Showing total 9,270 results

1. ANIMAL TRAFFIC: Lively Capital in the Global Exotic Pet Trade: By Rosemary-Claire Collard. 200 pp.; ills., bibliog., index. Durham, N.C.: Duke University Press, 2020. $24.95 (paper), ISBN 9781478010920.

Author

Johnston, Connie L.

Subjects

*PET industry, *EXOTIC animals, *BIOTIC communities, *ANIMAL communities, *BIOSPHERE reserves

Abstract

ANIMAL TRAFFIC: Lively Capital in the Global Exotic Pet Trade: By Rosemary-Claire Collard. First is the erasure of social relations that occurs in the commodity fetishism explained by traditional Marxian analyses, and second is Collard's assertion of the erasure of the animals' socio-ecological relations in their (former) biotic communities. These traits are what provide "use value" for humans, and Collard explains that for the commodity transformation to happen, exotic animals "are subject to a double fetishism" (p. 18). [Extracted from the article]

Published

2022

2. ENGINEERING AND GINNING: Comparison of Cotton-based Hydro-mulches and Conventional Wood and Paper Hydro-mulches - Study 1.

Author

Holt, Greg, Buser, Mike, Harmel, Daren, Potter, Ken, and Pelletier, Mathew

Subjects

ENGINEERING, COTTON, PLANT fibers, WOOD, SOIL erosion, BIOTIC communities

Abstract

Soil erosion from steep slopes, bare soil, or construction sites is a problem that can create on-site gullies, make revegetation difficult, and adversely affect downstream water bodies and aquatic ecosystems. Mulches have been widely used to mitigate the effects of erosion. One common type of mulch, hydro-mulch, uses shredded wood or paper that is mixed with water and applied with an applicator gun. In this study, conventional wood and paper hydro-mulches were compared with cottonseed hulls and three types of processed cotton gin by-products. The mulches were applied at two rates, 1121 and 2242 kg/ha (1000 and 2000 lb/acre). Comparisons were made on the time to runoff, sediment loss, mulch loss, and mulch coverage (C-Factor). The cottonbased mulches (cottonseed hulls and cotton gin by-products) performed equal to or better than conventional wood and paper mulches in reducing soil loss during a simulated 6.35-cm/h (2.5-in/h) rainfall intensity event. Likewise, a lower percentage of the cotton-based mulches were washed-off during the rain event than with the conventional wood and paper hydro-mulches. The coverage factor and the time to runoff associated with the wood and paper mulches were higher than for any of the cotton-based mulches. Overall, the cotton-based mulches showed promise in erosion control applications. [ABSTRACT FROM AUTHOR]

Published

2005

3. The people behind the papers - Philip Greulich.

Subjects

*BIOTIC communities, *BIOLOGICAL systems, *BIOLOGICAL mathematical modeling

Published

2021

4. Mapping Topic Evolution across the 40-Year-Old Long-Term Ecological Research MareChiara Site in the Gulf of Naples, Italy.

Author

Russo, Luca, Murano, Carola, and D'Alelio, Domenico

Subjects

NATURAL history, BIOTIC communities, LIFE cycles (Biology), MARINE ecology, MARINE sciences

Abstract

The forty-year-old Long-Term Ecological Research MareChiara (LTER-MC) program started on 26 January 1984, with fortnightly oceanographic sampling until 1991 and then, from 1995, with weekly sampling up to the present time. LTER-MC produced >150 publications that have been cited by thousands of other studies. In this scoping review, we analyzed this corpus using a semantic approach based on topic modeling, a machine-driven procedure to identify and map topics and their interactions. Understanding the causes behind the evolution of scientific topics, their emergence, splitting, hybridization, or merging within a scientific community is an important step in science policy in managing collaborative research and bringing it into the future. Across different topics, mainly represented by studies on Natural History, Biodiversity, Phenology, Life Cycles, and Community Ecology, the LTER-MC work expanded the knowledge on planktonic organisms, describing in detail their lifestyles and delineating their relationships with environmental conditions. In presenting these results, the potential strengths, weaknesses, opportunities, and threats connected to the overall scientific dimension of LTER-MC are discussed. Finally, the upcoming effort is envisioned in reinforcing internal collaboration to integrate basic and applied research around scientific investigations suitable for establishing a stronger interaction between science and policy, as indicated by the United Nations Decade of Ocean Science for Sustainable Development. [ABSTRACT FROM AUTHOR]

Published

2024

5. Where is dinner? The spatiality of the trophic niche of terrestrial mammalian carnivores in Chile, a systematization for their conservation.

Author

Vallejos-Garrido, Paulo, Zamora-Cornejo, Francisca, Rivera, Reinaldo, Castillo-Ravanal, Francis, and Rodríguez-Serrano, Enrique

Subjects

BIOGEOGRAPHY, BIOTIC communities, TEMPERATE forests, SPECIES diversity, SPECIES distribution

Abstract

Knowing what the highest-level mammalian carnivores and intermediate levels eat throughout the geography and how human activities may affect their community dynamics is relevant information to focusing and deciding on conservation efforts within a territory. In this review, we characterize geographically the accumulated knowledge about the trophic niche of terrestrial mammalian carnivore species and evaluate the spatial relationship between the species richness distribution and the geographical distribution of their trophic knowledge in Chile. We found 88 peer-reviewed papers that include trophic studies per se, theses, and short notes carried out in Chile, where at least one trophic element was reported for terrestrial mammalian carnivore species. We found a positive relationship between the species richness distribution pattern and the spatial distribution of accumulated trophic knowledge, i.e., most of the papers have been conducted in Central-southern Chile (Central Chile and Temperate Forest ecoregions) responding to the highest co-occurrence of carnivore species within the limits of the biodiversity hotspot, the most threatened area in the country. Despite this general relationship, we recognize gaps in knowledge regarding regions of the country that require more research effort, such as O'Higgins, Maule, and Ñuble regions, as well as focus efforts on certain species with no or almost no knowledge of their trophic ecology, such as Leopardus colocola, Lyncodon patagonicus and Conepatus chinga. Except for the northern Chilean ecosystems, there is a generalized report of high consumption of exotic mammals in the diet of carnivores in the center and south of the country. However, of the 98 localities recognized in the 88 papers, 20.4% correspond to an anthropized environment, while most (79.6%) correspond to a "non-anthropized" environment or protected area. We hope this review allows researchers and decision-makers to consider the knowledge and lack thereof of carnivore trophic interactions as an opportunity to conserve entire natural communities throughout the Chilean territory. [ABSTRACT FROM AUTHOR]

Published

2024

6. Response to the opinion paper by Ainley et al.

Author

Hanchet, Stuart, Dunn, Alistair, Parker, Steven, Horn, Peter, Stevens, Darren, and Mormede, Sophie

Subjects

*DISSOSTICHUS mawsoni, *FISH research, *FISH populations, *BUOYANCY, *BIOTIC communities

Abstract

We respond to comments made in the opinion paper by Ainley et al. (Hydrobiologia, 10.1007/s10750-015-2607-4, ) regarding our recent publication on the biology, ecology and life history of Antarctic toothfish ( Dissostichus mawsoni) in the Ross Sea region. We focus in particular on the spatial and temporal extent of data collected from the fishery; results of research to date on changes in abundance and size of Antarctic toothfish at McMurdo Sound; and the subject of neutral buoyancy and inferences about vertical distribution. We conclude by re-iterating the need for well-designed, standardised research programmes to address remaining uncertainties in its life history. [ABSTRACT FROM AUTHOR]

