Your search keyword '"DECIDUOUS FOREST"' showing total 1,164 results

1. Differences in sampling efficiency of each insect order in yellow pan traps with installation of flight interception windows.

Author

Uemori, Kazushige and Hishi, Takuo

Abstract

To monitor insect diversity and community changes, it is necessary to select traps with a high sampling efficiency. We examined the effects of a flight interception window on a small yellow pan trap (flight interception pan; FIP). Our results showed that fewer Hymenoptera individuals were captured by the FIP than by the non‐FIP (NFIP) traps. Fewer Aculeata, Diptera and Hemiptera individuals were captured by the FIP than by the NFIP traps, whereas more Coleoptera individuals were captured by the FIP than by the NFIP traps. The flight interception window did not affect the Aculeata species composition. Considering the labor involved in attaching windows and the reduced ease of trap transport and setting, the NFIP traps are better for sampling Hymenoptera, Diptera and Hemiptera, whereas the FIP traps are better for sampling Coleoptera. [ABSTRACT FROM AUTHOR]

Published

2024

2. Chronosequence and Temporal Changes in Soil Conditions, Vegetation Structure and Leaf Traits in a Tropical Dry Forest in Brazil.

Author

Ferreira, Kleiperry F., Silva, Jhonathan O., Cuevas-Reyes, Pablo, Falcão, Luiz Alberto Dolabela, and Espírito-Santo, Mário M.

Subjects

TROPICAL dry forests, DECIDUOUS forests, PLANT performance, LEAF area, CAMBISOLS

Abstract

The structure and diversity of tropical vegetation are shaped by biotic and abiotic factors, which function as environmental filters affecting plant performance on different spatial and temporal scales. We compared soil (Ferrasols and Cambisols) conditions, vegetation structure and leaf traits (e.g., specific leaf area, polyphenols, and chlorophyll contents a/b and in total) in the early, intermediate and late successional stages of a tropical dry forest (TDF) in southeastern Brazil. For this purpose, we measured leaf traits of the most abundant species in the same 18 plots (50 × 20 m/six per successional stage) in 2009 and 2018. Our prediction is that tree species growing in early forests have a greater investment in conservative traits related to chemical defenses and tolerance to desiccation compared to late-stage tree species. We observed contrasting results when comparing the chronosequence differences in leaf traits both in 2009 and 2018 and the temporal changes along this period. Specific leaf area was lower than expected for all successional stages, while polyphenol content increased over time, contrary to other studies in TDFs. These results suggest that contrasting environmental factors such as soil conditions and light availability are responsible of the observed pattern. Total chlorophyll content did not change significantly, while the a/b chlorophyll ratio doubled in all successional stages, contrary to our prediction. Therefore, we suggest that the conservative–acquisitive spectrum in successional gradients of TDFs should be further investigated with time-series data for a better understanding of plant community assemblages. [ABSTRACT FROM AUTHOR]

Published

2024

3. Canopy-Radiation Balance Method to Assess Daily Actual Evapotranspiration: Applications in Brazil's Caatinga Forest.

Author

Vellame, Lucas Melo, Raabe, Armin, van Lier, Quirijn de Jong, Araújo, Geovana Paim, and de Araújo, José Carlos

Subjects

SOIL moisture, FOREST microclimatology, GLOBAL radiation, DECIDUOUS forests, WIND speed

Abstract

Evapotranspiration is a key hydrological process in Brazil's 1,000,000-km2 tropical semiarid Caatinga biome, where monitoring is crucial, but data are scarce. We propose a method to estimate daily actual evapotranspiration (LE) based on the canopy-radiation balance, measuring air and canopy temperatures, relative humidity, wind speed, and global radiation. The method was applied at a location with preserved Caatinga forest [Aiuaba Experimental Basin, daily average net radiation (Rn) of 12 MJ/m2 ] during one hydrological year (2020–2021). The results, which agree with independently performed field measurements, identify the predominance of distinct evaporative processes throughout the year. In the dry season, net radiation is high (16.7 MJ/m2/day), but actual evapotranspiration is negligible (LE/Rn<0.01) because stress due to extremely low soil water content causes leave deciduousness and root shrinkage. Contrastingly, in the rainy season, soil water content increases, leaves recover, and roots expand, enhancing actual evapotranspiration (LE=6 mm/day and LE/Rn=0.89). Thus, in the Caatinga forest, during the dry and transition periods, actual evapotranspiration is ultimately ruled by the soil water content (source-limited), whereas during the rainy season, it is sink-limited (i.e., controlled by atmospheric demand). Practical Applications: The authors developed a new method to assess actual evapotranspiration in forested areas. The actual evapotranspiration, which is fundamental to compute irrigation demand, is also essential to understand the impact of climate change on forests. This is particularly important for drylands, such as the 1,000,000-km2 Brazilian semiarid region, where water is scarce and actual evapotranspiration is high, consuming 70% of the precipitation. The method, which estimates the energy balance on the leaves of forest trees, demands the measurement of only a few variables, such as temperature, air relative humidity, wind speed, and radiation. The equipment to perform the measurement is much cheaper (less than 10%) than that of the reference methods for this kind of study. Therefore, with the same budget, the method can be applied at more locations, increasing the spatial representation of the measurements. The method hereafter presented is especially meant to help semiarid and arid regions, where evapotranspiration is high and monitoring is crucial, but data are often scarce. [ABSTRACT FROM AUTHOR]

Published

2024

4. Invasiveness of Impatiens parviflora in Carpathian Beech Forests: Insights from Soil Nematode Communities.

Author

Renčo, Marek, Jurová, Jana, and Čerevková, Andrea

Subjects

*PLANT parasites, *FOREST biodiversity, *SOIL acidity, *DECIDUOUS forests, *SOIL animals

Abstract

Invasive plants are capable of homogenizing both aboveground and belowground biota and, along with climate change, are recognized as one of the biggest threats to global biodiversity. Soil nematode communities reflect the surroundings they inhabit and are therefore frequently employed as biological indicators of soil condition. In this study, soil properties and nematode communities in Carpathian beech forest floor covered by dense vegetation of invasive Impatiens parviflora (small balsam) were investigated over two vegetation seasons. We assumed that the spread of invasive I. parviflora could influence soil fauna through litter accumulation when established and could also change several soil properties, consequently altering soil nematode communities. A total of 52 nematode species were found in the soil samples. The mean number of species varied from 18 to 31, but did not significantly differ between invaded and uninvaded plots across all sampling dates. However, redundancy analysis indicated that the nematode community in plots with small balsam differed significantly from that in uninvaded plots, reflecting different proportions of genera in the two communities. Invasion by small balsam significantly enhanced the relative abundance of bacterivores, whereas it decreased the abundance of plant parasites and root-fungal feeders, mainly in the spring and summer season. Ordination of nematode species along the structure index and enrichment index trajectories revealed a maturing food web, low to moderately disturbed in the I. parviflora invaded soils as well as in uninvaded forest plots. Decomposition channels of soil food webs in both plots were balanced and fungal–bacterial mediated, although low values of the channel index suggested prevailing bacterial decomposition. Our study reveals that the expansion of I. parviflora moderately influenced the composition of nematode communities and the soil food web, increased soil nitrogen, carbon and C/N ratio, but did not modify soil acidity. [ABSTRACT FROM AUTHOR]

Published

2024

5. Dry deposition of nitric acid gas by long-term measurement above and below a forest canopy

Author

Zhaojie Wu, Mao Xu, Atsuyuki Sorimachi, Hiroyuki Sase, Makoto Watanabe, and Kazuhide Matsuda

Subjects

HNO3, Ammonium nitrate, Semi-volatile aerosols, Denuder sampling, Deciduous forest, Japan, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350

Abstract

Abstract Reactive nitrogen negatively affects terrestrial ecosystems by excessive deposition. Nitric acid gas (HNO3), a component of reactive nitrogen, is readily deposited on ground surfaces due to its high reactivity. However, there have been recent cases in which suppressed deposition fluxes, including upward fluxes, were observed above forests. As the mechanisms of HNO3 dry deposition on forest surfaces are not fully understood, the accuracy of dry deposition estimates remains uncertain. To reduce uncertainties in the estimation, we investigated dry deposition of HNO3 by 1-year measurement in a forest. We measured the vertical profiles of HNO3, nitrate, and sulfate in PM2.5 in a deciduous forest in suburban Tokyo (FM Tama). We observed their concentrations above the forest canopy (30 m) and near the forest floor (2 and 0.2 m) using the denuder/filter pack from October 2020 to September 2021. The HNO3 concentration decreased significantly from 30 to 2 m. However, the decrease in HNO3 was not as significant, and occasionally, emission profiles were produced between 2 and 0.2 m. This was likely caused by HNO3 generated by the volatilization of NH4NO3 near the forest floor, which was warmed by sunlight during daytime in both leafy and leafless periods. Conversely, HNO3 concentrations at 30 m were much higher than those at 2 m and 0.2 m, indicating that the forest acted as a sink for HNO3 from a long-term perspective. It is presumed that HNO3, generated just above the forest canopy, could cause an upward flux if a temperature difference of several degrees occurs between 25 and 20 m.

Published

2024

6. Dry deposition of nitric acid gas by long-term measurement above and below a forest canopy.

Author

Wu, Zhaojie, Xu, Mao, Sorimachi, Atsuyuki, Sase, Hiroyuki, Watanabe, Makoto, and Matsuda, Kazuhide

Subjects

FOREST canopies, ACID deposition, NITRIC acid, REACTIVE nitrogen species, FOREST measurement, DECIDUOUS forests

Abstract

Reactive nitrogen negatively affects terrestrial ecosystems by excessive deposition. Nitric acid gas (HNO3), a component of reactive nitrogen, is readily deposited on ground surfaces due to its high reactivity. However, there have been recent cases in which suppressed deposition fluxes, including upward fluxes, were observed above forests. As the mechanisms of HNO3 dry deposition on forest surfaces are not fully understood, the accuracy of dry deposition estimates remains uncertain. To reduce uncertainties in the estimation, we investigated dry deposition of HNO3 by 1-year measurement in a forest. We measured the vertical profiles of HNO3, nitrate, and sulfate in PM2.5 in a deciduous forest in suburban Tokyo (FM Tama). We observed their concentrations above the forest canopy (30 m) and near the forest floor (2 and 0.2 m) using the denuder/filter pack from October 2020 to September 2021. The HNO3 concentration decreased significantly from 30 to 2 m. However, the decrease in HNO3 was not as significant, and occasionally, emission profiles were produced between 2 and 0.2 m. This was likely caused by HNO3 generated by the volatilization of NH4NO3 near the forest floor, which was warmed by sunlight during daytime in both leafy and leafless periods. Conversely, HNO3 concentrations at 30 m were much higher than those at 2 m and 0.2 m, indicating that the forest acted as a sink for HNO3 from a long-term perspective. It is presumed that HNO3, generated just above the forest canopy, could cause an upward flux if a temperature difference of several degrees occurs between 25 and 20 m. [ABSTRACT FROM AUTHOR]

Published

2024

7. PRELIMINARY MODEL OF POTENTIAL AREAS FOR RESTORATION FOR THE INTER-ANDEAN VALLEY OF CAUCA RIVER (COLOMBIA, SOUTH AMERICA) BASED ON HABITAT SUITABILITY MODELS.

