacial self-assembly behavior of PVA particles. Furthermore, we generate nanopatterned surfaces using self-assembled PVA particles through three different coating techniques: drop-casting, drop-top deposition and flow-coating. The liquid crystal phase of PVA solution visualized by polarized optical microscopy revealed a chiral nematic phase in water, while in pH 8 buffer it produced a nematic phase. This allowed us to produce thin films with either randomly or anisotropically oriented cylindrical nanopatterns using drop-top and flow-coating methods. Overall, this study explores the self-assembly process of PVA in different conditions, establishing a starting point for PVA self-assembly research and contributing a virus-assisted fabrication technique for nanopatterned surfaces.

Published

2023

36. Policies Handbook on Using Molecular Collections

Author

de Mestier, Astrid, Mulcahy, Daniel, Harris, David J., Korotkova, Nadja, Long, Sarah, Häffner, Eva, Paton, Alan, Schiller, Edmund K., Leliaert, Frederik, Mackenzie-Dodds, Jacqueline, Fulcher, Tim, Ståhls, Gunilla, von Rintelen, Thomas, Martín, María P., Lücking, Robert, Williams, China, Lyal, Christopher H. C., Güntsch, Anton, Aronsson, Heléne, Castelin, Magalie, Pielach, Anna, Poczai, Péter, Ruiz-León, Yolanda, Sanmartin Bastida, Isabel, Thines, Marco, Droege, Gabriele, Botany, Viikki Plant Science Centre (ViPS), Embryophylo, Gunilla Ståhls-Mäkelä / Principal Investigator, and Zoology

Subjects

1181 Ecology, evolutionary biology, 1184 Genetics, developmental biology, physiology, 11831 Plant biology

Published

2023

37. Species identity and behavior of cave-dwelling tree hyraxes of the Kenyan coast

Author

Hanna Rosti, Henry Pihlström, Norbert Rottcher, Simon Bearder, Lucas Mwangala, Marianne Maghenda, Jouko Rikkinen, Finnish Museum of Natural History, Molecular and Integrative Biosciences Research Programme, Biosciences, The Academic Outreach Network, Helsinki Institute of Sustainability Science (HELSUS), Botany, Viikki Plant Science Centre (ViPS), Teachers' Academy, Plant Biology, and Lichens

Subjects

Nocturnal mammals, Thermal imaging, Ecology, PAM passive acoustic monitoring, 1181 Ecology, evolutionary biology, Sacred forests, Bioacoustics, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

We surveyed tree hyrax populations living in forests, limestone rocky formations, and caves in coastal Kenya to identify the species and estimate the threat-level populations are in. Tree hyrax vocalizations were recorded in three different habitats with passive acoustic monitoring (PAM) for a total of 84 h in January and February 2022. We also observed tree hyrax behavior with thermal imaging camera and photographed individuals. Tree hyraxes in coastal Kenya are vocally active throughout the night, with most calls emitted between 23.00 and 04.00. We identified four different calls: snort, hac, hac ping-pong, and wheeze. Their calling range is between 220 and 15,000 Hz. Calls of tree hyraxes from the coast of Kenya were compared with calls stored by the Oxford Brookes University's Nocturnal Primate Research Group and identified as eastern tree hyrax, previously recorded from Tanzania. Here, we present what are, to our knowledge, the first photographs of live D. validus from Kenya. These tree hyraxes live in social groups. Due to strong pressure from humans, conservation measures are necessary to prevent the extinction of these isolated D. validus populations in Kenya.