Published

2016

7. The measurement of rural community resilience to natural disaster in China.

Author

Li, Yuheng, Wang, Shengye, Zhang, Yun, and Du, Guoming

Subjects

DISASTER resilience, NATURAL disasters, EMERGENCY management, BIOTIC communities, DECISION making, CITIES & towns

Abstract

Comparing with cities, rural communities especially those declining rural communities have become vulnerable to natural disasters owing to their backward socioeconomic conditions. Taking Xun County of China's Henan Province as the study area, the paper aims to evaluate rural community resilience to flood by unveiling the connection between individuals' cognition, follow-up actions and the community resilience. Research results show that: (1) The logic chain exists as individual's cognition to disaster leads to their constructive actions to cope with disaster, which contribute to community resilience. (2) At the cognition dimension, individual's knowledge reserve of disaster prevention and their recognition to local authority are playing an important role in their decision making and follow-up behaviors when disaster occurs. (3) At the action dimension, individual's familiarity with the disaster preparedness, efficient information transmission when disaster occurs and villagers' following order and their unity of action all contribute to community resilience to disaster. The paper proposes ways to improve rural community resilience to disasters based on the research findings. [ABSTRACT FROM AUTHOR]

Published

2024

8. Mobility promotes and jeopardizes biodiversity in rock–paper–scissors games.

Author

Reichenbach, Tobias, Mobilia, Mauro, and Frey, Erwin

Subjects

*BIODIVERSITY, *BIOTIC communities, *SPECIES diversity, *COMPETITION (Biology), *ANIMAL diversity, *EMIGRATION & immigration

Abstract

Biodiversity is essential to the viability of ecological systems. Species diversity in ecosystems is promoted by cyclic, non-hierarchical interactions among competing populations. Central features of such non-transitive relations are represented by the ‘rock–paper–scissors’ game, in which rock crushes scissors, scissors cut paper, and paper wraps rock. In combination with spatial dispersal of static populations, this type of competition results in the stable coexistence of all species and the long-term maintenance of biodiversity. However, population mobility is a central feature of real ecosystems: animals migrate, bacteria run and tumble. Here, we observe a critical influence of mobility on species diversity. When mobility exceeds a certain value, biodiversity is jeopardized and lost. In contrast, below this critical threshold all subpopulations coexist and an entanglement of travelling spiral waves forms in the course of time. We establish that this phenomenon is robust; it does not depend on the details of cyclic competition or spatial environment. These findings have important implications for maintenance and temporal development of ecological systems and are relevant for the formation and propagation of patterns in microbial populations or excitable media. [ABSTRACT FROM AUTHOR]

Published

2007

9. Application of molecular techniques for identification of fungal communities colonising paper material

Author

Michaelsen, Astrid, Pinzari, Flavia, Ripka, Katrin, Lubitz, Werner, and Piñar, Guadalupe

Subjects

*MICROORGANISMS, *BIOTIC communities, *RECOMBINANT DNA, *DNA

Abstract

Abstract: Archives and libraries all over the world suffer from biodeterioration of writings caused by microorganisms, especially fungi. With traditionally used culture-dependent methods, only a small amount of effectively colonising organisms is detected. Restoration and maintenance of written cultural heritage is therefore problematic due to incomplete knowledge of the deterioration agents. In the present study, culture-independent molecular methods were applied to identify fungal communities colonising paper samples of different composition and age. Nucleic-acid-based strategies targeting the internally transcribed spacer (ITS) regions, which are nested in the nuclear rDNA repeats, were selected to investigate the fungal diversity on paper. The ITS regions possess a high variation among taxonomically distinct fungal species and even within the species. With this aim, several molecular biological methods were optimised for working with paper materials. Here, we introduce a DNA extraction protocol, which allowed the direct extraction of PCR-amplifiable DNA from samples derived from different kinds of paper. The DNA extracts were used to amplify either the ITS1 or ITS2 region by using different fungi-specific primer sets. The ITS-amplified regions were subsequently analysed by denaturing gradient gel electrophoresis (DGGE). Conditions for DGGE analysis, gradient, voltage, and running time, were established to accurately discriminate different fungal species in complex communities. Pure fungal strains were used to constitute a marker for further comparative investigations of historic papers. [Copyright &y& Elsevier]

Published

2006

10. Open-source Software Sustainability Models: Initial White Paper From the Informatics Technology for Cancer Research Sustainability and Industry Partnership Working Group.

Author

Ye, Ye, Barapatre, Seemran, Davis, Michael K, Elliston, Keith O, Davatzikos, Christos, Fedorov, Andrey, Fillion-Robin, Jean-Christophe, Foster, Ian, Gilbertson, John R, Lasso, Andras, Miller, James V, Morgan, Martin, Pieper, Steve, Raumann, Brigitte E, Sarachan, Brion D, Savova, Guergana, Silverstein, Jonathan C, Taylor, Donald P, Zelnis, Joyce B, and Zhang, Guo-Qiang

Subjects

STRATEGIC alliances (Business), TEAMS in the workplace, MEDICAL informatics, CANCER research, SUSTAINABILITY, PRODUCT management, TUMOR treatment, COMPUTER software, RESEARCH, COMPUTER science, APACHE (Disease classification system), INFORMATION science, RESEARCH funding, TECHNOLOGY, BIOTIC communities

Abstract

Background: The National Cancer Institute Informatics Technology for Cancer Research (ITCR) program provides a series of funding mechanisms to create an ecosystem of open-source software (OSS) that serves the needs of cancer research. As the ITCR ecosystem substantially grows, it faces the challenge of the long-term sustainability of the software being developed by ITCR grantees. To address this challenge, the ITCR sustainability and industry partnership working group (SIP-WG) was convened in 2019.Objective: The charter of the SIP-WG is to investigate options to enhance the long-term sustainability of the OSS being developed by ITCR, in part by developing a collection of business model archetypes that can serve as sustainability plans for ITCR OSS development initiatives. The working group assembled models from the ITCR program, from other studies, and from the engagement of its extensive network of relationships with other organizations (eg, Chan Zuckerberg Initiative, Open Source Initiative, and Software Sustainability Institute) in support of this objective.Methods: This paper reviews the existing sustainability models and describes 10 OSS use cases disseminated by the SIP-WG and others, including 3D Slicer, Bioconductor, Cytoscape, Globus, i2b2 (Informatics for Integrating Biology and the Bedside) and tranSMART, Insight Toolkit, Linux, Observational Health Data Sciences and Informatics tools, R, and REDCap (Research Electronic Data Capture), in 10 sustainability aspects: governance, documentation, code quality, support, ecosystem collaboration, security, legal, finance, marketing, and dependency hygiene.Results: Information available to the public reveals that all 10 OSS have effective governance, comprehensive documentation, high code quality, reliable dependency hygiene, strong user and developer support, and active marketing. These OSS include a variety of licensing models (eg, general public license version 2, general public license version 3, Berkeley Software Distribution, and Apache 3) and financial models (eg, federal research funding, industry and membership support, and commercial support). However, detailed information on ecosystem collaboration and security is not publicly provided by most OSS.Conclusions: We recommend 6 essential attributes for research software: alignment with unmet scientific needs, a dedicated development team, a vibrant user community, a feasible licensing model, a sustainable financial model, and effective product management. We also stress important actions to be considered in future ITCR activities that involve the discussion of the sustainability and licensing models for ITCR OSS, the establishment of a central library, the allocation of consulting resources to code quality control, ecosystem collaboration, security, and dependency hygiene. [ABSTRACT FROM AUTHOR]

Published

2021

11. Effects of elevated atmospheric CO2 and tropospheric O3 on nutrient dynamics: decomposition of leaf litter in trembling aspen and paper birch communities.