Author

Patricia Alvarado-Solano, Diana, Tupac Otero, Joel, and Šarapatka, Bořivoj

Subjects

*TROPICAL dry forests, *LAND cover, *DECIDUOUS forests, *PRINCIPAL components analysis, *LAND degradation

Abstract

Tropical dry forests (TDF) are highly susceptible to land degradation. The inter-Andean Valley of the Cauca River (IVCR) has the most fragmented Colombian dry forests, and their restoration is essential. Here, potential areas for restoration were identified using a habitat suitability modeling (HSM) approach. TDF vascular plants and bioclimatic predictors were used. Species were selected based on threatened status, endemism, and priority level for conservation. Two sets of predictors were chosen using Variance Inflation Factor (VIF) and Principal Component Analysis (PCA). Then, with a maximum entropy algorithm, PCA and VIF models were projected for the selected species. These models were evaluated via true skill statistics (TSS) and area under the curve (AUC) statistical metrics. Models with good performance (TSS, AUC, standard deviation, variance) were ensembled, and a preliminary model where areas with suitable bioclimatic conditions for the selected species were generated. Results show that nearly 45 % of the IVCR has suitable conditions for the selected species. Although potential conflicts may arise in areas under permanent or semipermanent crops which represent more than 80 % of the IVCR, cropland mosaics, and natural and seminatural land covers might provide alternative solutions to reduce the land-use conflict. The potential areas for restoration identified in this study may provide a comprehensive framework for environmental impact and regional risk assessments related to the current land use and land cover change dynamics. Also, they may provide relevant information for designing landscape restoration programs as an adaptive strategy toward climate change. [ABSTRACT FROM AUTHOR]

Published

2024

8. Wood warbler population dynamics in response to mast seeding regimes in Europe.

Author

Maag, Nino, Korner‐Nievergelt, Fränzi, Szymkowiak, Jakub, Hałas, Natalia, Maziarz, Marta, Neubauer, Grzegorz, Luepold, Shannon Buckley, Carlotti, Sandro, Schaub, Michael, Flade, Martin, Scherrer, Daniel, Grendelmeier, Alex, Riess, Michael, Stelbrink, Pablo, and Pasinelli, Gilberto

Abstract

Mast seeding is the episodic, massive production of plant seeds synchronized over large areas. The resulting superabundance of seeds represents a resource pulse that can profoundly affect animal populations across trophic levels. Following years of high seed production, the abundance of both seed consumers and their predators increase. Higher predator abundance leads to increased predation pressure across the trophic web, impacting nonseed consumers such as the wood warbler Phylloscopus sibilatrix through increased nest predation after tree mast years. Over the past 30 years, the frequency of tree seed masts has increased, while wood warbler populations have declined in several regions of Europe. We hypothesized that increasing mast frequencies may have contributed to the observed population declines by creating suboptimal breeding conditions in years after masting. We measured reproductive output in four study areas in central Europe, which was between 0.61 and 1.24 fledglings lower in the years following masting than nonmasting. For each study area, we used matrix population models to predict population trends based on the estimated reproductive output and the local mast frequencies. We then compared the predicted with the observed population trends to assess if the frequency of mast years had contributed to the population dynamics. In Wielkopolska National Park (PL) and Hessen (DE), masting occurred on average only every 4 years and populations were stable or nearly so, whereas in Jura (CH) and Białowieża National Park (PL), masting occurred every 2 and 2.5 years, respectively, and populations were declining. The simple matrix population models predicted the relative difference among local population trends over the past 10–20 years well, suggesting that the masting frequency may partly explain regional variation in population trends. Simulations suggest that further increases in mast frequency will lead to further declines in wood warbler populations. We show that changes in a natural process, such as mast seeding, may contribute to the decline in animal populations through cascading effects. [ABSTRACT FROM AUTHOR]

Published

2024

9. Género y ambiente: cultivo, recolección y venta de frutos en una selva baja caducifolia en México.

Author

Guadarrama-Martínez, Noemi, Chávez Mejía, María Cristina, and Rodríguez Muñoz, Gregoria

Subjects

BIODIVERSITY, ENVIRONMENTAL literacy, PRODUCE markets, LOCAL knowledge, PLANT species

Abstract

Copyright of Caldasia is the property of Universidad Nacional de Colombia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

10. Invasiveness of Impatiens parviflora in Carpathian Beech Forests: Insights from Soil Nematode Communities

Author

Marek Renčo, Jana Jurová, and Andrea Čerevková

Subjects

small balsam, invasive species, nematode, soil, deciduous forest, diversity, Biology (General), QH301-705.5

Abstract

Invasive plants are capable of homogenizing both aboveground and belowground biota and, along with climate change, are recognized as one of the biggest threats to global biodiversity. Soil nematode communities reflect the surroundings they inhabit and are therefore frequently employed as biological indicators of soil condition. In this study, soil properties and nematode communities in Carpathian beech forest floor covered by dense vegetation of invasive Impatiens parviflora (small balsam) were investigated over two vegetation seasons. We assumed that the spread of invasive I. parviflora could influence soil fauna through litter accumulation when established and could also change several soil properties, consequently altering soil nematode communities. A total of 52 nematode species were found in the soil samples. The mean number of species varied from 18 to 31, but did not significantly differ between invaded and uninvaded plots across all sampling dates. However, redundancy analysis indicated that the nematode community in plots with small balsam differed significantly from that in uninvaded plots, reflecting different proportions of genera in the two communities. Invasion by small balsam significantly enhanced the relative abundance of bacterivores, whereas it decreased the abundance of plant parasites and root-fungal feeders, mainly in the spring and summer season. Ordination of nematode species along the structure index and enrichment index trajectories revealed a maturing food web, low to moderately disturbed in the I. parviflora invaded soils as well as in uninvaded forest plots. Decomposition channels of soil food webs in both plots were balanced and fungal–bacterial mediated, although low values of the channel index suggested prevailing bacterial decomposition. Our study reveals that the expansion of I. parviflora moderately influenced the composition of nematode communities and the soil food web, increased soil nitrogen, carbon and C/N ratio, but did not modify soil acidity.

Published

2024

11. Amiseginae and Cleptinae from northeastern Brazil, with the description of four new species (Hymenoptera, Chrysididae)

Author

Lucena, Daercio, Almeida, Eduardo A. B., Zanella, Fernando, and Pensoft Publishers

Subjects

Chrysidoidea, deciduous forest, diversity, rain forest, semiarid, taxonomy

Published

2021

12. Land Surface Temperature Sensitivity to Changes in Vegetation Phenology Over Northern Deciduous Forests.

Author

Park, Chang‐Eui and Jeong, Sujong

Subjects

LAND surface temperature, DECIDUOUS forests, VEGETATION dynamics, PLANT phenology, TURBULENT heat transfer, GROWING season

Abstract

Changes in vegetation phenology are important contributors to seasonal climate change over the northern land surface. However, the biogeophysical effects of phenological shifts on land surface temperature (LST) remain uncertain. Here, we demonstrated the sensitivity of LST to advanced start of growing season (SOS) and delayed end of growing season (EOS) during corresponding green‐up and senescence periods over northern deciduous forests. Moreover, the mechanism responsible for LST sensitivity was assessed by quantifying the contributions of biogeophysical properties to LST sensitivity by applying a two resistance mechanism method to an experimental set using Community Land Model version 5. LST sensitivities to advanced SOS and delayed EOS were −2.1 × 10−2 K day−1 and −2.8 × 10−2 K day−1, respectively, indicating cooling effects by phenological shifts. The different responses of the aerodynamic resistance to SOS and EOS could explain the higher LST sensitivity to EOS than that to SOS. The decrease in the aerodynamic resistance in response to delayed EOS was three times larger than that to advanced SOS, thereby inducing a larger surface cooling effect during senescence period through enhanced turbulent heat transfer. Thus, the reduced aerodynamic resistance could explain the cooling effect of the phenological shift, which is an important consideration for projecting seasonal climate change. Plain Language Summary: The impact of phenological shifts in northern forests on land surface temperature (LST) is important for their potential to mitigate anthropogenic global warming due to increases in atmospheric greenhouse gases concentrations. In this study, biogeophysical impacts on LST were quantified based on analytic evaluation and model simulations. The findings indicated a cooling effect of −2.1 × 10−2 K day−1 and −2.8 × 10−2 K day−1 due to the advanced start of growing season and delayed end of growing season, respectively. These cooling effects are mostly caused by an enhancement in turbulent heat transfer from land to atmosphere through a decrease in aerodynamic resistance. Our results suggest reasons for the biogeophysical cooling effect of the lengthened growing season, which is important for projecting seasonal climate change. Key Points: Biogeophysical impact of changes in vegetation phenology on land surface temperature over northern deciduous forest is examinedAdvance start of growing season and delayed end of growing season both induce land surface coolingThe mechanism responsible for surface cooling is enhanced turbulent heat transfer by a decrease in aerodynamic resistance [ABSTRACT FROM AUTHOR]

Published

2023

13. Overview of Reptile Diversity from Bobaomby Complex, Northern Tip of Madagascar.

Author

Randriamialisoa, Andriantsimanarilafy, Raphali R., Rakotondrina, Alain J. V., Rakotoarisoa, Josué A., Nasaina, Ranaivoson T., Rabearivony, Jeanneney, and Raselimanana, Achille P.