Published

2023

38. DNA

Author

Corrales, Carolina, Leliaert, Frederik, Forrest, Laura, Fulcher, Tim, Poczai, Péter, Haring, Elisabeth, Krukenhauser, Luise, Thines, Marco, Mulcahy, Daniel, Mackenzie-Dodds, Jackie, Martín, María Paz, Sanmartín, Isabel, Ruiz, Yolanda, Diéguez-Uribeondo, Javier, Vondráček, Dominik, Astrin, Jonas J., Corrales, Carolina, Astrin, Jonas J., Botany, Viikki Plant Science Centre (ViPS), and Embryophylo

Subjects

1181 Ecology, evolutionary biology, 1184 Genetics, developmental biology, physiology, 11831 Plant biology

Published

2023

39. Genomic Characterisation

Author

Corrales, Carolina, Poczai, Péter, Mulcahy, Daniel, Mackenzie-Dodds, Jackie, Haring, Elisabeth, Krukenhauser, Luise, Martín, María Paz, Sanmartín, Isabel, Ruiz, Yolanda, Diéguez-Uribeondo, Javier, Leliaert, Frederik, Vondráček, Dominik, Ståhls, Gunilla, Forrest, Laura, Thines, Marco, Astrin, Jonas J., Corrales, Carolina, Astrin, Jonas J., Botany, Viikki Plant Science Centre (ViPS), Embryophylo, Gunilla Ståhls-Mäkelä / Principal Investigator, and Zoology

Subjects

1181 Ecology, evolutionary biology, 1184 Genetics, developmental biology, physiology, 11831 Plant biology

Published

2023

40. Field Collection

Author

Corrales, Carolina, Forrest, Laura, Harris, David, Dickie, John, Fulcher, Tim, Paton, Alan, Haston, Elspeth, Haring, Elisabeth, Vandelook, Filip, Thines, Marco, Kahila, Gila, Vondráček, Dominik, von Rintelen, Thomas, Emery, Aidan, Krukenhauser, Luise, Martín, María Paz, Sanmartín, Isabel, Ruiz, Yolanda, Diéguez-Uribeondo, Javier, Poczai, Péter, Astrin, Jonas J., Corrales, Carolina, Astrin, Jonas J., Botany, Viikki Plant Science Centre (ViPS), and Embryophylo

Subjects

1181 Ecology, evolutionary biology, 1184 Genetics, developmental biology, physiology, 11831 Plant biology

Published

2023

41. Retrieval from Preservation and Viability Assessments

Author

Corrales, Carolina, Poczai, Péter, Paton, Alan, Forrest, Laura, Dickie, John, Harris, David, Vandelook, Filip, Martín, María Paz, Mulcahy, Daniel, Mackenzie-Dodds, Jackie, Astrin, Jonas J., Corrales, Carolina, Astrin, Jonas J., Botany, Viikki Plant Science Centre (ViPS), and Embryophylo

Subjects

1181 Ecology, evolutionary biology, 1184 Genetics, developmental biology, physiology, 11831 Plant biology

Published

2023

42. The consolidated European synthesis of CH4 and N2O emissions for the European Union and United Kingdom: 1990–2019

Author

Ana Maria Roxana Petrescu, Chunjing Qiu, Matthew J. McGrath, Philippe Peylin, Glen P. Peters, Philippe Ciais, Rona L. Thompson, Aki Tsuruta, Dominik Brunner, Matthias Kuhnert, Bradley Matthews, Paul I. Palmer, Oksana Tarasova, Pierre Regnier, Ronny Lauerwald, David Bastviken, Lena Höglund-Isaksson, Wilfried Winiwarter, Giuseppe Etiope, Tuula Aalto, Gianpaolo Balsamo, Vladislav Bastrikov, Antoine Berchet, Patrick Brockmann, Giancarlo Ciotoli, Giulia Conchedda, Monica Crippa, Frank Dentener, Christine D. Groot Zwaaftink, Diego Guizzardi, Dirk Günther, Jean-Matthieu Haussaire, Sander Houweling, Greet Janssens-Maenhout, Massaer Kouyate, Adrian Leip, Antti Leppänen, Emanuele Lugato, Manon Maisonnier, Alistair J. Manning, Tiina Markkanen, Joe McNorton, Marilena Muntean, Gabriel D. Oreggioni, Prabir K. Patra, Lucia Perugini, Isabelle Pison, Maarit T. Raivonen, Marielle Saunois, Arjo J. Segers, Pete Smith, Efisio Solazzo, Hanqin Tian, Francesco N. Tubiello, Timo Vesala, Guido R. van der Werf, Chris Wilson, Sönke Zaehle, Earth and Climate, Earth Sciences, Amsterdam Sustainability Institute, Clinicum, University of Helsinki, Social and Cultural Anthropology, Institute for Atmospheric and Earth System Research (INAR), Micrometeorology and biogeochemical cycles, Doctoral Programme in Atmospheric Sciences, Viikki Plant Science Centre (ViPS), and Ecosystem processes (INAR Forest Sciences)