Author

Lingli Liu, King, John, and Giardina, Christian P.

Subjects

*PLANT-atmosphere relationships, *NUTRIENT cycles, *BIOTIC communities, *PLANT litter, *ORGANIC wastes, *ASPEN (Trees), *POPULUS tremuloides, *PAPER birch, *BIOGEOCHEMICAL cycles

Abstract

Atmospheric changes could strongly influence how terrestrial ecosystems function by altering nutrient cycling. We examined how the dynamics of nutrient release from leaf litter responded to two important atmospheric changes: rising atmospheric CO2 and tropospheric O3. We evaluated the independent and combined effects of these gases on foliar litter nutrient dynamics in aspen ( Populus tremuloides Michx) and birch ( Betula papyrifera Marsh)/aspen communities at the Aspen FACE Project in Rhinelander, WI. Naturally senesced leaf litter was incubated in litter bags in the field for 735 days. Decomposing litter was sampled six times during incubation and was analyzed for carbon, and both macro (N, P, K, S, Ca, and Mg) and micro (Mn, B, Zn and Cu) nutrient concentrations. Elevated CO2 significantly decreased the initial litter concentrations of N (−10.7%) and B (−14.4%), and increased the concentrations of K (+23.7%) and P (+19.7%), with no change in the other elements. Elevated O3 significantly decreased the initial litter concentrations of P (−11.2%), S (−8.1%), Ca (−12.1%), and Zn (−19.5%), with no change in the other elements. Pairing concentration data with litterfall data, we estimated that elevated CO2 significantly increased the fluxes to soil of all nutrients: N (+12.5%), P (+61.0%), K (+67.1%), S (+28.0%), and Mg (+40.7%), Ca (+44.0%), Cu (+38.9%), Mn (+62.8%), and Zn (+33.1%). Elevated O3 had the opposite effect: N (−22.4%), P (−25.4%), K (−27.2%), S (−23.6%), Ca (−27.6%), Mg (−21.7%), B (−16.2%), Cu (−20.8%), and Zn (−31.6%). The relative release rates of the nine elements during the incubation was: K ≥ P ≥ mass ≥ Mg ≥ B ≥ Ca ≥ S ≥ N ≥ Mn ≥ Cu ≥ Zn. Atmospheric changes had little effect on nutrient release rates, except for decreasing Ca and B release under elevated CO2 and decreasing N and Ca release under elevated O3. We conclude that elevated CO2 and elevated O3 will alter nutrient cycling more through effects on litter production, rather than litter nutrient concentrations or release rates. [ABSTRACT FROM AUTHOR]

Published

2007

12. Effects of elevated concentrations of atmospheric CO2 and tropospheric O3 on leaf litter production and chemistry in trembling aspen and paper birch communities†.

Author

Liu, Lingli, King, John S., and Giardina, Christian P.

Subjects

ATMOSPHERIC carbon dioxide, TROPOSPHERE, ATMOSPHERIC ozone, FOREST litter, PLANT productivity, POPULUS tremuloides, PAPER birch, BIOTIC communities

Abstract

Human activities are increasing the concentrations of atmospheric carbon dioxide ([CO2]) and tropospheric ozone ([O3]), potentially leading to changes in the quantity and chemical quality of leaf litter inputs to forest soils. Because the quality and quantity of labile and recalcitrant carbon (C) compounds influence forest productivity through changes in soil organic matter content, characterizing changes in leaf litter in response to environmental change is critical to understanding the effects of global change on forests. We assessed the independent and combined effects of elevated [CO2] and elevated [O3] on foliar litter production and chemistry in aspen (Populus tremuloides Michx.) and birch–(Betula papyrifera Marsh.) aspen communities at the Aspen free-air CO2 enrichment (FACE) experiment in Rhinelander, WI. Litter was analyzed for concentrations of C, nitrogen (N), soluble sugars, lipids, lignin, cellulose, hemicellulose and C-based defensive compounds (soluble phenolics and condensed tannins). Concentrations of these chemical compounds in naturally senesced litter were similar in aspen and birch–aspen communities among treatments, except for N, the C:N ratio and lipids. Elevated [CO2] significantly increased C:N (+8.7%), lowered mean litter N concentration (–10.7%) but had no effect on the concentrations of soluble sugars, soluble phenolics and condensed tannins. Elevated [CO2] significantly increased litter biomass production (+33.3%), resulting in significant increases in fluxes of N, soluble sugars, soluble phenolics and condensed tannins to the soil. Elevated [O3] significantly increased litter concentrations of soluble sugars (+78.1%), soluble phenolics (+53.1%) and condensed tannins (+77.2%). There were no significant effects of elevated [CO2] or elevated [O3] on the concentrations of individual C structural carbohydrates (cellulose, hemicellulose and lignin). Elevated [CO2] significantly increased cellulose (+37.4%) input to soil, whereas elevated [O3] significantly reduced hemicellulose and lignin inputs to soil (–22.3 and –31.5%, respectively). The small changes in litter chemistry in response to elevated [CO2] and tropospheric [O3] that we observed, combined with changes in litter biomass production, could significantly alter the inputs of N, soluble sugars, condensed tannins, soluble phenolics, cellulose and lignin to forest soils in the future. [ABSTRACT FROM PUBLISHER]

Published

2005

13. PAPERS OF NOTE.

Subjects

*METEOROLOGICAL instruments, *BIOTIC communities, *WIND shear, *HURRICANES

Abstract

The article offers news briefs in the U.S. Australian radiosondes monitor a large area of the Southern Hemisphere have experienced so many changes that unadjusted temperature trends of the bulk atmosphere computed from their soundings are suspect. Quantification of carbon exchange in forest ecosystems needs a unique sampling strategy. Strong vertical wind shear usually will weaken even mature hurricanes.