Subjects

*REPTILE diversity, *REPTILES, *ENDANGERED species, *PITFALL traps, *HERPETOFAUNA, *SKINKS

Abstract

Simple Summary: Madagascar is home to diverse ecosystems with many endemic reptiles, many of which are threatened by the increasing loss of their habitat. Unfortunately, while some areas have been relatively well studied, there is a paucity of data in most of them. This knowledge gap hinders efforts to collect scientific information in order to conserve the remaining habitat. We conducted surveys in the Bobaomby Complex, in the northern tip of Madagascar to assess its potential for the creation of a new protected area. We found 42 reptile species of which 39 are endemic and the discovery of many threatened species with restricted range distributions. The findings fill the knowledge gaps on the herpetofauna of the Bobaomby Complex. We recommend the inclusion of the Bobaomby Complex into the network of protected areas of Madagascar. Many studies on reptiles have been conducted across Madagascar but some areas are poorly known in terms of the diversity of reptiles such as the Bobaomby Complex in the northern tip of Madagascar. In February and March 2018, we conducted a biodiversity survey within five sites. This biological survey is to collect scientific information for helping new protected creations. Three main methods were used including pitfall trap, visual and acoustic searching along the transect and refuge examination. In total, we recorded 42 species including 5 chameleons, 8 skinks, 11 geckos, 16 snakes and 2 blinds snake species. All recorded species are endemic to Madagascar except Hemidactylus frenatus, Ebenavia inunguis and Phelsuma abbotti. Rare species known only from a few specimens have been recorded in the Bobaomby Complex: Heteroliodon fohy, Pseudoxyrhopus ambreensis, and Madascincus arenicola. Thirteen species are classified as threatened on the IUCN Red List, of which three are Critically Endangered: Paracontias minimus, Madascincus arenicola, and Paroedura lohatsara; three are Endangered: Heteroliodon fohy, Lycodryas inopinae, and Phisalixella variabilis; and seven are Vulnerable: Brookesia ebenaui, Furcifer petteri, Blaesodactylus boivini, Uroplatus ebenaui, Uroplatus henkeli, Liophidium therezieni and Flexiseps ardouini. Our results reveal the importance of the Bobaomby Complex for conserving reptile diversity and highlight the need to protect it. [ABSTRACT FROM AUTHOR]

Published

2023

14. Classification of forest and shrubland vegetation in central and eastern Euxine Turkey and SW Georgia.

Author

Kavgacı, Ali, Karaköse, Mustafa, Keleş, Emine Seda, Balpınar, Neslihan, Arslan, Münevver, Yalçın, Erkan, Novák, Pavel, and Čarni, Andraž

Subjects

*FOREST plants, *SHRUBLANDS, *MOUNTAIN forests, *ECOSYSTEM management, *RIPARIAN forests, *MARINE west coast climate

Abstract

Questions: What are the main vegetation types of forest and shrubland vegetation in central and eastern Euxine Turkey and SW Georgia? What are the main environmental factors affecting their diversity? What is their syntaxonomic position? Can we integrate them into the European vegetation classification system? Location: Central and eastern Euxine Turkey and SW Georgia. Methods: We collected 3104 vegetation plots of forest and shrubland vegetation in the study region and performed Two‐Way Indicator Species Analysis (TWINSPAN) classification. We described vegetation types based on the classification results, expert knowledge and information from literature sources. We defined diagnostic species and prepared distribution maps for each vegetation type. To determine the most significant environmental variables on floristic differentiation, we used canonical correspondence analysis. Detrended correspondence analysis with passive projection of most significant environmental variables was run to interpret the environmental variation of vegetation types. Results: The studied vegetation was divided into 29 vegetation types related to seven main vegetation groups: relict Mediterranean forests and shrubland (mainly along the coastline, beside some inland localities), lowland to submontane forests, central Euxine mountain forests, eastern Euxine (Colchic) mountain forests, subeuxine forests, azonal riparian forests and subalpine and alpine shrubland. Elevation is the most important factor causing the differentiation in vegetation. It is followed by longitude and latitude. Among climatic variables, temperature seasonality, annual precipitation and precipitation of the wettest quarter are the most significant factors for vegetation differentiation. These factors correlate with the reduction of maritime climate and geomorphological features. Conclusions: Vegetation types mostly correspond to the syntaxa accepted in the EuroVegChecklist. However, some of them do not appear in the EuroVegChecklist since they appear only beyond Europe. We described three syntaxa as new: Abietion equi‐trojani, Querco cerridis‐Carpinion orientalis and Piceo orientalis‐Fagenion orientalis. The study revealed high vegetation diversity of the region that should be taken into consideration in ecosystem management and used as a reference in restoration and mitigation of the effects of global changes. [ABSTRACT FROM AUTHOR]

Published

2023

15. Carbon stock of beech trees at canopy gaps in temperate Hyrcanian forest (Case study: Alandan forest,Mazandaran)

Author

Alireza Amolikondori, Kambiz Abrari Vajari, and Mohammad Feizian

Subjects

carbon stock, deciduous forest, single-tree selection, tree structure, Environmental sciences, GE1-350

Abstract

Introduction: Diverse gap sizes have formed in temperate Hyrcanian forests as a result of different silvicultural operations. Understanding the consequences of these practices on forest stand dynamics can help in deciding the choice of silvicultural methods. Therefore, the purpose of this study was to investigate the effect of canopy gaps on the carbon stock of beech trees and compare it with the adjacent stand and also the interaction between tree attributes and their carbon stock.Material and methods: The created gaps from single-tree cutting were classified in three classes of small, medium and large area with five replicates for each. Trees were also identified in the adjacent forest to each gap at a distance of 20 m from four directions of them. Tree height, DBH, surface area, volume, length, diameter of crown and carbon stock of trees were measured. One-way analysis of variance was used to compare the average carbon stock index of beech trees in canopy gaps and in different situations as well as for large diameter trees. Independent t-test was applied to compare the average carbon storage in the height classes of the trees and also between the adjacent forest stands with the canopy edges. Pearson correlation coefficient was used to determine the correlation between the index of carbon stock amount with some structural features of beech trees in the edge of the canopy gaps and the adjacent forest stand.Results and discussion: The findings revealed that the carbon stock of beech trees along the gaps' edges differed significantly (p≤0.05). No significant difference in carbon stock was observed for beech trees among different directions at the edge of the gaps (p≤0.05). There was no significant difference between the mean value carbon storage of trees at the edge of the gaps and the adjacent forest (p≤0.05). The highest mean of carbon was observed in the large-sized trees (3725.28 ± 584.49) at the large gaps. The results of correlation showed that with increasing DBH, height, length and diameter of the crown and the volume of the crown, the amount of carbon storage of trees increased at the edge of the gaps and also in the adjacent forest (p≤0.01). Conclusion: Findings indicate the effect of canopy gap area resulting from the implementation of single-tree selection method in beech forest. The correlation between the structural characteristics of beech trees such as DBH, height and crown area with carbon stock shows that when applying silvicultural methods (tending and logging) in Hyrcanian forests, structural characteristics Beech trees, especially the abundance of large-sized trees, should be considered with more carbon stocks in them.

Published

2023

16. Influence of vegetation on occurrence and color of snow algal blooms in Mt. Gassan, Yamagata Prefecture, Japan

Author

Takumi Suzuki and Nozomu Takeuchi

Subjects

Snow algae, deciduous forest, alpine snowpacks, nutrients, pigments, Environmental sciences, GE1-350, Ecology, QH540-549.5

Abstract

Snow algae are photosynthetic microbes growing on melting snow surfaces, the blooms of which are visible on alpine snowpacks in Japan during the melting season. We characterized the seasonal and altitudinal variations in algal blooms on Mount Gassan, Japan, to assess the influence of vegetation on the algal bloom. From May to July in 2019, we collected colored snow from lower deciduous forest to the upper alpine areas. In the lower forest area, chlorophyll-a concentration in colored snow samples increased concomitantly with deciduous tree budburst, whereas in the alpine area, chlorophyll-a increased from June to July, although at lower levels than in the forest area. The absorption spectra of algal pigments extracted from samples differed among study sites and seasons, with those obtained from forest sites mainly characterized by absorption of chlorophylls and primary carotenoids, whereas those from alpine sites showed an intense secondary carotenoid peak throughout the study period. Chemical solute analyses revealed a general abundance of phosphate in snow, which was significantly higher in forest than in alpine sites and positively correlated with chlorophyll-a concentration. These findings suggest that nutrient supply from the forest canopy largely controls the appearance of colored snow in this area.

Published

2023

17. Tree Stem Detection and Crown Delineation in a Structurally Diverse Deciduous Forest Combining Leaf-On and Leaf-Off UAV-SfM Data.

Author

Dietenberger, Steffen, Mueller, Marlin M., Bachmann, Felix, Nestler, Maximilian, Ziemer, Jonas, Metz, Friederike, Heidenreich, Marius G., Koebsch, Franziska, Hese, Sören, Dubois, Clémence, and Thiel, Christian

Subjects

*DECIDUOUS forests, *FOREST canopies, *FOREST management, *CROWNS (Botany), *POINT cloud, *ARTIFICIAL membranes

Abstract

Accurate detection and delineation of individual trees and their crowns in dense forest environments are essential for forest management and ecological applications. This study explores the potential of combining leaf-off and leaf-on structure from motion (SfM) data products from unoccupied aerial vehicles (UAVs) equipped with RGB cameras. The main objective was to develop a reliable method for precise tree stem detection and crown delineation in dense deciduous forests, demonstrated at a structurally diverse old-growth forest in the Hainich National Park, Germany. Stem positions were extracted from the leaf-off point cloud by a clustering algorithm. The accuracy of the derived stem co-ordinates and the overall UAV-SfM point cloud were assessed separately, considering different tree types. Extracted tree stems were used as markers for individual tree crown delineation (ITCD) through a region growing algorithm on the leaf-on data. Stem positioning showed high precision values (0.867). Including leaf-off stem positions enhanced the crown delineation, but crown delineations in dense forest canopies remain challenging. Both the number of stems and crowns were underestimated, suggesting that the number of overstory trees in dense forests tends to be higher than commonly estimated in remote sensing approaches. In general, UAV-SfM point clouds prove to be a cost-effective and accurate alternative to LiDAR data for tree stem detection. The combined datasets provide valuable insights into forest structure, enabling a more comprehensive understanding of the canopy, stems, and forest floor, thus facilitating more reliable forest parameter extraction. [ABSTRACT FROM AUTHOR]

Published

2023

18. Comparison of seed bank composition over a gradient of pyrophilic vegetation.

Author

Huebner, Cynthia D., Gundy, Melissa Thomas-Van, and Underwood, Chris A.