Subjects

Methane emissions, Atmospheric methane, Technical note, Last glacial maximum, Natural wetlands, Terrestrial ecosystems, Inversion framework, Spatiotemporal dynamics, SDG 13 - Climate Action, General Earth and Planetary Sciences, Particle dispersion model, 1172 Environmental sciences, Greenhouse-gas emissions

Abstract

Knowledge of the spatial distribution of the fluxes of greenhouse gases (GHGs) and their temporal variability as well as flux attribution to natural and anthropogenic processes is essential to monitoring the progress in mitigating anthropogenic emissions under the Paris Agreement and to inform its global stocktake. This study provides a consolidated synthesis of CH4 and N2O emissions using bottom-up (BU) and top-down (TD) approaches for the European Union and UK (EU27 + UK) and updates earlier syntheses (Petrescu et al., 2020, 2021). The work integrates updated emission inventory data, process-based model results, data-driven sector model results and inverse modeling estimates, and it extends the previous period of 1990–2017 to 2019. BU and TD products are compared with European national greenhouse gas inventories (NGHGIs) reported by parties under the United Nations Framework Convention on Climate Change (UNFCCC) in 2021. Uncertainties in NGHGIs, as reported to the UNFCCC by the EU and its member states, are also included in the synthesis. Variations in estimates produced with other methods, such as atmospheric inversion models (TD) or spatially disaggregated inventory datasets (BU), arise from diverse sources including within-model uncertainty related to parameterization as well as structural differences between models. By comparing NGHGIs with other approaches, the activities included are a key source of bias between estimates, e.g., anthropogenic and natural fluxes, which in atmospheric inversions are sensitive to the prior geospatial distribution of emissions. For CH4 emissions, over the updated 2015–2019 period, which covers a sufficiently robust number of overlapping estimates, and most importantly the NGHGIs, the anthropogenic BU approaches are directly comparable, accounting for mean emissions of 20.5 Tg CH4 yr−1 (EDGARv6.0, last year 2018) and 18.4 Tg CH4 yr−1 (GAINS, last year 2015), close to the NGHGI estimates of 17.5±2.1 Tg CH4 yr−1. TD inversion estimates give higher emission estimates, as they also detect natural emissions. Over the same period, high-resolution regional TD inversions report a mean emission of 34 Tg CH4 yr−1. Coarser-resolution global-scale TD inversions result in emission estimates of 23 and 24 Tg CH4 yr−1 inferred from GOSAT and surface (SURF) network atmospheric measurements, respectively. The magnitude of natural peatland and mineral soil emissions from the JSBACH–HIMMELI model, natural rivers, lake and reservoir emissions, geological sources, and biomass burning together could account for the gap between NGHGI and inversions and account for 8 Tg CH4 yr−1. For N2O emissions, over the 2015–2019 period, both BU products (EDGARv6.0 and GAINS) report a mean value of anthropogenic emissions of 0.9 Tg N2O yr−1, close to the NGHGI data (0.8±55 % Tg N2O yr−1). Over the same period, the mean of TD global and regional inversions was 1.4 Tg N2O yr−1 (excluding TOMCAT, which reported no data). The TD and BU comparison method defined in this study can be operationalized for future annual updates for the calculation of CH4 and N2O budgets at the national and EU27 + UK scales. Future comparability will be enhanced with further steps involving analysis at finer temporal resolutions and estimation of emissions over intra-annual timescales, which is of great importance for CH4 and N2O, and may help identify sector contributions to divergence between prior and posterior estimates at the annual and/or inter-annual scale. Even if currently comparison between CH4 and N2O inversion estimates and NGHGIs is highly uncertain because of the large spread in the inversion results, TD inversions inferred from atmospheric observations represent the most independent data against which inventory totals can be compared. With anticipated improvements in atmospheric modeling and observations, as well as modeling of natural fluxes, TD inversions may arguably emerge as the most powerful tool for verifying emission inventories for CH4, N2O and other GHGs. The referenced datasets related to figures are visualized at https://doi.org/10.5281/zenodo.7553800 (Petrescu et al., 2023).