Published

2009

14. Elevated CO2 and O3 Alter Soil Nitrogen Transformations beneath Trembling Aspen, Paper Birch, and Sugar Maple.

Author

Holmes, William, Zak, Donald, Pregitzer, Kurt, and King, John

Subjects

*NITROGEN cycle, *FORESTS & forestry, *BIOTIC communities, *PLANT litter, *ORGANIC wastes, *SUGAR maple, *WILDLIFE conservation, *BIOMASS, *AIR quality

Abstract

Nitrogen cycling in northern temperate forest ecosystems could change under increasing atmospheric CO2 and tropospheric O3 as a result of quantitative and qualitative changes in plant litter production. At the Aspen Free Air CO2–O3 Enrichment (FACE) experiment, we previously found that greater substrate inputs to soil under elevated CO2 did not alter gross N transformation rates in the first 3 years of the experiment. We hypothesized that greater litter production under elevated CO2 would eventually cause greater gross N transformation rates and that CO2 effects would be nullified by elevated O3. Following our original study, we continued measurement of gross N transformation rates for an additional four years. From 1999 to 2003, gross N mineralization doubled, N immobilization increased 4-fold, but changes in microbial biomass N and soil total N were not detected. We observed year-to-year variation in N transformation rates, which peaked during a period of foliar insect damage. Elevated CO2 caused equivalent increases in gross rates of N mineralization (+34%) and NH immobilization (+36%). These results indicate greater rates of N turnover under elevated CO2, but do not indicate a negative feedback between elevated CO2 and soil N availability. Elevated O3 decreased gross N mineralization (−16%) and had no effect on NH immobilization, indicating reduced N availability under elevated O3. The effects of CO2 and O3 on N mineralization rates were mainly related to changes in litter production, whereas effects on N immobilization were likely influenced by changes in litter chemistry and production. Our findings also indicate that concomitant increases in atmospheric CO2 and O3 could lead to a negative feedback on N availability. [ABSTRACT FROM AUTHOR]

Published

2006

15. Contributed Papers Defining Conservation Strategies with Historical Perspectives: a Case Study from a Degraded Oak Grassland Ecosystem.

Author

MacDOUGALL, ANDREW S., BECKWITH, BRENDA R., and MASLOVAT, CARRINA Y.

Subjects

*OAK, *GRASSLANDS, *ECOLOGY, *BIOTIC communities, *PLANT ecology, *PLANT conservation

Abstract

The restoration of degraded ecosystems can be constrained by uncertainty over former conditions and the relevance of the past given recent changes. It can be difficult to differentiate among contrasting hypotheses about past ecosystem function, and restoration efforts can emphasize species reestablishment without integrating the ecological and cultural processes that once determined their occurrence. As a case study, we analyzed historical descriptions of an endangered oak grassland ecosystem in southwestern British Columbia, Canada, to determine former conditions and assess their validity for defining restoration targets. Twenty-three documents described this ecosystem from 1790 to 1951. Comparison of early survey records with contemporary occurrences suggests habitat loss of >95%. The identity and former range of most native plant species were poorly described, but accounts of ecosystem structure revealed a diversity of floral communities that has been much simplified. Fire, most likely set by indigenous peoples, interacted with edaphic and topographic factors to create this structural diversity. European settlers intensively modified the ecosystem with grazing, cultivation, and introduced flora. These transformations partly explain the current high levels of plant invasion. Restoration must target the ecosystems' former structural diversity and the ecological and cultural processes that maintained it. Given the recent impacts of fire suppression, habitat loss, and plant invasion, however, land managers must balance the reestablishment of historical processes with their potential negative effects in sites with numerous at-risk species. This ecosystem was, and remains, part of a culturally modified landscape, where human activity has maintained unforested areas for millennia but now promotes mostly exotic flora. Although pre-European conditions cannot be fully restored, the historical data provided restoration insights unobtainable from current biological studies emphasizing the end point of long-term ecological change. [ABSTRACT FROM AUTHOR]

Published

2004

16. RESEARCH PAPER Measuring floristic homogenization by non-native plants in North America.

Author

McKinney, Michael L.

Subjects

*PLANT species, *PLANT communities, *BIOTIC communities, *PLANT ecology, *BOTANY

Abstract

To determine if non-native plant species are homogenizing species composition among widely dispersed plant communities. Twenty localities in North America. Species lists among localities were compared to measure the influence of non-native species richness at each locality on the Jaccard Index (JI) of similarity between localities. After removing the effects of distance, because shared native species decreased with distance, three (nonexclusive) lines of evidence indicate that non-native species promote homogenization. First, pairs of sites with a high combined total of non-native species tend to have higher similarity than those with a low total of non-natives. Second, for a given distance, more non-native than native species tended to be shared among localities. Third, whereas most of the site comparisons with high total non-native richness have a non-native/native JI ratio greater than 1 (often much greater), only half of the comparisons with low total non-native richness have a ratio greater than one. These findings provide quantitative support for the widely held, but rarely tested, notion that non-native species tend to homogenize biological communities because they are more commonly shared among communities. Such testing is important as non-native species could theoretically have no impact or even reduce homogenization among communities, if non-native colonizers consist of different species pools. [ABSTRACT FROM AUTHOR]

Published

2004

17. RESEARCH PAPER Acute salt marsh dieback in the Mississippi River deltaic plain: a drought-induced phenomenon?

Author

McKee, Karen L., Mendelssohn, Irving A., and Materne, Michael D.

Subjects

*DIEBACK, *DROUGHTS, *SALT marshes, *COASTAL ecology, *BIOTIC communities

Abstract

Extensive dieback of salt marsh dominated by the perennial grass Spartina alterniflora occurred throughout the Mississippi River deltaic plain during 2000. More than 100,000 ha were affected, with 43,000 ha severely damaged. The aim of this work was to determine if sudden dieback could have been caused by a coincident drought and to assess the significance of this event with respect to long-term changes in coastal vegetation. Multiple dieback sites and reference sites were established along 150 km of shoreline in coastal Louisiana, USA. Aerial and ground surveys were conducted from June 2000 to September 2001 to assess soil conditions and plant mortality and recovery. Dieback areas ranged in size from ∼300 m2−5 km2 in area with 50–100% mortality of plant shoots and rhizomes in affected zones. Co-occurring species such as Avicennia germinans (black mangrove) and Juncus roemerianus (needlegrass rush) were unaffected. Historical records indicate that precipitation, river discharge, and mean sea level were unusually low during the previous year. Although the cause of dieback is currently unknown, plant and soil characteristics were consistent with temporary soil desiccation that may have reduced water availability, increased soil salinity, and/or caused soil acidification (via pyrite oxidation) and increased uptake of toxic metals such as Fe or Al. Plant recovery 15 months after dieback was variable (0–58% live cover), but recovering plants were vigorous and indicated no long-lasting effects of the dieback agent. These findings have relevance for global change models of coastal ecosystems that predict vegetation responses based primarily on long-term increases in sea level and submergence of marshes. Our results suggest that large-scale changes in coastal vegetation may occur over a relatively short time span through climatic extremes acting in concert with sea-level fluctuations and pre-existing soil conditions. [ABSTRACT FROM AUTHOR]

Published

2004

18. Canadian Environmental Effects Monitoring: Experiences with Pulp and Paper and Metal Mining Regulatory Programs.

Author

Walker, S.L., Ribey, S.C., Trudel, L., and Porter, E.