Subjects

COMPOSITION of seeds, SOIL seed banks, UNDERSTORY plants, SPECIES diversity, FOREST reserves

Abstract

Seed bank compositions provide a record of past disturbances, the legacies of which may last thousands of years. Our goal was to determine if sites defined historically by fire-related (pyrophilic) tree species have seed bank compositions different from sites defined historically by pyrophobic tree species. We selected three 80+ year-old forested sites within the Monongahela National Forest, West Virginia, to represent three pyrophilic zones based on percent-pyrophilic-witness tree cover: Low (0–10%), Medium (40–50%), and High (80–90%). Soil plugs were collected to evaluate the seed bank and determine soil nutrients and charcoal abundance; cover of all understory plants was also estimated. The results, supported by the charcoal analyses, show significant differences between extant and seed bank vegetation, pyrophilic zones, and pyrophilic zones within each vegetation lifeform (extant vs. seed bank). The High zone seed bank had the greatest species richness, the most pyrophilic species, and differed the most from its extant vegetation, but was the least dense of all zones and a pyrophobic species ranked among its top five indicator species. These findings indicate mesophication and a depletion of pyrophilic species in the seed bank. The High site appears to be reaching a potential threshold where passive recovery to fire-adapted conditions may be unlikely. [ABSTRACT FROM AUTHOR]

Published

2023

19. Structural diversity is a key driver of above-ground biomass in tropical forests.

Author

Ayushi, Kurian, Babu, Kanda Naveen, and Ayyappan, Narayanan

Subjects

*FOREST biomass, *TROPICAL forests, *FOREST biodiversity, *FOREST management, *INDEPENDENT variables, *FOREST conservation, *MOUNTAIN forests

Abstract

A gamut of abiotic and biotic factors is related to the amount of above-ground biomass (AGB) produced in ecosystems. Some factors have direct and others indirect relationships with AGB. Detailed analyses in tropical forests are few but much needed for better understanding the potential impacts of global change drivers and for mitigating impacts. Here, we examined the relationship between AGB and different predictor variables and quantitatively evaluated their relative importance in lowland to lower montane deciduous and lower montane – montane evergreen forest types. We hypothesised that the relationship between AGB and climate, topography, structural diversity, species diversity (alpha and beta) and phylogenetic diversity would differ between the two forest types. We inventoried trees from 114 plots (each 0.1 ha) and used partial least square structural equation modelling to test the direct and indirect relationship between AGB and the predictor variables. We found that structural diversity variables, stem density and tree girth, were significantly and positively related to AGB in both forest types, displaying a stronger relationship in montane evergreen forests (w = 0.65 for density and 0.89 for tree girth). In the deciduous forest, alpha and phylogenetic diversity were also important factors, whereas beta and phylogenetic diversity were important in the evergreen forest. The effects of topography and climate varied between forest types, with elevation and precipitation being related to AGB directly and indirectly through their relationship with structural diversity. Our results suggest that structural diversity is a key driver of tropical forest biomass, both directly and indirectly. This fundamental understanding can aid in the predictive efforts of biodiversity conservation and forest management. [ABSTRACT FROM AUTHOR]

Published

2023

20. در روشن ههای تا جپوشش در جنگل )Fagus orienalis L.( ذخیره کربن درختان را ش معتدله هیرکا ن ی)پژوهش مور د ی: جنگل الندا ن -مازندران (

Author

علیرضا آملی کندور, کامبیز ابراری واجار, and محمد فیضیا

Abstract

Introduction: Diverse gap sizes have been formed in temperate Hyrcanian forests as a result of different silvicultural operations. Understanding the consequences of these practices on forest stand dynamics can help in deciding the choice of silvicultural methods. Therefore, the purpose of this study was to investigate the effect of canopy gaps on the carbon stock of beech trees and compare it with the adjacent stand and also the interaction between tree attributes and their carbon stock. Material and methods: The created gaps from single-tree cutting were classified into three classes of small, medium and large areas with five replicates for each. Trees were also identified in the adjacent forest to each gap at a distance of 20 m from four directions. Tree height, DBH, surface area, volume, length, diameter of crown and carbon stock of trees were measured. One-way analysis of variance was used to compare the average carbon stock index of beech trees in canopy gaps and in different situations as well as for large-diameter trees. Independent t-test was applied to compare the average carbon storage in the height classes of the trees and also between the adjacent forest stands with the canopy edges. Pearson correlation coefficient was used to determine the correlation between the index of carbon stock amount with some structural features of beech trees in the edge of the canopy gaps and the adjacent forest stand. Results and discussion: The findings revealed that the carbon stock of beech trees along the gaps' edges differed significantly (p≤0.05). No significant difference was observed in carbon stock for beech trees among different directions at the edge of the gaps (p>0.05). There was no significant difference between the mean carbon storage of trees at the edge of the gaps and the adjacent forest (p>0.05). The highest mean of carbon was observed in the large-sized trees (3725.28 ± 584.49) at the large gaps. The results of the correlation showed that with increasing DBH, height, length and diameter of the crown and the volume of the crown, the amount of carbon storage of trees increased at the edge of the gaps and also in the adjacent forest (p≤0.01). Conclusion: Findings indicate the effect of canopy gap area resulting from the implementation of the singletree selection method in beech forest. The correlation between the structural characteristics of beech trees such as DBH, height and crown area with carbon stock shows that when applying silvicultural methods (tending and logging) in Hyrcanian forests, structural characteristics of beech trees, especially the abundance of large-sized trees with more carbon stock should be considered. [ABSTRACT FROM AUTHOR]

Published

2023

21. Impacts of canopy structure on the sub-canopy solar radiation under a deciduous forest based on fisheye photographs.

Author

YanLin Zhang, XiaoLin Feng, XiaoLi Chang, and LiMin Tie

Subjects

DECIDUOUS forests, SOLAR radiation, FOREST canopy ecology, PERMAFROST, ENVIRONMENTAL impact analysis

Abstract

Forest canopy in a deciduous forest has significant sheltering effects on the sub-canopy solar radiation, significantly influencing the energy balance of snow and permafrost beneath the forest and their spatial distribution. This study employs a digital camera mounted with a fisheye lens to acquire photographs at various times in a growth cycle of the forest canopy at three selected sites in a deciduous forest near the Greater Khingan Mountains Forest Ecological Station, Northeast China. The vegetation types and conditions at the selected sites include P1 in Ledum-Claopodium-L. dahurica, P2 in Carex tato-L. dahurica, and P3 in Betula fruticosa-L. dahurica. After necessary image processing, these photographs were used to identify the canopy structure and its impacts on the sub-canopy solar radiation. Results show that fisheye photographs can successfully capture the forest canopy structure and are useful in estimating the sub-canopy solar radiation. The order of sheltering effects from the largest to the smallest on sub-canopy solar radiation at three selected sites is P3, P1, and P2, highly depending on the canopy density. Then sub-canopy solar radiation was calculated using fisheye photographs and an algorithm validated by in-situ observed solar radiation beneath the canopy at P1 and P3. The results are reasonable, although the accuracy seems compromised due to the mismatch of conditions for calculation and observation. Results also show that the mean annual solar radiation above the canopy was about 148.3 W/m² in 2018, and the mean annual solar radiation values beneath the canopy were about 90.0, 123.8, and 61.0 W/m² at P1, P2, and P3, with only 60%, 84%, and 42% of the total solar radiation penetrating through the canopy, respectively. Even in winter, when the trees are leafless, the canopy sheltering effects cannot be ignored in dense forests. Despite the limitations, fisheye photographs and related algorithms are useful in investigating the forest canopy structure and its impacts on sub-canopy solar radiation. [ABSTRACT FROM AUTHOR]

Published

2023

22. Goat browse selectivity during conservation grazing in an invaded eastern oak-hickory forest.

Author

Novais, Wanderson, Wenner, Benjamin A., Block, Jeremy A., Power, Simon C., Porteus, Elizabeth, and Davies, G. Matt

Subjects

GRAZING, GOATS, INTRODUCED species, INVASIVE plants, OAK, FOREST management

Abstract

Oak and hickory (Quercus spp. and Carya spp.) recruitment in forests of eastern North America is adversely impacted by woody invasive species. Conservation grazing, the use of livestock for restoration or biodiversity promotion, has been used to control invasive plants. The efficacy of such grazing and its ecological tradeoffs in oak-hickory forests, however, is unknown. We aimed to fill this gap by investigating browsing intake and preference by goats. To support this, nineteen experimental plots were established in an invaded forest, and their species composition and biomass quantified. Twelve plots were browsed under high (1019 goat-days ha−1) and low (509 goat-days ha−1) browsing pressure regimes with direct observations of forage intake and selection. Leaves of commonly browsed species were assessed for nutritional composition. Goats generally selected for native spicebush (Lindera benzoin) over invasive multiflora rose (Rosa multiflora), however, selection of the latter increased with time. Both species identity and browsing pressure were good predictors of browse intake. For greater biomass reduction of invasive species, the use of high browsing pressure is recommended. This research showed that conservation grazing can be an effective tool to reduce biomass of invasive species such as multiflora rose, privet (Ligustrum spp.), and oriental bittersweet (Celastrus orbiculatus) in oak-hickory forests when high browsing pressure is implemented, nevertheless goats may initially target their preferred species (e.g., spicebush). [ABSTRACT FROM AUTHOR]

Published

2023

23. Not all temperate deciduous trees are leafless in winter: The curious case of marcescence.

Author

Heberling, J. Mason and Muzika, Rose‐Marie

Subjects

WINTER, DECIDUOUS plants, PLANT phenology, DEFOLIATION, TEMPERATE forests, DECIDUOUS forests

Abstract

Temperate deciduous forests by definition include a large proportion of woody species that shed their leaves each autumn and are completely leafless during winter months. Leaf senescence in deciduous trees is an active, complex process typically involving the physiological formation of an abscission layer causing the petiole to mechanically detach from the branch. However, several deciduous species retain all or some senesced leaves on branches through much of winter, a phenomenon called leaf marcescence. Marcescence has long fascinated botanists, including Pehr Kalm as early as 1749. Yet, surprisingly little research has been done to date. Here, we review and explore patterns and mechanisms of leaf marcescence in temperate forests, bringing together six nonmutually exclusive but separately proposed hypotheses: (1) Marcescence has no adaptive function but rather an evolutionary byproduct; (2) Marcescent leaves deter winter browsing herbivores; (3) Leaf retention through winter improves nutrient resorption during autumn senescence; (4) Prolonged leaf shedding into spring minimizes nutrient leaching and promotes decomposition; (5) Marcescent leaves protect overwintering buds from frost or desiccation; and (6) Marcescent canopies provide winter cover for animals (including insects, birds, bats), thereby affecting plant nutrient availability via excrement. No hypothesis has complete support and few tests of multiple hypotheses have been done. It is likely that any adaptive value of marcescence is species and context dependent. Despite increased interest in plant phenology and prevalence of this trait, much remains to be understood on the physiology, evolution, function, and ecological implications of leaf marcescence. [ABSTRACT FROM AUTHOR]

Published

2023

24. Annual forest maps in the contiguous United States during 2015-2017 from analyses of PALSAR-2 and Landsat images.

Author

Jie Wang, Xiangming Xiao, Yuanwei Qin, Jinwei Dong, Geli Zhang, Xuebin Yang, Xiaocui Wu, Biradar, Chandrashekhar, and Yang Hu

Subjects

*FOREST mapping, *LANDSAT satellites, *FOREST canopies, *SYNTHETIC aperture radar, *FOREST management