Published

2023

43. High-Molecular-Weight DNA

Author

Corrales, Carolina, Mackenzie-Dodds, Jackie, Mulcahy, Daniel, Poczai, Péter, Haring, Elisabeth, Martín, María Paz, Astrin, Jonas J., Corrales, Carolina, Astrin, Jonas J., Botany, Viikki Plant Science Centre (ViPS), and Embryophylo

Subjects

1181 Ecology, evolutionary biology, 1184 Genetics, developmental biology, physiology, 11831 Plant biology

Published

2023

44. Sphagnum moss is a promising growth substrate in arctic bramble container cultivation

Author

Tero Tommila, Antti Kämäräinen, Harri Kokko, Pauliina Palonen, Department of Agricultural Sciences, Research group of Pauliina Palonen, Sphagnum moss as a growing medium, Viikki Plant Science Centre (ViPS), and Plant Production Sciences

Subjects

greenhouse soils, INCOMPATIBILITY, Soil Science, protected cultivation, Container grown plants, PERONOSPORA-SPARSA, intensive cropping, Rubus arcticus L, Agronomy and Crop Science, RUBUS, 4111 Agronomy

Abstract

Development of container cultivation methods for arctic bramble (Rubus arcticus L.) is currently underway. The aim of this study was to evaluate Sphagnum moss and two substrate mixes containing peat and coir or perlite as alternatives for a pure peat substrate in arctic bramble container cultivation, with particular interest on Sphagnum moss. The experiment was conducted in plastic high tunnel in plant towers with three planting levels (Top, Middle, Bottom). The substrates used were unfertilised peat (UP), an UP and perlite mix (80/20 by dry loose volume) (UPP), an UP and commercial coir mix (50/50) (UPCoir) and unfertilised Sphagnum moss (SM). Plant vigour was higher in SM compared to UP and UPP, while total fruit yield, mean fruit weight and individual drupelet weight were higher in SM compared to UPP. Both plant vigour and fruit yield were substantially reduced on Middle and especially Bottom level, compared to the Top level of plant towers. Water retention measurement of pure substrate materials showed higher air volume content in SM compared to UP or pure coir material. We conclude that Sphagnum moss is a highly promising substitute for peat as a substrate in arctic bramble container cultivation.

Published

2022

45. Repeated runner removal after harvest and floating row cover during fall affect carbohydrate status and yield potential of strawberry cvs. Polka and Wendy in the Northern climate

Author

Palonen, Pauliina, Lettojarvi, Iiris, Koivisto, Anu, Raatikainen, Arja, Department of Agricultural Sciences, Viikki Plant Science Centre (ViPS), Research group of Pauliina Palonen, and Plant Production Sciences

Subjects

Fragaria ? ananassa, Floral development, Fruit yield, Starch, Flower mapping, Articles, floral development, flower mapping, Fragaria × ananassa, fruit yield, starch, 4111 Agronomy, Food Science

Abstract

We investigated the impact of repeated runner removal after harvest and row cover during fall on strawberry (Fragaria x ananassa) cvs. Polka and Wendy cropping potential in the joint project of the University of Helsinki and the Rural Advisory Services Finland. Field trials were carried out in 2017 to 2019 on strawberry farms in Southern Ostrobothnia, Finland, at 62 degrees 49 ' N. The treatment effects on the crown carbohydrate reserves, flowering, and yield were recorded. Runner removal three times in three-week intervals after harvest decreased the crown starch re-serves but increased the length of the apical inflorescence initials as observed through flower mapping in November, and the numbers of inflorescences and flowers in cv. Polka. Floating row cover after flower induction in September to October hastened floral development in the fall and increased the numbers of inflorescences, flowers, and fruit in cv. Wendy. Although the effects may depend on a cultivar and weather conditions during fall, repeated removal of runners after harvest and covering plants with a floating row cover after flower induction are recommended to increase strawberry yield potential in the Northern climate.