Subjects

ENVIRONMENTAL engineering, NATURAL resources, AQUATIC resources, EFFLUENT quality, BIOTIC communities

Abstract

In Canada, Environmental Effects Monitoring (EEM) programs exist within two regulations: the Pulp and Paper Effluent Regulations and the new Metal Mining Effluent Regulations under the Canadian Fisheries Act. EEM provides a biological, effects-based feedback loop to assess the effectiveness of technology-based regulations in protecting receiving environments. The promulgation of the Pulp and Paper Effluent Regulations, in 1992, represented a significant step forward in the Canadian regulatory approach by incorporating directly into a regulation a requirement to assess the effects of effluent discharges on receiving environments using proven scientific monitoring methodologies. Similarly, an assessment of the aquatic impacts of mines resulted in recommendations to amend the Metal Mining Effluent Regulations, recently promulgated in 2002, and includes an EEM program as a science-based feedback loop. As such, these regulations recognize the possibility that national, technology-based standards may not necessarily protect all receiving environments because of the diversity and variability of both discharges and receiving sites across the country. Since that time, EEM has improved its flexibility by considering both advances in science and the uniqueness of monitoring sites across Canada to allow the most appropriate and cost-effective monitoring approaches at each site while maintaining national consistency. This paper discusses the use of monitoring under two Canadian regulations to assess effects on aquatic ecosystems. As well, the National EEM approach to maintaining up-to-date scientific practices in a national regulatory program is discussed using examples. [ABSTRACT FROM AUTHOR]

Published

2003

19. CUSTOMARY LAND GOVERNANCE AND CONFLICT RESOLUTION AMONG THE DEBNE AND WEIMA AFAR CLANS, NORTHEAST ETHIOPIA.

Author

Debsu, Dejene

Subjects

LEGITIMACY of governments, CONFLICT management, BIOTIC communities, NATION-state, NATURAL resources

Abstract

This study is based on three months of fieldwork among the Debne and Weima Afar clans in Amibara woreda (district), Afar National Regional State (ANRS), Ethiopia, which was conducted in three rounds in 2016, 2018 and 2022. The purpose of the study is to explore the customary organisational structure and the rules and regulations employed by the local communities in managing natural resources on their rangelands as well as in resolving conflicts. While the clan system provides the basis for the Afar social and political organisation, claims to land are made at subclan and lineage levels. The formal administration largely functions using the clan structure, as it has more legitimacy than the state itself. Given the infrastructural limitations and legitimacy deficits of the government in the region, this paper argues that the clan system continues to play a dominating role when it comes to social organisation, resource management and conflict resolution. [ABSTRACT FROM AUTHOR]

Published

2024

20. Reducing the model-data misfit in a marine ecosystem model using periodic parameters and Linear Quadratic Optimal Control.

Author

Jarbi, M. El, Rückelt, J., Slawig, T., and Oschlies, A.

Subjects

MARINE ecology, BIOTIC communities, MATHEMATICAL models, PARAMETER estimation, H2 control, ZOOPLANKTON, PHYTOPLANKTON, OCEAN circulation

Abstract

This paper presents the application of the Linear Quadratic Optimal Control (LQOC) method for a parameter optimization problem in a marine ecosystem model. The ecosystem model simulates the distribution of nitrogen, phytoplankton, zooplankton and detritus in a water column with temperature and turbulent diffusivity profiles taken from a three-dimensional ocean circulation model.We present the linearization method which is based on the available observations. The linearization is necessary to apply the LQOC method on the nonlinear system of state equations. We show the form of the linearized time-variant problems and the resulting two algebraic Riccati Equations. By using the LQOC method, we are able to introduce temporally varying periodic model parameters and to significantly improve -- compared to the use of constant parameters -- the fit of the model output to given observational data. [ABSTRACT FROM AUTHOR]

Published

2012

21. Climate and land use change impacts on global terrestrial ecosystems, fire, and river flows in the HadGEM2-ES Earth System Model using the Representative Concentration Pathways.

Author

Betts, R. A., Golding, N., Gonzalez, P., Gornall, J., Kahana, R., Kay, G., Mitchell, L., and Wiltshire, A.

Subjects

CLIMATE change, LAND use, BIOTIC communities, SIMULATION methods & models, GLOBAL warming, TAIGAS

Abstract

A new generation of an Earth System Model now includes a number of land surface processes directly relevant to analyzing potential impacts of climate change. This model, HadGEM2-ES, allows us to assess the impacts of climate change, multiple interactions, and feedbacks as the model is run. This paper discusses the results of century-scale HadGEM2-ES simulations from an impacts perspective--specifically, terrestrial ecosystems and water resources--for four different scenarios following the Representative Concentration Pathways (RCPs), being used for next assessment report of the Intergovernmental Panel on Climate Change (IPCC). Over the 21st Century, simulated changes in global and continential-scale terrestrial ecosystems due to climate change appear to be very similar in all 4 RCPs, even though the level of global warming by the end of the 21st Century ranges from 2°C in the lowest scenario to 5.5°in the highest. A warming climate generally favours broadleaf trees over needleleaf, needleleaf trees over shrubs, and shrubs over herbaceous vegetation, resulting in a poleward shift of temperate and boreal forests and woody tundra in all scenarios. Although climate related changes are slightly larger in scenarios of greater warming, the largest differences between scenarios arise at regional scales as a consequence of different patterns of anthropogenic land cover change. In the model, the scenario with the lowest global warming results in the most extensive decline in tropical forest cover due to a large expansion of agriculture. Under all four RCPs, fire potential could increase across extensive land areas, particularly tropical and sub-tropical latitudes. River outflows are simulated to increase with higher levels of CO2 and global warming in all projections, with outflow increasing with mean temperature at the end of the 21st Century at the global scale and in North America, Asia, and Africa. In South America, Europe, and Australia, the relationship with climate warming and CO2 rise is less clear, probably as a result of land cover change exerting a dominant effect in those regions. [ABSTRACT FROM AUTHOR]

Published

2013

22. Línea de base para evaluar el impacto de una planta de celulosa en el Río Uruguay.

Author

Boccardi, L., Clemente, J., Dabezies, M., Ferrari, G., Saizar, C., Míguez, D., Mello, F. Teixeira-de, and Tana, J.

Subjects

PAPER mills, WATER quality, BIOTIC communities, COASTS, POLLUTANTS, SPECIES

Abstract

Copyright of Innotec is the property of Laboratorio Tecnologico del Uruguay 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

2010

23. Línea de base para evaluar el impacto de una planta de celulosa en el Río Uruguay.

Author

Saizar, C., Míguez, D., Dabezies, M., Mello, F. Teixeira-de, Clemente, J., Ferrari, G., Boccardi, L., and Tana, J.

Subjects

ENVIRONMENTAL impact analysis, PAPER mills, WATER quality, BIOTIC communities, ORGANIC compounds, DIOXINS, FISHES

Abstract

Copyright of Innotec is the property of Laboratorio Tecnologico del Uruguay 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

2010

24. Disproportional Representation of Primates in the Ecological Literature.

Author

Heymann, Eckhard W., Zinner, Dietmar, and Ganzhorn, Jörg U.

Subjects

PRIMATE ecology, PRIMATE behavior, PRIMATE evolution, PRIMATE populations, POPULATION ecology, BIOTIC communities, SAMPLE size (Statistics)

Abstract

We address the question why papers dealing with the ecology of primates are so sparsely represented in the general ecological literature. A literature analyses based on entries in Web of Science and PrimateLit reveals that despite a large number of papers published on primates in general and on the ecology of primates, only a very small fraction of these papers is published in high-ranking international ecological journals. We discuss a number of potential reasons for the disproportion and highlight the problems associated with experimental research on wild primates and constraints on sample size as major issues. [ABSTRACT FROM AUTHOR]

Published

2013

25. Soil–Plant–Water Systems and Interactions.

Author

Horel, Ágota

Subjects

COVER crops, CUCUMBERS, SUSTAINABLE agriculture, SOIL management, IRRIGATION water quality, BIOTIC communities, CLIMATE change mitigation

Abstract

This document is a special issue of the journal "Plants" that focuses on the soil-plant-water system and its interactions. The articles in this issue cover a wide range of topics, including climate change and soil water deficits, forest and woody plant ecosystems, and alternative crop production methods. The studies explore the effects of drought on plant growth and development, the impact of different inter-row soil management techniques on soil water content, and the response of plants to phosphorus addition. The issue also includes research on zero discharge cultivation of cucumbers and indoor vegetable production methods. The authors highlight the importance of studying the soil-plant-water system as an interconnected system and identify areas for further research. [Extracted from the article]

Published

2024

26. Effect of hypoxia and anoxia on invertebrate behaviour: ecological perspectives from species to community level.

Author

Riedel, B., Pados, T., Pretterebner, K., Schiemer, L., Steckbauer, A., Haselmair, A., Zuschin, M., and Stachowitsch, M.