Abstract

Annual forest maps at a high spatial resolution are necessary for forest management and conservation. Large uncertainties remain among the existing forest maps, because of different forest definitions, satellite datasets, in-situ training datasets, and mapping algorithms. In this study, we generated annual forest maps and evergreen forest maps at a 30-m resolution in the Contiguous United States (CONUS) during 2015-2017 by integrating microwave data (Phased Array type L-band Synthetic Aperture Radar (PALSAR-2)) and optical data (Landsat) using Knowledgebased algorithms. The resultant PALSAR-2/Landsat-based forest maps (PL-Forest) were compared with five major forest datasets in the CONUS: (1) the Landsat tree canopy cover from Global Forest Watch datasets (GFW-Forest), 2) the Landsat Vegetation Continuous Field datasets (Landsat VCF-Forest), (3) the National Land Cover Database 2016 (NLCD-Forest), (4) the Japan Aerospace Exploration Agency (JAXA) forest maps (JAXA-Forest), and (5) the Forest Inventory and Analysis (FIA) data from the USDA Forest Service (FIA-Forest). The forest structure data (tree canopy height and canopy coverage) derived from the lidar observations of the Geoscience Laser Altimetry System GLAS) onboard of NASA's Ice, Cloud, and land Elevation Satellite (ICESat-1) were used to assess the five forest datasets derived from satellite images. Using the forest definition by the Food and Agricultural Organization (FAO) of the United Nations, more forest pixels from the PL-Forest maps meet the FAO's forest definitions than the GFW-, Landsat VCF-, and JAXA-Forest datasets. Forest area estimates from the PL-Forest were close to those from the FIAForest statistics but higher than the GFW-Forest, NLCD-Forest and lower than the Landsat VCF-Forest, which highlights the potential of using both PL-Forest and FIA-Forest datasets to support the FAO's Global Forest Resources Assessment. Furthermore, the PL-based annual evergreen forest maps (PL-Evergreen Forest) showed reasonableconsistency with the NLCD product. Together with our previous work in South America and monsoon Asia, this study further demonstrates the potential of integrating PALSAR and Landsat images for developing annual forest maps and forest-type maps at high spatial resolution across the scales from region to the globe, which could be used to support FAO Global Forest Resources Assessments. The PL-Forest and PL-Evergreen Forest datasets are publicly available at https://doi.org/10.6084/m9.figshare.21270261 (Wang et al., 2022). [ABSTRACT FROM AUTHOR]

Published

2023

25. Assessing Phenological Shifts of Deciduous Forests in Turkey under Climate Change: An Assessment for Fagus orientalis with Daily MODIS Data for 19 Years.

Author

Şenel, Tuğçe, Kanmaz, Oğuzhan, Bektas Balcik, Filiz, Avcı, Meral, and Dalfes, H. Nüzhet

Subjects

PLANT phenology, DECIDUOUS forests, CLIMATE change, NORMALIZED difference vegetation index, BEECH

Abstract

Understanding how natural ecosystems are and will be responding to climate change is one of the primary goals of ecological research. Plant phenology is accepted as one of the most sensitive bioindicators of climate change due to its strong interactions with climate dynamics, and a vast number of studies from all around the world present evidence considering phenological shifts as a response to climatic changes. Land surface phenology (LSP) is also a valuable tool in the absence of observational phenology data for monitoring the aforementioned shift responses. Our aim was to investigate the phenological shifts of Fagus orientalis forests in Turkey by means of daily MODIS surface reflectance data (MOD09GA) for the period between 2002 and 2020. The normalized difference vegetation index (NDVI) was calculated for the entire Turkey extent. This extent was then masked for F. orientalis. These "Fagus pixels" were then filtered by a minimum of 80% spatial and an annual 20% temporal coverage. A combination of two methods was applied to the time series for smoothing and reconstruction and the start of season (SOS), end of season, and length of season parameters were extracted. Trends in these parameters over the 19-year period were analyzed. The results were in concert with the commonly reported earlier SOS pattern, by a Sen's slope of −0.8 days year−1. Lastly, the relationships between SOS and mean, maximum and minimum temperature, growing degree days (GDD), and chilling hours (CH) were investigated. Results showed that the most significant correlations were found between the mean SOS trend and accumulated CH and accumulated GDD with a base temperature of 2 °C, both for the February–March interval. The immediate need for a phenological observation network in Turkey and its region is discussed. [ABSTRACT FROM AUTHOR]

Published

2023

26. Woody species distribution across a savanna-dry forest soil gradient in the Brazilian Cerrado.

Author

Paula, G. A., Fischer, E., Silveira, M., Almeida, H., and van den Berg, E.

Subjects

CERRADOS, SPECIES distribution, TROPICAL dry forests, SAVANNAS, FOREST soils, PHYSIOGNOMY, DECIDUOUS forests

Abstract

Copyright of Brazilian Journal of Biology is the property of Instituto Internacional de Ecologia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

27. Influence of vegetation on occurrence and color of snow algal blooms in Mt. Gassan, Yamagata Prefecture, Japan.

Author

Suzuki, Takumi and Takeuchi, Nozomu

Subjects

ALGAL blooms, SNOWMELT, DECIDUOUS forests, FOREST canopies, ANALYTICAL chemistry, ABSORPTION spectra

Abstract

Snow algae are photosynthetic microbes growing on melting snow surfaces, the blooms of which are visible on alpine snowpacks in Japan during the melting season. We characterized the seasonal and altitudinal variations in algal blooms on Mount Gassan, Japan, to assess the influence of vegetation on the algal bloom. From May to July in 2019, we collected colored snow from lower deciduous forest to the upper alpine areas. In the lower forest area, chlorophyll-a concentration in colored snow samples increased concomitantly with deciduous tree budburst, whereas in the alpine area, chlorophyll-a increased from June to July, although at lower levels than in the forest area. The absorption spectra of algal pigments extracted from samples differed among study sites and seasons, with those obtained from forest sites mainly characterized by absorption of chlorophylls and primary carotenoids, whereas those from alpine sites showed an intense secondary carotenoid peak throughout the study period. Chemical solute analyses revealed a general abundance of phosphate in snow, which was significantly higher in forest than in alpine sites and positively correlated with chlorophyll-a concentration. These findings suggest that nutrient supply from the forest canopy largely controls the appearance of colored snow in this area. [ABSTRACT FROM AUTHOR]

Published

2023

28. Assessment of Vegetation Vigor Using Integrated Synthetic Aperture Radars

Author

Sinha, Suman, Kumar, Pavan, editor, Sajjad, Haroon, editor, Chaudhary, Bhagwan Singh, editor, Rawat, J. S., editor, and Rani, Meenu, editor

Published

2021

29. Thermal properties of Cambisols in mountain regions under different vegetation covers

Author

Katerina Doneva, Milena Kercheva, Emil Dimitrov, Emiliya Velizarova, and Maria Glushkova

Subjects

coniferous forest, deciduous forest, forest soils, grassland, kd2pro device, soil thermal properties, soil water retention curve, Agriculture

Abstract

Soil thermal properties regulate the thermal and water balance and influence the soil temperature distribution. The aim of the current study is to present data on the changes in the thermal properties of Cambisols at different ratios between the water content and the air in the pore space under different vegetation covers in mountain regions. The undisturbed soil samples were taken from the surface soil layers under grassland, deciduous and coniferous forests in three experimental stations of the Forest Research Institute - Gabra in Lozen Mountain, Govedartsi in Rila Mountain and Igralishte in Maleshevska Mountain. The soil thermal conductivity (λ), the thermal diffusivity (α) and the volumetric heat capacity (Cv) were measured with the SH-1 sensor of a KD2Pro device at different matric potentials in laboratory conditions. The thermal conductivity of the investigated soils was also measured with the TR-1 sensor of a KD2Pro device at the transitory soil moisture in field conditions. An increase in the thermal properties with the soil water content was best pronounced for λ and depended inversely on the total porosity. As the total porosity increased with the soil organic carbon content and decreased with the skeleton content, the lowest value of λ was established in the surface horizons of Dystric Cambisols (Humic) in the experimental station in Govedartsi. The soil thermal conductivity increased with the depth under the deciduous forest (Gabra and Igralishte) due to the lower soil organic carbon content (SOC) and the total porosity. There were no such changes in the subsurface horizon under the grassed associations. The increase in the heat capacity with the water content depended on the SOC to less extent. In the horizons with a SOC of less than 1.5%, the changes in the thermal diffusivity over the whole range of wetness were 1.7 times higher than those with a higher SOC.

Published

2022

30. Not all temperate deciduous trees are leafless in winter: The curious case of marcescence

Author

J. Mason Heberling and Rose‐Marie Muzika

Subjects

deciduous forest, Fagus grandifolia, leaf phenology, leaf senescence, marcescence, Ecology, QH540-549.5

Abstract

Abstract Temperate deciduous forests by definition include a large proportion of woody species that shed their leaves each autumn and are completely leafless during winter months. Leaf senescence in deciduous trees is an active, complex process typically involving the physiological formation of an abscission layer causing the petiole to mechanically detach from the branch. However, several deciduous species retain all or some senesced leaves on branches through much of winter, a phenomenon called leaf marcescence. Marcescence has long fascinated botanists, including Pehr Kalm as early as 1749. Yet, surprisingly little research has been done to date. Here, we review and explore patterns and mechanisms of leaf marcescence in temperate forests, bringing together six nonmutually exclusive but separately proposed hypotheses: (1) Marcescence has no adaptive function but rather an evolutionary byproduct; (2) Marcescent leaves deter winter browsing herbivores; (3) Leaf retention through winter improves nutrient resorption during autumn senescence; (4) Prolonged leaf shedding into spring minimizes nutrient leaching and promotes decomposition; (5) Marcescent leaves protect overwintering buds from frost or desiccation; and (6) Marcescent canopies provide winter cover for animals (including insects, birds, bats), thereby affecting plant nutrient availability via excrement. No hypothesis has complete support and few tests of multiple hypotheses have been done. It is likely that any adaptive value of marcescence is species and context dependent. Despite increased interest in plant phenology and prevalence of this trait, much remains to be understood on the physiology, evolution, function, and ecological implications of leaf marcescence.

Published

2023

31. Model-based analysis of the impact of diffuse radiation on CO2 exchange in a temperate deciduous forest

Author

Lee, Min S, Andrew D. Richardson, Andrew P. Ouimette, David Y. Hollinger, Scott V. Ollinger, and Trevor F. Keenan

Subjects

Diffuse radiation, Light use efficiency, Eddy covariance, Net ecosystem exchange, Deciduous forest, Canopy photosynthesis, Meteorology & Atmospheric Sciences, Earth Sciences, Biological Sciences, Agricultural and Veterinary Sciences

Abstract

Clouds and aerosols increase the fraction of global solar irradiance that is diffuse light. This phenomenon is known to increase the photosynthetic light use efficiency (LUE) of closed-canopy vegetation by redistributing photosynthetic photon flux density (400–700nm) from saturated, sunlit leaves at the top of the canopy, to shaded leaves deeper in the canopy. We combined a process-based carbon cycle model with 10 years of eddy covariance carbon flux measurements and other ancillary data sets to assess 1) how this LUE enhancement influences interannual variation in carbon uptake, and 2) how errors in modeling diffuse fraction affect predictions of carbon uptake. Modeled annual gross primary productivity (GPP) increased by ≈0.94% when observed levels of diffuse fraction were increased by 0.01 (holding total irradiance constant). The sensitivity of GPP to increases in diffuse fraction was highest when the diffuse fraction was low to begin with, and lowest when the diffuse fraction was already high. Diffuse fraction also explained significantly more of the interannual variability of modeled net ecosystem exchange (NEE), than did total irradiance. Two tested radiation partitioning models yielded over- and underestimates of diffuse fraction at our site, which propagated to over- and underestimates of annual NEE, respectively. Our findings highlight the importance of incorporating LUE enhancement under diffuse light into models of global primary production, and improving models of diffuse fraction.