Published

2022

46. Rhizosphere microbe populations but not root traits induced by drought in Populus euphratica males

Author

Zhichao Xia, Yue He, Jiahui Xu, Zuodong Zhu, Helena Korpelainen, Chunyang Li, Department of Agricultural Sciences, Viikki Plant Science Centre (ViPS), Population Genetics and Biodiversity Group, and Plant Production Sciences

Subjects

Root-soil-microbe interactions, Drought, Root functional traits, Ecology, Dioecy, 1181 Ecology, evolutionary biology, Soil Science, Fungal functional guilds, Sex-specific responses, 11831 Plant biology, Ecology, Evolution, Behavior and Systematics

Abstract

Funding Information: This work was supported by the National Natural Science Foundation of China (Grant No. U1803231). Publisher Copyright: © 2023, Higher Education Press. How sex-related root traits and soil microbes and their interactions respond to drought remains unclear. Here, we investigated how fine root traits and the composition of rhizosphere microbial communities in Populus euphratica females and males respond to drought in concert in 17-year-old plantations. Females increased specific root length (SRL) in response to drought. However, males showed no changes in their roots but significant increases in arbuscular mycorrhizal hyphal biomass and population of Gram-negative bacteria in the rhizosphere. Also, fungal symbiotroph communities associated with root systems in males differed from those in females under drought. We further demonstrated that the Gram-positive to Gram-negative bacteria ratios positively correlated with the SRL, while fungi to bacteria ratios were negatively correlated. Meanwhile, the relative abundance of symbiotrophs was negatively correlated with the SRL, while saprotroph abundance was positively correlated. Nevertheless, the relative abundance of symbiotrophs was positively correlated with the root carbon content (RCC). These findings indicate that microbial responses to drought depend highly upon the sex of the plant and microbial group and are related to root trait adjustments to drought. This discovery also highlights the role of plant-microbial interactions in the ecosystems of P. euphratica forest plantations.

Published

2022

47. Analysis of Nuclear DNA Content and Karyotype of Phaseolus vulgaris L

Author

Haluk Kulaz, Solmaz Najafi, Ruveyde Tuncturk, Murat Tuncturk, Marzough Aziz Albalawi, Adel I. Alalawy, Atif Abdulwahab A. Oyouni, Abdulrahman Alasmari, Peter Poczai, R. Z. Sayyed, University of Helsinki, Finnish Museum of Natural History, Botany, Viikki Plant Science Centre (ViPS), Embryophylo, and Doctoral Programme in Plant Sciences

Subjects

Cytological methods, Phaseolus vulgaris L, Genetics, nuclear DNA, cytological methods, flow cytometry, karyotypic formula, Flow cytometry, Karyotypic formula, 11831 Plant biology, Genetics (clinical)