Subjects

ANOXIC waters, INVERTEBRATE behavior, BIOTIC communities, MARINE ecology, MARINE biodiversity, DISSOLVED oxygen in water, BENTHIC ecology

Abstract

Coastal hypoxia and anoxia have become a global key stressor to marine ecosystems, with almost 500 dead zones recorded wordwide. By triggering cascading effects from the individual organism to the community and ecosystem-level, oxygen depletions threat marine biodiversity and can alter ecosystem structure and function. By integrating both physiological function and ecological processes, animal behaviour is ideal for assessing the stress state of benthic macrofauna to low dissolved oxygen. The initial response of organisms can serve as an early-warning signal, while the successive behavioural reactions of key species indicate hypoxia levels and help assess community degradation. Here we document the behavioural responses of a representative spectrum of benthic macrofauna in the natural setting in the Northern Adriatic Sea, Mediterranean. We experimentally induced small-scale anoxia with a benthic chamber in 24 m depth to overcome the difficulties in predicting the onset of hypoxia, which often hinders full documentation in the field. The behavioural reactions were documented with a time-lapse camera. Oxygen depletion elicited significant and re-peatable changes in general (visibility, locomotion, body movement and posture, location) and species-specific reactions in virtually all organisms (302 individuals from 32 species and 2 species groups). Most atypical (stress) behaviours were associated with specific oxygen thresholds: arm-tipping in the ophiuroid Ophiothrix quinquemac-ulata, for example, with the onset of mild hypoxia (<2mLO2L-1), the emergence of polychates on the sediment surface with moderate hypoxia (< 1 mLO2 L-1), the emergence of the infaunal sea urchin Schizaster canaliferus on the sediment with severe hypoxia (< 0.5mLO2L-1) and heavy body rotations in sea anemones with anoxia. Other species changed their activity patterns, i.e. circadian rhythm in the hermit crab Paguristes eremita or the bioherm-associated crab Pisidia longimana. Intra- and interspecific reactions were weakened or changed: decapods ceased defensive and territorial behaviour, and predator-prey interactions and relationships shifted. This nuanced scale of resolution is a useful tool to interpret present benthic community status (behaviour) and past mortalities (community composition, e.g. survival of tolerant species). This information on the sensitivity (onset of stress response), tolerance (mortality, survival), and characteristics (i.e. life habit, functional role) of key species also helps predict potential future changes in benthic structure and ecosystem functioning. This integrated approach can transport complex ecological processes to the public and decision-makers and help de?ne speci?c monitoring, assessment and conservation plans. [ABSTRACT FROM AUTHOR]

Published

2013

27. The effect of vertically-resolved soil biogeochemistry and alternate soil C and N models on C dynamics of CLM4.

Author

Koven, C. D., Riley, W. J., Subin, Z. M., Tang, J. Y., Torn, M. S., Collins, W. D., Bonan, G. B., Lawrence, D. M., and Swenson, S. C.

Subjects

BIOGEOCHEMISTRY, SOIL chemistry, CARBON isotopes, RADIOACTIVE tracers, BIOTIC communities, SOIL depth, ENVIRONMENTAL soil science

Abstract

Soils are a crucial component of the Earth System; they comprise a large portion of terrestrial carbon stocks, mediate the supply and demand of nutrients, and influence the overall response of terrestrial ecosystems to perturbations. In this paper, we develop a new soil biogeochemistry model for the Community Land Model, version 4 (CLM4). The new model includes a vertical dimension to carbon (C) and nitrogen (N) pools and transformations, a more realistic treatment of mineral N pools, flexible treatment of the dynamics of decomposing carbon, and a radiocarbon (14C) tracer. We describe the model structure, comparison against site-level and global observations, and overall effect of the revised soil model on CLM carbon dynamics. Site-level comparisons to radiocarbon and bulk soil C observations support the idea that soil C turnover is reduced at depth beyond what is expected from environmental controls by temperature, moisture, and oxygen that are considered in the model. The revised soil model predicts substantially more and older soil C, particularly at high latitudes, where it resolves a permafrost soil C pool, in better agreement with observations. In addition the 20th century C dynamics of the model are more realistic than the baseline model, with more terrestrial C uptake over the 20th century due to reduced N downregulation and longer turnover times of decomposing C. [ABSTRACT FROM AUTHOR]

Published

2013

28. Relationships between substrate, surface characteristics, and vegetation in an initial ecosystem.

Author

Biber, P., Seifert, S., Zaplata, M. K., Schaaf, W., Pretzsch, H., and Fischer, A.

Subjects

BIOTIC communities, GEOMORPHOLOGY, FOREST density, QUANTITATIVE research, VEGETATION monitoring, WATER table

Abstract

Based on a wide range of empirical data we investigated surface and vegetation dynamics in the artificial initial ecosystem "Chicken Creek" (Lusatia, Germany) in the years 2008-2011. We scrutinized three different hypotheses concerning (1) the relations between initial geomorphological and substrate characteristics with surface structure and terrain properties, (2) the effects of the latter on the occurrence of grouped plant species, and (3) vegetation density effects on terrain surface change. Our data comprise annual vegetation monitoring results, terrestrial laser scans twice a year, annual groundwater levels, and initially measured soil characteristics. Using Generalized Linear Models (GLMM) and Generalized Additive Mixed Models (GAMM) we can mostly confirm our hypotheses, revealing statistically significant relations that partly reflect object or period specific effects but also more general processes which mark the transition from a geo-hydro towards a bio-geo-hydro system, where pure geomorphology or substrate feedbacks are changing into vegetation-substrate feedback processes. [ABSTRACT FROM AUTHOR]

Published

2013

29. Effects of soil temperature and moisture on methane uptakes and nitrous oxide emissions across three different ecosystem types.

Author

Luo, G. J., Kiese, R., Wolf, B., and Butterbach-Bahl, K.