Published

2018

32. Litter quality and decomposition responses to drought in a northeastern US deciduous forest.

Author

Wilson, Alexis M., Burtis, James C., Goebel, Marc, and Yavitt, Joseph B.

Subjects

*DROUGHTS, *DECIDUOUS forests, *FOREST litter, *RED oak, *SUGAR maple, *DECIDUOUS plants, *WHITE oak, *ALNUS glutinosa

Abstract

Even though drought impacts on tree physiology have been identified, whether drought affects leaf litter chemistry that, in turn, influences litter decay rates is still poorly understood. We compared litter quality and decomposition for two cohorts of leaves from five co-occurring seasonally deciduous tree species: Acer saccharum, Tilia americana, Quercus rubra, Quercus alba, and Ostrya virginiana. One cohort experienced a growing-season drought, and the other cohort came from the same trees in the ensuing, post-drought growing season. Leaf litter production was greater for drought litter than post-drought litter for all five species. Specific leaf area and nitrogen concentrations were 20% greater for the drought cohort than the post-drought cohort. Concentrations of non-structural carbohydrates were about 14% greater for the drought cohort, except for greater values for post-drought A. saccharum litter. Pectin in the middle lamella of leaf litter was 31% lower for the drought cohort compared to post-drought cohort. We found few differences in litter decay rates between drought and post-drought cohorts, although Q. rubra litter had more decomposition for the post-drought cohort than the drought cohort, whereas A. saccharum litter had more decomposition for the drought cohort than the post-drought cohort. Leaf litter decay rates for the drought cohort were related to litter nitrogen and lignin concentrations, whereas decay rates for the post-drought cohort were related to litter carbohydrate concentrations. Our findings suggest that the role of drought events on seasonally deciduous forest ecosystems must recognize species-specific, idiosyncratic responses in leaf litter quality and decomposition. [ABSTRACT FROM AUTHOR]

Published

2022

33. Redistribution of the soil 137Cs inventory through litter and sediment transport on a hillslope covered by deciduous forest in Fukushima, Japan.

Author

Oda, Tomoki, Hotta, Norifumi, Miura, Satoru, Endo, Izuki, Tanoi, Keitaro, Renschler, Chris S., and Ohte, Nobuhito

Subjects

DECIDUOUS forests, SEDIMENT transport, FOREST litter, NUCLEAR power plant accidents, CESIUM, BROADLEAF forests, RIPARIAN areas

Abstract

The long‐term behaviour of radiocaesium (137Cs) activity concentrations in forest ecosystems and their downstream impacts remain important issues in the deciduous broadleaf forests of Fukushima, Japan following the Fukushima Daiichi Nuclear Power Plant accident. To predict 137Cs cycling and discharge in the forest ecosystem, it is important to understand the spatial dynamics of the 137Cs inventory and transport along hillslopes. Therefore, we observed the spatial distribution of the 137Cs inventory and 137Cs transport via sediment and litter of a deciduous forest hillslope in Fukushima, Japan in 2016 and 2017 and examined how the spatial distribution of 137Cs inventory was formed using a mass balance model. In 2017, the 137Cs activity concentration was significantly greater in the downslope riparian area (455 kBq/m2) than in the upslope ridge area (179 kBq/m2). Annual 137Cs transport within litter and sediment contributed <0.5% to the current 137Cs inventory and cannot explain the current spatial variation of 137Cs inventory on the hillslope. The mass balance model results showed that if the initial 137Cs deposition was distributed uniformly in 2011, the spatial distribution of the hillslope 137Cs inventory was influenced mainly by the movement of leaf litter with a high 137Cs activity concentration. [ABSTRACT FROM AUTHOR]

Published

2022

34. Assessing the Spatiotemporal Variability of SMAP Soil Moisture Accuracy in a Deciduous Forest Region.

Author

Abdelkader, Mohamed, Temimi, Marouane, Colliander, Andreas, Cosh, Michael H., Kelly, Vicky R., Lakhankar, Tarendra, and Fares, Ali

Subjects

*DECIDUOUS forests, *SOIL moisture, *VORONOI polygons, *FORESTS & forestry, *LAND cover, *SOIL temperature

Abstract

The goal of this study is to assess the temporal variability of the performance of the Soil Moisture Active Passive, SMAP, soil moisture retrievals throughout the seasons as surface conditions change. In-situ soil moisture observations from a network deployed in Millbrook, New York, between 2019 and 2021 are used. The network comprises 25 stations distributed across a 33-km SMAP pixel with a predominantly forest land cover. The in-situ soil moisture observations were collected between 6 and 7 a.m., local time. This article covers the assessment of the temporal accuracy of SMAP soil moisture by incorporating various upscaling methods. Four upscaling methods are used in this study: arithmetic average, Voronoi diagram, topographic wetness index, and land cover weighted average. The agreement between SMAP soil moisture and the upscaled in-situ measurements was gauged using the root-mean-squared difference, the mean difference, and the unbiased root-mean-squared difference. The consistency of the temporal variability of SMAP soil moisture data resulting from the four upscaling methods was analyzed. The results revealed that SMAP retrievals (soil moisture data) are systematically higher than in situ observations during the different seasons. The results indicate that the highest performance of SMAP soil moisture retrievals is in September with an ubRMSD value of 0.03 m3.m−3 for the morning and evening overpasses, which can be attributed to a lower vegetation density during the seasonal transition. The agreement with in-situ observations degrades during March–April with ubRMSD values above 0.04 m3.m−3, reaching ~0.06 m3.m−3 in April, which can be attributed to the non-reliability of in-situ measurements due to freeze\thaw transition and the challenging determination of the soil effective temperature. The ubRMSD is also higher than 0.04 m3.m−3 in the months of May–June, which could be due to the introduced vegetation effect during the growth season. These findings are consistent across all the upscaling methods. The average ubRMSD over the study period is 0.055 m3.m−3, which falls short of meeting the mission's performance target. This study proves the need to enhance SMAP retrieval over forest sites. [ABSTRACT FROM AUTHOR]

Published

2022

35. Estimation of ecosystem evapotranspiration in a Robinia pseudoacacia L. plantation with the use of the eddy covariance technique and modeling approaches

Author

Nikos Markos and Kalliopi Radoglou

Subjects

black locust, deciduous forest, eddy covariance, evapotranspiration, land surface water index, restoration, robinia pseudoacacia, transpiration, Water supply for domestic and industrial purposes, TD201-500, River, lake, and water-supply engineering (General), TC401-506

Abstract

Τhe eddy covariance technique provides reliable ecosystem-level evapotranspiration (ET) measurements. These measurements, when combined with models and satellite products, could offer high spatiotemporal coverage and valuable mechanistic interpretation of the underlying processes. This study address one-year eddy covariance measurements from a Robinia pseudoacacia site in Northern Greece and remote sensing products: we (a) provide a medium-term description of daily ET fluxes for a R. pseudoacacia plantation in a degraded land, (b) assess the contribution of environmental drivers (e.g. net radiation, temperature etc.) on ET and (c) evaluate a simple satellite and meteorological driven model for larger-scale applications, based on the Land Surface Water Index (LSWI) and the FAO approach. R. pseudoacacia was found to have quite high water consumption, especially during leaf expansion. Net radiation and soil water content had the greatest effect on ecosystem evapotranspiration. LSWI was found to be correlated with both soil water content and evapotranspiration. Its use as an index for water limitation in models leads to high accuracy when compared to ET measurements. Our results (a) provide a significant contribution to the assessment of R. pseudoacacia ecophysiology and (b) highlight the potential of accurate ecosystem ET estimation with simple modeling approaches. HIGHLIGHTS The eddy covariance method contributes to the better knowledge of the species ecophysiology, as well as its performance under highly degraded soils.; An evapotranspiration model, evaluated against the eddy covariance measurements, appears to give a very good performance.; Land Surface Water Index was found to correlate well with ecosystem evapotranspiration and can be used as a crop coefficient scalar.;

Published

2021

36. Deforestation and fragmentation trends of seasonal dry tropical forest in Ecuador: impact on conservation

Author

Carlos A. Rivas, José Guerrero-Casado, and Rafael M. Navarro-Cerillo

Subjects

Deciduous forest, Semi-deciduous forest, Remnant forest, Patch isolation, Habitat loss, Protected areas, Ecology, QH540-549.5

Abstract

Abstract Background Fragmentation and deforestation are one of the greatest threats to forests, and these processes are of even more concern in the tropics, where the seasonal dry forest is possibly one of the most threatened ecosystems with the least remaining surface area. Methods The deforestation and fragmentation patterns that had occurred in Ecuadorian seasonal dry forests between 1990 and 2018 were verified, while geographic information systems and land cover shapes provided by the Ecuadorian Ministry of the Environment were employed to classify and evaluate three types of seasonal dry forests: deciduous, semi-deciduous, and transition. The study area was tessellated into 10 km2 hexagons, in which six fragmentation parameters were measured: number of patches, mean patch size, median patch size, total edge, edge density and reticular fragmentation index (RFI). The RFI was also measured both outside and inside protected natural areas (unprotected, national protected areas and protected forest). Moreover, the areas with the best and worst conservation status, connectivity and risk of disappearance values were identified by means of a Getis-Ord Gi* statistical analysis. Results The deforestation of seasonal dry forests affected 27.04% of the original surface area still remaining in 1990, with an annual deforestation rate of − 1.12% between 1990 and 2018. The RFI has increased by 11.61% as a result of the fact that small fragments of forest have tended to disappear, while the large fragments have been fragmented into smaller ones. The semi-deciduous forest had the highest levels of fragmentation in 2018. The three categories of protection had significantly different levels of fragmentation, with lower RFI values in national protected areas and greater values in protected forests. Conclusions The seasonal dry forest is fragmenting, deforesting and disappearing in some areas. An increased protection and conservation of the Ecuadorian seasonal dry forest is, therefore, necessary owing to the fact that not all protection measures have been effective.

Published

2021

37. Soil Type Rather Than Freezing Determines the Size of Soil-Root Plate of Silver Birch (Betula pendula Roth.) in the Eastern Baltic Region.