Abstract

The common bean (Phaseolus vulgaris L.), whose annual production is 26 million tons worldwide, is one of the main sources of protein and is known as one of the most important food sources. In this study, the karyotype variations and the genome size of four common bean genotypes in Turkey were investigated to determine whether the geographic variables in these regions affected the genome size and the karyotype parameters. In addition, it is known that as that the cytological and chromosomal parameters change under the influence of the climatic conditions of each region, appropriate and stable cytological methods for each plant facilitate and enable the determination of the chromosomal structure and the identification of specific chromosomes in the genotypes of the relevant region. Correct and valuable information such as this enables breeders and researchers to determine the correct shape and actual size of chromosomes. The genome size of the genotypes was measured with a flow cytometer, and chromosome analyses were performed with the squash method. For each genotype, the karyotype parameters, such as the number of somatic chromosomes, the Mean Total Chromosome Length (MTCL), the Mean Centromere Index (MCI), and the Mean Arm Ratio (MAR), were measured. The results showed that the highest and the lowest amounts of DNA per nucleus (3.28 pg and 1.49 pg) were observed in the Bitlis and Elaziğ genotypes. In addition, all genotype chromosome numbers were counted to be 2n = 2x = 22. The Mean Total Chromosome Length varied from 15.65 µm in Elaziğ to 34.24 µm in the Bitlis genotype. The Mean Chromosome Length ranged between 1.42 µm and 3.11 µm in the Elaziğ and Bitlis genotypes. The Hakkari and Van genotypes consist of eleven metacentric chromosomes, while the Bitlis and Elaziğ genotypes consist of ten metacentric chromosomes and one sub-metacentric chromosome. However, the Mean Centromere Index and Arm Ratio differed considerably among the genotypes. The highest (46.88) and the lowest (43.18) values of the Mean Centromere Index were observed in the Hakkari and Elaziğ genotypes, respectively. On the other hand, the lowest (1.15) and the highest (1.36) values of the Mean Arm Ratio were obtained in the Bitlis and Elaziğ genotypes, respectively. Eventually, intraspecies variations in genome size and chromosomal parameters were observed, and it was determined that the changes in nuclear DNA content and different chromosomal parameters among the four Phaseolus genotypes from four different regions of Turkey indicate the effect of climate change in the regions on these parameters. Such information in these areas can be used as useful information for the improvement of this plant and breeding programs.

Published

2022

48. Co-application of ACC deaminase-producing rhizobial bacteria and melatonin improves salt tolerance in common bean (Phaseolus vulgaris L.) through ion homeostasis

Author

Alinia, Mozhgan, Kazemeini, Seyed A., Dadkhodaie, Ali, Sepehri, Mozhgan, Jahandideh Mahjenabadi, Vahid A., Amjad, Syeda F., Poczai, Peter, El-Ghareeb, Doaa, Bassouny, Mohamed A., Abdelhafez, Ahmed A., Botany, Viikki Plant Science Centre (ViPS), and Embryophylo

Subjects

Multidisciplinary, 11831 Plant biology

Abstract

A comprehensive body of scientific evidence indicates that rhizobial bacteria and melatonin enhance salt tolerance of crop plants. The overall goal of this research was to evaluate the ability of Rhizobium leguminoserum bv phaseoli to suppress salinity stress impacts in common bean treated with melatonin. Treatments included bacterial inoculations (inoculated (RI) and non-inoculated (NI)), different salinity levels (non-saline (NS), 4 (S1) and 8 (S2) dS m−1 of NaCl) and priming (dry (PD), melatonin (PM100) and hydro (PH) priming) with six replications in growing media containing sterile sand and perlite (1:1). The results showed that the bacterial strain had the ability to produce indole acetic acid (IAA), ACC deaminase and siderophore. Plants exposed to salinity stress indicated a significant decline in growth, yield, yield components, nitrogen fixation and selective transport (ST), while showed a significant increase in sodium uptake. However, the combination of PM100 and RI treatments by improving growth, photosynthesis rate and nitrogen fixation positively influenced plant performance in saline conditions. The combined treatment declined the negative impacts of salinity by improving the potassium translocation, potassium to sodium ratio in the shoot and root and ST. In conclusion, the combination of melatonin and ACC deaminase producing rhizobium mitigated the negative effects of salinity. This result is attributed to the increased ST and decreased sodium uptake, which significantly reduced the accumulation of sodium ions in shoot.