Subjects

SOIL temperature, MOISTURE, METHANE content of soils, NITRATES, SOIL composition, EMISSIONS (Air pollution), BIOTIC communities, ENVIRONMENTAL soil science, RAIN forests

Abstract

In this paper, we investigate similarities of effects of soil environmental drivers on year-round daily soil fluxes of nitrous oxide and methane for three distinct semi-natural or natural ecosystems: temperate spruce forest, Germany; tropical rain forest, Queensland, Australia; and ungrazed semi-arid steppe, Inner Mongolia, China. Annual cumulative fluxes of nitrous oxide and methane varied markedly among ecosystems, with nitrous oxide fluxes being highest for the tropical forest site (tropical forest: 0.96 kg N ha-1 yr-1; temperate forest: 0.67 kg N ha-1 yr-1; steppe: 0.22 kg N ha-1 yr-1), while rates of soil methane uptake were approximately equal for the temperate forest (3.45 kg C ha-1 yr-1) and the steppe (3.39 kg C ha-1 yr-1), but lower for the tropical forest site (2.38 kg C ha-1 yr-1). In order to allow for cross-site comparison of effects of changes in soil moisture and soil temperature on fluxes of methane and nitrous oxide, we used a normalization approach. Data analysis with normalized data revealed that across sites, optimum rates of methane uptake are found at environmental conditions representing approximately average site environmental conditions. This might have rather important implications for understanding effects of climate change on soil methane uptake potential, since any shift in environmental conditions is likely to result in a reduction of soil methane uptake ability. For nitrous oxide, our analysis revealed expected patterns: highest nitrous oxide emissions under moist and warm conditions and large nitrous oxide fluxes if soils are exposed to freeze-thawing effects at sufficient high soil moisture contents. However, the explanatory power of relationships of soil moisture or soil temperature to nitrous oxide fluxes remained rather poor (≤ 0.36). When combined effects of changes in soil moisture and soil temperature were considered, the explanatory power of our empirical relationships with regard to temporal variations in nitrous oxide fluxes were at maximum about 50%. This indicates that other controlling factors such as N and C availability or microbial community dynamics might exert a significant control on the temporal dynamic of nitrous oxide fluxes. Though underlying microbial processes such as nitrification and denitrification are sensitive to changes in the environmental regulating factors, important regulating factors like moisture and temperature seem to have both synergistic and antagonistic effects on the status of other regulating factors. Thus we cannot expect a simple relationship between them and the pattern in the rate of emissions, associated with denitrification or nitrification in the soils. In conclusion, we hypothesize that our approach of data generalization may prove beneficial for the development of environmental response models which can be used across sites, and which are needed to help better understanding climate change feed-backs on biospheric sinks or sources of nitrous oxide and methane. [ABSTRACT FROM AUTHOR]

Published

2013

30. Assessing the role of dust deposition on phytoplankton ecophysiology and succession in a low-nutrient low-chlorophyll ecosystem: a mesocosm experiment in the Mediterranean Sea.

Author

Giovagnetti, V., Brunet, C., Conversano, F., Tramontano, F., Obernosterer, I., Ridame, C., and Guieu, C.

Subjects

ATMOSPHERIC deposition, DUST, PHYTOPLANKTON, ECOPHYSIOLOGY, ECOLOGICAL succession, CHLOROPHYLL, BIOTIC communities

Abstract

In this study, we investigate the phytoplankton community response, with emphasis on ecophysiology and succession, after two experimental additions of Saharan dust in the surface layer of a low-nutrient low-chlorophyll ecosystem in the Mediterranean Sea. Three mesocosms were amended with evapocondensed dust to simulate realistic Saharan dust events while three additional mesocosms were kept unamended and served as controls. Experiments consisted in two consecutive dust additions and samples were daily collected at different depths (-0.1, -5 and -10m) during one week, starting before each addition occurred. Data concerning HPLC pigment analysis on two size classes (<3 and >3 µm), electron transport rate (ETR) versus irradiance curves, non-photochemical fluorescence quenching (NPQ) and phytoplankton cell abundance (measured by flow cytometry), are presented and discussed in this paper. Results show that picophytoplankton mainly respond to the first dust addition, while the second addition leads to an increase of both pico- and nano-/microphytoplankton. Ecophysiological changes in the phytoplankton community are revealed, and an increase in NPQ development, as well as in pigment concentration per cell, follows the dust additions. ETR does not show large variations between dust-amended and control conditions, while biomass increases in response to the dust additions. Furthermore, the biomass increase observed during this mesocosm experiment allows us to attempt a quantitative assessment and parameterization of the onset of a phytoplankton bloom in a nutrient-limited ecosystem. These results are discussed focusing on the adaptation of picophytoplankton to such a nutrient-limited mixed layer system, as well as on size-dependent competition ability in phytoplankton. [ABSTRACT FROM AUTHOR]

Published

2012

31. Uncertainties in model predictions of nitrogen fluxes from agro-ecosystems in Europe.

Author

Kros, J., Heuvelink, G. B. M., Reinds, G. J., Lesschen, J. P., Ioannidi, V., and de Vries, W.

Subjects

PREDICTION theory, BIOTIC communities, GREENHOUSE gases, LAND management, DYNAMIC models, EMISSIONS (Air pollution)

Abstract

To assess the responses of nitrogen and greenhouse gas emissions to pan-European changes in land cover, land management and climate, an integrated dynamic model, INTEGRATOR, has been developed. This model includes both simple process-based descriptions and empirical relationships, and uses detailed GIS-based environmental and farming data in combination with various downscaling methods. This paper analyses the propagation of uncertainties in model inputs and model parameters to outputs of INTEGRATOR, using a Monte Carlo analysis. Uncertain model inputs and parameters were represented by probability distributions, while spatial correlation in these uncertainties was taken into account by assigning correlation coefficients at various spatial scales. The uncertainty propagation was analysed for the emissions of NH3, N2O and NOx and N leaching to groundwater and N surface runoff to surface water for the entire EU27 and for individual countries. Results show large uncertainties for N leaching and N runoff (relative errors of ~19% for Europe as a whole), and smaller uncertainties for emission of N2O, NH3 and NOx (relative errors of ~12%). Uncertainties for Europe as a whole were much smaller compared to uncertainties at Country level, because errors partly cancelled out due to spatial aggregation. [ABSTRACT FROM AUTHOR]

Published

2012

32. A framework of benchmarking land models.

Author

Luo, Y. Q., Randerson, J., Abramowitz, G., Bacour, C., Blyth, E., Carvalhais, N., Ciais, P., Dalmonech, D., Fisher, J., Fisher, R., Friedlingstein, P., Hibbard, K., Hoffman, F., Huntzinger, D., Jones, C. D., Koven, C., Lawrence, D., Li, D. J., Mahecha, M., and Niu, S. L.

Subjects

MATHEMATICAL models, LAND use, CLIMATE change, BIOTIC communities, PERFORMANCE evaluation, COMPUTER simulation, PREDICTION models, BIOGEOCHEMICAL cycles

Abstract

Land models, which have been developed by the modeling community in the past two decades to predict future states of ecosystems and climate, have to be critically evaluated for their performance skills of simulating ecosystem responses and feedback to climate change. Benchmarking is an emerging procedure to measure and evaluate performance of models against a set of defined standards. This paper proposes a benchmarking framework for evaluation of land models. The framework includes (1) targeted aspects of model performance to be evaluated; (2) a set of benchmarks as defined references to test model performance; (3) metrics to measure and compare performance skills among models so as to identify model strengths and deficiencies; and (4) model improvement. Component 4 may or may not be involved in a benchmark analysis but is an ultimate goal of general modeling research. Land models are required to simulate exchange of water, energy, carbon and sometimes other trace gases between the atmosphere and the land-surface, and should be evaluated for their simulations of biophysical processes, biogeochemical cycles, and vegetation dynamics across timescales in response to both weather and climate change. Benchmarks that are used to evaluate models generally consist of direct observations, data-model products, and data-derived patterns and relationships. Metrics of measuring mismatches between models and benchmarks may include (1) a priori thresholds of acceptable model performance and (2) a scoring system to combine data-model mismatches for various processes at different temporal and spatial scales. The benchmark analyses should identify clues of weak model performance for future improvement. Iterations between model evaluation and improvement via benchmarking shall demonstrate progress of land modeling and help establish confidence in land models for their predictions of future states of ecosystems and climate. [ABSTRACT FROM AUTHOR]