Author

Krišāns, Oskars, Matisons, Roberts, Vuguls, Jānis, Seipulis, Andris, Elferts, Didzis, Samariks, Valters, Saleniece, Renāte, and Jansons, Āris

Abstract

In the Eastern Baltic region, severe windstorms increase both in frequency and magnitude, particularly during the dormancy period, increasing wind damage risks even more for silver birch (Betula pendula Roth.), which is considered to be less vulnerable forest tree species. Tree anchorage, particularly the properties of soil–root plate, determines the type of fatal failures trees experience under extreme wind loads and, subsequently, the potential for timber recovery during salvage logging. The link between soil–root plate properties and fatal failure types was assessed by conducting destructive static pulling tests; trees on freely draining minerals and drained deep peat soils under frozen and non-frozen soil conditions were tested. The size of the root plate did not differ between trees experiencing uprooting or stem breakage but was largely affected by soil type. Frozen soil conditions increased soil–root anchorage (via binding between soil particles) and, hence, the frequency of stem breakage without changing the size of soil–root plate. However, the lack of frozen soil conditions is among the main climatic risks for forestry within the region. The differences in the properties of soil–root plate implies plasticity in adaptation to wind loadings relative to birch, suggesting a potential for managing different types of fatal failure of trees and, subsequently, the share of retrievable timber in cases of salvage logging. [ABSTRACT FROM AUTHOR]

Published

2022

38. Stasis in forest regeneration following deer exclusion and understory gap creation: A 10‐year experiment.

Author

Royo, Alejandro A. and Carson, Walter P.

Subjects

FOREST regeneration, FERNS, PLANT diversity, WHITE-tailed deer, FOREST canopies, DEER

Abstract

Chronically elevated ungulate browse pressure in temperate forests worldwide often generates ecological legacies characterized by low plant diversity and contributes to the formation of dense, nearly monodominant, and highly recalcitrant layers of understory vegetation. Once established, these recalcitrant layers combined with continued browsing may jointly constrain tree establishment and diversity so completely that understory recovery may be unattainable without mitigating browse pressure, the recalcitrant layer, or both. Here, we investigate the independent and synergistic effects of both white‐tailed deer (Odocoileus virginianus) browsing and hay‐scented fern (Dennstaedtia punctilobula) competition on tree regeneration in a 10‐year experiment. Specifically, we examine how tree seedling establishment, growth, and composition are filtered by fern cover versus fern removal (gaps), browser presence versus absence (exclosures), and their combined effects during 10 years at three hardwood forest sites in Pennsylvania, USA. Fern gaps enhanced establishment for multiple tree species, increasing seedling density and diversity, particularly in the first 3 years post‐treatment, and enhancing richness (≤1 species) over the course of the experiment. Excluding deer for a decade increased the height growth of other regeneration and altered species composition, but had no effect on diversity, richness, and density. Notably, we observed higher Prunus serotina seedling densities outside exclosures, possibly due to greater secondary dispersal. We argue that browsing legacies in second growth forests established at the turn of the last century created two conditions inimical to diverse forest regeneration: an overstory dominated by two species, P. serotina and Acer rubrum (86% of basal area), and a dense recalcitrant understory layer dominated by a native fern. The first condition limits propagule supply, the second strongly filters seedling establishment, and both create impoverished forest understories composed of few individuals and species. In undisturbed forest understories, the inertia toward impoverishment was sustained across the decade even where browsing was eliminated. Consequently, stand replacing disturbances (whether natural or anthropogenic) that disrupt the understory layer and reinitiate succession may be necessary to propel forests out of their current stasis and down a pathway leading to greater diversity. [ABSTRACT FROM AUTHOR]

Published

2022

39. Changes in Species and Functional Diversity of the Herb Layer of Riparian Forest despite Six Decades of Strict Protection.

Author

Reczyńska, Kamila, Orczewska, Anna, Yurchenko, Valeriia, Wójcicka-Rosińska, Anna, and Świerkosz, Krzysztof

Subjects

RIPARIAN forests, SPECIES diversity, TEMPERATE forests, FOREST protection, COMMUNITY forests, HABITATS

Abstract

The herb layer of temperate forests contributes to long-term forest ecosystem functioning and provisioning of ecosystem services. Therefore, a thorough understanding of its dynamics in the face of environmental changes is essential. This paper focuses on the species and functional diversity of the herb layer of riparian forests to verify how these two community components changed over time and under strict protection. The understory vegetation was surveyed on 42 semi-permanent plots in three time periods between 1960 and 2020. The overall pattern in vegetation changes that related to species richness and diversity, functional structure, and habitat conditions was analyzed using ordination and permutation techniques. We found significant changes in species composition and the functional structure of herbaceous vegetation over the last six decades. Forests were enriched with nutrient-demanding and alien species. A significant increase in functional diversity and the proportion of species with high SLA and canopy height was also observed, whereas changes in habitat conditions were insignificant. The observed trends indicate that the strict protection of forest communities within small and isolated reserves does not fully protect their species composition. Forest reserves should be surrounded by unmanaged forests and spatially connected to allow species mobility. [ABSTRACT FROM AUTHOR]

Published

2022

40. Preliminary notes on floristic composition and structural profiles of lowland deciduous forest fragments: A case study in Lampang Campus of Thammasat University, Northern Thailand.

Author

Inuthai, Janejaree

Subjects

*DECIDUOUS forests, *SECONDARY forests, *CASHEW tree, *PLANT species, *UNIVERSITIES & colleges

Abstract

The present study provides preliminary information on floristic composition of lowland deciduous forest fragments in Thammasat University, Lampang Campus, Lampang Province, Northern Thailand. A total of 110 vascular plant species belonging to 43 families and 89 genera were collected and identified. The most common species were Dipterocarpus obtusifolius, Dipterocarpus tuberculatus, Cratoxylum cochinchinense, Diospyros ehretioides, Garcinia nigrolineata, and Anacardium occidentale. The structural profiles of straight stems, sparsely distributed trees, and open crowns with 3 layers were constructed. In addition, the lowland deciduous forest fragments on the campus are considered the young to the intermediate-staged secondary forests in the present study. [ABSTRACT FROM AUTHOR]

Published

2022

41. Thermal properties of Cambisols in mountain regions under different vegetation covers.

Author

Doneva, Katerina, Kercheva, Milena, Dimitrov, Emil, Velizarova, Emiliya, and Glushkova, Maria

Subjects

*THERMAL diffusivity, *CAMBISOLS, *THERMAL properties, *THERMAL conductivity, *GROUND vegetation cover, *SOIL moisture, *DECIDUOUS forests, *GRASSLAND soils

Abstract

Soil thermal properties regulate the thermal and water balance and influence the soil temperature distribution. The aim of the current study is to present data on the changes in the thermal properties of Cambisols at different ratios between the water content and the air in the pore space under different vegetation covers in mountain regions. The undisturbed soil samples were taken from the surface soil layers under grassland, deciduous and coniferous forests in three experimental stations of the Forest Research Institute – Gabra in Lozen Mountain, Govedartsi in Rila Mountain and Igralishte in Maleshevska Mountain. The soil thermal conductivity (λ), the thermal diffusivity (α) and the volumetric heat capacity (Cv) were measured with the SH-1 sensor of a KD2Pro device at different matric potentials in laboratory conditions. The thermal conductivity of the investigated soils was also measured with the TR-1 sensor of a KD2Pro device at the transitory soil moisture in field conditions. An increase in the thermal properties with the soil water content was best pronounced for λ and depended inversely on the total porosity. As the total porosity increased with the soil organic carbon content and decreased with the skeleton content, the lowest value of λ was established in the surface horizons of Dystric Cambisols (Humic) in the experimental station in Govedartsi. The soil thermal conductivity increased with the depth under the deciduous forest (Gabra and Igralishte) due to the lower soil organic carbon content (SOC) and the total porosity. There were no such changes in the subsurface horizon under the grassed associations. The increase in the heat capacity with the water content depended on the SOC to less extent. In the horizons with a SOC of less than 1.5%, the changes in the thermal diffusivity over the whole range of wetness were 1.7 times higher than those with a higher SOC. [ABSTRACT FROM AUTHOR]

Published

2022

42. Ecological and Social Limitations for Mexican Dry Forest Restoration: A Systematic Review.

Author

Martínez-Garza, Cristina, Ceccon, Eliane, and Méndez-Toribio, Moisés

Abstract

In Mexico, dry forests are one of the ecosystems in major need of restoration intervention. Here, we explored the ecological and social limitations on the restoration of Mexican dry forests from the perspective of restoration practitioners and researchers. We included three data sources: (i) projects included in a national evaluation (1979–2016), (ii) a systematic review of scientific literature (1979–2021), and (iii) restoration projects included in two governmental programs. The national evaluation and the systematic review coincided in identifying the establishment of plantings as the most important ecological limitation and low social participation as the most important social limitation. There were three times more publications addressing ecological limitations than those addressing social limitations. We did not find research to resolve the problems faced by practitioners related to invasive species, unpredictable climate, and poor soil quality. Governmental programs promoting the restoration of ecosystems need to include measurable indicators to document the socioecological limitations faced by local practitioners to restore Mexican dry forests. [ABSTRACT FROM AUTHOR]

Published

2022

43. Geographical distribution and potential geographical range of the Red Skink Scincella assata (Cope, 1864) (Squamata, Scincidae) in El Salvador

Author

Antonio Esaú Valdenegro-Brito, Nestor Herrera-Serrano, and Uri Omar García-Vázquez

Subjects

Deciduous forest, maximum entropy, pine-oak forest, Biology (General), QH301-705.5

Abstract

Scincella assata (Cope, 1864) is known from eight departments from El Salvador. Based on recent fieldwork and research in scientific collections and databases, we report 12 new records of S. assata from the country, bringing the total number of verified occurrences to 40. Scincella assata is recorded for first time in the departments of Morazan and Usulatán. Additionally, we conducted potential distribution modeling of S. assata. Results from the distribution modeling suggest the presence of this species in all 14 departments of El Salvador, four of which currently lack verified records.

Published

2021

44. Assessing Forest Vitality and Forest Structure Using 3D Data: A Case Study From the Hainich National Park, Germany

Author

Marius G. Heidenreich and Dominik Seidel

Subjects

mobile laser scanning, terrestrial laser scanning, quantitative structure models, fractal analysis, deciduous forest, drought, Forestry, SD1-669.5, Environmental sciences, GE1-350

Abstract

The adaptation of forest management to changing environmental conditions due to climate change relies on information on the current forest and tree vitality. In common practice, the percentage of crown defoliation is used as a proxy for tree vitality, an approach that has several drawbacks. By performing laser scanning on a forest plot in the Hainich National Park, we tested a new approach to quantifying tree vitality. Based on the difference in structural complexity measured between summer and winter, assessed via the box-dimension, the new approach provides an objective and reproducible method that does not only allow the quantification of the defoliation, but also includes the effects of branch diebacks. In addition, we assessed the change in box-dimension and branch lengths between 2013 and 2021 and studied the overall structural development of the trees to analyze the alteration of their vitality. On average, we found a decrease in overall structural complexity, as well as in branch lengths for most trees in the investigated forest. Further, the mean difference in box-dimension (summer minus winter) decreased with ascending vitality class. We conclude that the vitality of the trees was negatively affected over the period of 8 years, and we argue the newly proposed method based on the box-dimension holds potential to be used as a measure for tree vitality in deciduous forests.