Published

2022

49. The roles of species' relatedness and climate of origin in determining optical leaf traits over a large set of taxa growing at high elevation and high latitude

Author

Saara M. Hartikainen, T. Matthew Robson, Canopy Spectral Ecology and Ecophysiology, Organismal and Evolutionary Biology Research Programme, Viikki Plant Science Centre (ViPS), and Biosciences

Subjects

Flavonoids, Botanical gardens, Photoprotection, Leaf traits, Plant Science, 11831 Plant biology, Mountain species, UV radiation

Abstract

Climate change is driving many mountain plant species to higher elevations and northern plant species to higher latitudes. However, various biotic or abiotic constraints may restrict any range shift, and one relevant factor for migration to higher elevations could be species’ ability to tolerate high UV-doses. Flavonoids are engaged in photoprotection, but also serve multiple ecological roles. We compared plant optical leaf trait responses of a large set of taxa growing in two botanical gardens (French Alps and southern Finland), considering potential constraints imposed by the relatedness of taxa and the legacy of climatic conditions at plants’ original collection sites. The segregation of optically measured leaf traits along the phylogeny was studied using a published mega-tree GBOTB.extended.tre for vascular plants as a backbone. For a subset of taxa, we investigated the relationship between climatic conditions (namely solar radiation, temperature and precipitation at a coarse scale) at the plants’ original collection site and current trait values. Upon testing the phylogenetic signal (Pagel’s λ), we found a significant difference but intermediate lambda values overall for flavonol or flavone index (Iflav) and anthocyanin index (Iant), indicating that phylogenetic relatedness alone failed to explain the changes in trait values under a Brownian motion model of trait evolution. The local analysis (local indicator of phylogenetic association) indicated mostly positive autocorrelations for Iflav i.e. similarities in optically measured leaf traits, often among species from the same genus. We found significant relationships between climatic variables and leaf chlorophyll index (Ichl), but not Iflav, particularly for annual solar radiation. Changes in plants’ Iflav across microhabitats differing in UV irradiance and predominately high Fv/Fm indicated that most plants studied had sufficient flexibility in photoprotection, conferred by Iflav, to acclimate to contemporary UV irradiances in their environment. While not explaining the mechanisms behind observed trait values, our findings do suggest that some high-elevation taxa display similar leaf flavonoid accumulation responses. These may be phylogenetically constrained and hence moderate plants’ capacity to adjust to new combinations of environmental conditions resulting from climate change.

Published

2022

50. Stomatal CO 2 /bicarbonate sensor consists of two interacting protein kinases, Raf-like HT1 and non-kinase-activity requiring MPK12/MPK4

Author

Yohei Takahashi, Krystal C. Bosmans, Po-Kai Hsu, Karnelia Paul, Christian Seitz, Chung-Yueh Yeh, Yuh-Shuh Wang, Dmitry Yarmolinsky, Maija Sierla, Triin Vahisalu, J. Andrew McCammon, Jaakko Kangasjärvi, Li Zhang, Hannes Kollist, Thien Trac, Julian I. Schroeder, Organismal and Evolutionary Biology Research Programme, Viikki Plant Science Centre (ViPS), Plant Stress Signalling, Plant Biology, Plant ROS-Signalling, and Faculty of Biological and Environmental Sciences

Subjects

Multidisciplinary, 11831 Plant biology

Abstract

The continuing rise in the atmospheric carbon dioxide (CO 2 ) concentration causes stomatal closing, thus critically affecting transpirational water loss, photosynthesis, and plant growth. However, the primary CO 2 sensor remains unknown. Here, we show that elevated CO 2 triggers interaction of the MAP kinases MPK4/MPK12 with the HT1 protein kinase, thus inhibiting HT1 kinase activity. At low CO 2 , HT1 phosphorylates and activates the downstream negatively regulating CBC1 kinase. Physiologically relevant HT1-mediated phosphorylation sites in CBC1 are identified. In a genetic screen, we identify dominant active HT1 mutants that cause insensitivity to elevated CO 2 . Dominant HT1 mutants abrogate the CO 2 /bicarbonate-induced MPK4/12-HT1 interaction and HT1 inhibition, which may be explained by a structural AlphaFold2- and Gaussian-accelerated dynamics-generated model. Unexpectedly, MAP kinase activity is not required for CO 2 sensor function and CO 2 -triggered HT1 inhibition and stomatal closing. The presented findings reveal that MPK4/12 and HT1 together constitute the long-sought primary stomatal CO 2 /bicarbonate sensor upstream of the CBC1 kinase in plants.

Published

2022