Published

2022

45. Limited effect of ozone reductions on the 20‐year photosynthesis trend at Harvard forest

Author

Yue, Xu, Keenan, Trevor F, Munger, William, and Unger, Nadine

Subjects

Plant Biology, Biological Sciences, Forecasting, Forests, Neural Networks, Computer, Ozone, Photosynthesis, Plant Leaves, United States, artificial neural networks, decadal trend, deciduous forest, gross primary production, ozone inhibition, photosynthesis, stomatal conductance, terrestrial biosphere model, Neural Networks, Environmental Sciences, Ecology, Biological sciences, Earth sciences, Environmental sciences

Abstract

Ozone (O3 ) damage to leaves can reduce plant photosynthesis, which suggests that declines in ambient O3 concentrations ([O3 ]) in the United States may have helped increase gross primary production (GPP) in recent decades. Here, we assess the effect of long-term changes in ambient [O3 ] using 20 years of observations at Harvard forest. Using artificial neural networks, we found that the effect of the inclusion of [O3 ] as a predictor was slight, and independent of O3 concentrations, which suggests limited high-frequency O3 inhibition of GPP at this site. Simulations with a terrestrial biosphere model, however, suggest an average long-term O3 inhibition of 10.4% for 1992-2011. A decline of [O3 ] over the measurement period resulted in moderate predicted GPP trends of 0.02-0.04 μmol C m-2  s-1  yr-1 , which is negligible relative to the total observed GPP trend of 0.41 μmol C m-2  s-1  yr-1 . A similar conclusion is achieved with the widely used AOT40 metric. Combined, our results suggest that ozone reductions at Harvard forest are unlikely to have had a large impact on the photosynthesis trend over the past 20 years. Such limited effects are mainly related to the slow responses of photosynthesis to changes in [O3 ]. Furthermore, we estimate that 40% of photosynthesis happens in the shade, where stomatal conductance and thus [O3 ] deposition is lower than for sunlit leaves. This portion of GPP remains unaffected by [O3 ], thus helping to buffer the changes of total photosynthesis due to varied [O3 ]. Our analyses suggest that current ozone reductions, although significant, cannot substantially alleviate the damages to forest ecosystems.

Published

2016

46. Effects of reforestation approaches, agroforestry and woodlot, on plant community composition, diversity and soil properties in Madhupur Sal forest, Bangladesh.

Author

Hasan, Mohammad Kamrul, Islam, Md. Tariqul, Akter, Rojina, and Roshni, Nasima Akther

Subjects

*WOODLOTS, *FOREST soils, *AGROFORESTRY, *REFORESTATION, *SOIL conservation, *CHEMICAL composition of plants

Abstract

Background: Increasing land demands for food production have led to biodiversity loss and land degradation in the Madhupur Sal forest. Reforestation activities such as agroforestry and woodlot plantation support the conservation of diversity, restoration of forest and prevention of soil erosion in degraded natural Sal forest. Knowing about these reforestation activities, this study is needed to compare the species composition, richness, and soil nutrients of these two plantation activities to the natural Sal forest in the degraded Madhupur Sal forest in Bangladesh. Results: The analysis showed that in between the reforestation activities, the highest Shannon-Wiener index (1.79), evenness (0.60) and Simpson's index (0.79) were found in the agroforestry site compared to the woodlot plantation site. On the contrary, the highest species richness (n = 14), tree basal area (19.56 m² ha-1), Margalef's index (1.96) were recorded in woodlot plantation than in the agroforestry site. We observed that at 0-15 cm depth, soil organic matter (2.39%), total nitrogen (0.14%), available phosphorous (62.67 μg g-1) and exchangeable potassium (0.36 meq/100 g) in agroforestry plots were significantly higher compared to other forest sites. At topsoil (15-30 cm depth), soil organic matter (1.67%) and available phosphorous (21.09 μg g-1) were found to be higher in agroforestry site. Conclusions: Both reforestation approaches improved soil function, although woodlot plantation had the higher species richness. Therefore, plantation activities by the sustainable implementation of these two practices are the best alternative to restore the biodiversity, richness and conserve soil fertility in the Madhupur Sal forest of Bangladesh. [ABSTRACT FROM AUTHOR]

Published

2022

47. Alteration in the amount of Glomalin in transition from forest to field/meadow.

Author

Valerie, Vranová and Ladislav, Holik

Subjects

NEAR infrared spectroscopy, MEADOWS, SOIL structure, TUNDRAS, GROWING season, DECIDUOUS forests

Abstract

Glomalin produced by fungal mycelium represents a significant stabilizing element of soil aggregates and a relatively stable carbon reservoir in the soil. The aim of our research was to investigate the changes in the amount of glomalin‐related soil protein (GRSP) associated with the transition from forest to meadow or field conditions at the four transects during the 2016 growing season. The method Near Infrared Spectrometry was applied for measuring the amount of GRSP. The measurements have demonstrated that the amount of GRSP decreased both in the points adjacent to the ecotone in the meadow and the field at the Bukovinka and the Proklest A transects. At the two transects, the changes in the amount of GRSP between the forest, the ecotone and the meadow were statistically insignificant except for the point 4 where more GRSP was found out in the meadow and the ecotone than in the forest. [ABSTRACT FROM AUTHOR]

Published

2022

48. Combining Trunk Detection With Canopy Segmentation to Delineate Single Deciduous Trees Using Airborne LiDAR Data

Author

Xiaohu Wang, Yizhuo Zhang, and Ze Luo

Subjects

Airborne LiDAR, canopy segmentation, deciduous forest, trunk detection, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

To minimize omission and commission errors due to the lack of adequate utilization of forest structure information, this paper presents a tree delineation approach by combining trunk detection with canopy segmentation. First, all potential tree trunk points are detected and detached from leaf-off data by analyzing the points' vertical histogram, and the obtained points are then clustered using the method based on DBSCAN (Density-Based Spatial Clustering of Application with Noise). Meanwhile, the canopy-based segmentation is implemented using leaf-on data within the same plot. The detected trunks and delineated crown segments are then combined using the matching rules. Finally, single trees are isolated from point clouds, and tree-level structure information is estimated. The novelty of this approach lies in that the trunk detection results and the canopy segmentation results serve as mutual references for final individual tree delineation. Experimental results in a canopy-closed deciduous natural forest show that the presented method can identify 84.0% of trees, 90.7% of the identified trees are correct, and the total segmentation accuracy is 87.2%. The determination coefficient R2 of tree height is 0.96, and the mean difference of tree position is 76 cm. The results imply that the presented approach has good potential for isolating single trees from airborne LiDAR point clouds and estimating tree-level structural parameters in deciduous forests.

Published

2020

49. Seasonal variation in leaf traits of Sal (Shorea robusta Gaertn.) in relation to its adaptation with soil environment.

Author

Akter, Suraiya, Rahman, Md. Habibur, Kashem, Md. Abul, and Hossain, Mohammad Zabed

Subjects

SEASONS, ENVIRONMENTAL soil science, SOIL moisture, DECIDUOUS forests, LEAF area, PLANT-water relationships, FOREST soils

Abstract

This study investigated the seasonal variation in leaf traits of the dominant tree species Shorea robusta Gaertn. of the Madhupur deciduous forest, Bangladesh in order to understand its adaptation with soil environmental conditions. Fully expanded mature leaves of S. robusta and the soil samples were collected from the forest during summer, rainy, autumn and winter seasons. Significant seasonal effects appeared on a number of morpho-physiological traits such as specific leaf area, leaf mass per area, relative water content, dry matter content, chlorophyll content along with stomatal length, breadth, open–close behavior, density and pore index. The values for leaf mass per unit area and chlorophyll content were higher in autumn and winter than other seasons of the year. The highest values of stomatal density and percentage of open stomata were found in summer indicating their probable correlation with the growth season of the plant. Seasonal fluctuation of soil moisture content showed correlation with leaf water and leaf dry matter contents but not with open–close behavior of stomata. Stomatal movement seemed to be related more with leaf K content and the growing season of the plant as indicated by the maximum number of open stomata observed during summer. The highest value of stomatal pore index in summer indicated its role in gaseous exchange during the growing season of the plant. A decline in leaf N and P concentrations in winter compared to other seasons of the year indicated a tendency of nutrient resorption by plants before senescence of leaf occurred. Overall, the present study demonstrated that the interactions between soil properties and leaf traits influenced the adaptation strategies of S. robusta in the Madhupur forest. Findings of this study are relevant for future research to enhance our understanding about the consequences of the seasonal variation in plant traits for ecological processes including species interactions and ecosystem functioning. [ABSTRACT FROM AUTHOR]

Published

2021

50. Deforestation and fragmentation trends of seasonal dry tropical forest in Ecuador: impact on conservation.

Author

Rivas, Carlos A., Guerrero-Casado, José, and Navarro-Cerillo, Rafael M.

Subjects

TROPICAL dry forests, SEASONS, DEFORESTATION, GEOGRAPHIC information systems, ENDANGERED ecosystems, DECIDUOUS forests, TROPICAL forests

Abstract

Background: Fragmentation and deforestation are one of the greatest threats to forests, and these processes are of even more concern in the tropics, where the seasonal dry forest is possibly one of the most threatened ecosystems with the least remaining surface area. Methods: The deforestation and fragmentation patterns that had occurred in Ecuadorian seasonal dry forests between 1990 and 2018 were verified, while geographic information systems and land cover shapes provided by the Ecuadorian Ministry of the Environment were employed to classify and evaluate three types of seasonal dry forests: deciduous, semi-deciduous, and transition. The study area was tessellated into 10 km2 hexagons, in which six fragmentation parameters were measured: number of patches, mean patch size, median patch size, total edge, edge density and reticular fragmentation index (RFI). The RFI was also measured both outside and inside protected natural areas (unprotected, national protected areas and protected forest). Moreover, the areas with the best and worst conservation status, connectivity and risk of disappearance values were identified by means of a Getis-Ord Gi* statistical analysis. Results: The deforestation of seasonal dry forests affected 27.04% of the original surface area still remaining in 1990, with an annual deforestation rate of − 1.12% between 1990 and 2018. The RFI has increased by 11.61% as a result of the fact that small fragments of forest have tended to disappear, while the large fragments have been fragmented into smaller ones. The semi-deciduous forest had the highest levels of fragmentation in 2018. The three categories of protection had significantly different levels of fragmentation, with lower RFI values in national protected areas and greater values in protected forests. Conclusions: The seasonal dry forest is fragmenting, deforesting and disappearing in some areas. An increased protection and conservation of the Ecuadorian seasonal dry forest is, therefore, necessary owing to the fact that not all protection measures have been effective. [ABSTRACT FROM AUTHOR]

Published

2021