Published

2012

33. Deepdive: Leveraging Pre-trained Deep Learning for Deep-Sea ROV Biota Identification in the Great Barrier Reef.

Author

Deo, Ratneel, John, Cédric M., Zhang, Chen, Whitton, Kate, Salles, Tristan, Webster, Jody M., and Chandra, Rohitash

Subjects

BIOTIC communities, IMAGE recognition (Computer vision), DEEP learning, ECOSYSTEM health, MARINE resources conservation, IMAGING systems, CORAL bleaching

Abstract

Understanding and preserving the deep sea ecosystems is paramount for marine conservation efforts. Automated object (deep-sea biota) classification can enable the creation of detailed habitat maps that not only aid in biodiversity assessments but also provide essential data to evaluate ecosystem health and resilience. Having a significant source of labelled data helps prevent overfitting and enables training deep learning models with numerous parameters. In this paper, we contribute to the establishment of a significant deep-sea remotely operated vehicle (ROV) image classification dataset with 3994 images featuring deep-sea biota belonging to 33 classes. We manually label the images through rigorous quality control with human-in-the-loop image labelling. Leveraging data from ROV equipped with advanced imaging systems, our study provides results using novel deep-learning models for image classification. We use deep learning models including ResNet, DenseNet, Inception, and Inception-ResNet to benchmark the dataset that features class imbalance with many classes. Our results show that the Inception-ResNet model provides a mean classification accuracy of 65%, with AUC scores exceeding 0.8 for each class. [ABSTRACT FROM AUTHOR]

Published

2024

34. Successions of Bacterial and Fungal Communities in Biological Soil Crust under Sand-Fixation Plantation in Horqin Sandy Land, Northeast China.

Author

Cao, Chengyou, Zhang, Ying, and Cui, Zhenbo

Subjects

BIOTIC communities, RESTORATION ecology, CRUST vegetation, BACTERIAL communities, NITRATE reductase, FUNGAL communities, DESERTIFICATION

Abstract

Biological soil crusts (BSCs) serve important functions in conserving biodiversity and ecological service in arid and semi-arid regions. Afforestation on shifting sand dunes can induce the formation of BSC on topsoil, which can accelerate the restoration of a degraded ecosystem. However, the studies on microbial community succession along BSC development under sand-fixation plantations in desertification areas are limited. This paper investigated the soil properties, enzymatic activities, and bacterial and fungal community structures across an age sequence (0-, 10-, 22-, and 37-year-old) of BSCs under Caragana microphylla sand-fixation plantations in Horqin Sandy Land, Northeast China. The dynamics in the diversities and structures of soil bacterial and fungal communities were detected via the high-throughput sequencing of the 16S and ITS rRNA genes, respectively. The soil nutrients and enzymatic activities all linearly increased with the development of BSC; furthermore, soil enzymatic activity was more sensitive to BSC development than soil nutrients. The diversities of the bacterial and fungal communities gradually increased along BSC development. There was a significant difference in the structure of the bacterial/fungal communities of the moving sand dune and BSC sites, and similar microbial compositions among different BSC sites were found. The successions of microbial communities in the BSC were characterized as a sequential process consisting of an initial phase of the faster recoveries of dominant taxa, a subsequent slower development phase, and a final stable phase. The quantitative response to BSC development varied with the dominant taxa. The secondary successions of the microbial communities of the BSC were affected by soil factors, and soil moisture, available nutrients, nitrate reductase, and polyphenol oxidase were the main influencing factors. [ABSTRACT FROM AUTHOR]

Published

2024

35. Managing forward while looking back: reopening closed forests to open woodlands and savannas.

Author

Pile Knapp, Lauren S., Dey, Daniel C., Stambaugh, Michael C., Thompson III, Frank R., and Varner, J. Morgan

Subjects

ECOSYSTEM management, BIOTIC communities, FIRE ecology, BIRD conservation, FOREST regeneration

Abstract

Copyright of Fire Ecology is the property of Springer Nature 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

36. Spatial and temporal trends in summertime climate and water quality indicators in the coastal embayments of Buzzards Bay, Massachusetts.

Author

Rheuban, J. E., Williamson, S. C., Costa, J. E., Glover, D. M., Jakuba, R. W., McCorkle, D. C., Neill, C., Williams, T., and Doney, S. C.

Subjects

CLIMATOLOGY, ECOSYSTEMS, BIOTIC communities, EUTROPHICATION

Abstract

Degradation of coastal ecosystems by eutrophication is largely defined by nitrogen loading from land via surface and groundwater flows. However, indicators of water quality are highly variable due to a myriad of other drivers, including temperature and precipitation. To evaluate these drivers, we examined spatial and temporal trends in a 22 year record of summer water quality data from 122 stations in 17 embayments within Buzzards Bay, MA (USA), collected through a citizen science monitoring program managed by Buzzards Bay Coalition. To identify spatial patterns across Buzzards Bay's embayments, we used a principle component and factor analysis and found that rotated factor loadings indicated little correlation between inorganic nutrients and organic matter and chlorophyll a (Chl a) concentration. Factor scores showed that embayment geomorphology in addition to nutrient loading was a strong driver of water quality, where embayments with surface water inputs showed larger biological impacts than embayments dominated by groundwater influx. A linear regression analysis of annual summertime water quality indicators over time revealed that from 1992 to 2013, most embayments (15 of 17) exhibited an increase in temperature (mean rate of 0.082 ± 0.025 (SD) °C yr-1) and Chl a (mean rate of 0.0171 ± 0.0088 log10 (Chl a; mgm-3)yr-1, equivalent to a 4.0% increase per year). However, only 7 embayments exhibited an increase in total nitrogen (TN) concentration (mean rate 0.32 ± 0.47 (SD)μM yr-1). Average summertime log10 (TN) and log10 (Chl a) were correlated with an indication that yield of Chl a per unit total nitrogen increased with time suggesting the estuarine response to TN may have changed because of other stressors such as warming, altered precipitation patterns, or changing light levels. These findings affirm that nitrogen loading and physical aspects of embayments are essential in explaining observed ecosystem response. However, climate-related stressors may also need to be considered by managers because increased temperature and precipitation may worsen water quality and partially offset benefits achieved by reducing nitrogen loading. [ABSTRACT FROM AUTHOR]

Published

2015

37. Coastal upwelling off Peru and Mauritania inferred from helium isotope disequilibrium.

Author

Steinfeldt, R., Sültenfuß, J., Dengler, M., Fischer, T., and Rhein, M.

Subjects

UPWELLING (Oceanography), COASTS, HELIUM isotopes, BIOTIC communities

Abstract

Oceanic upwelling velocities are too small to be measured directly. The surface disequilibrium of the ³He/4He ratio provides an indirect method to infer vertical velocities at the base of the mixed layer. Samples of helium isotopes were taken from two coastal upwelling regions, off Peru on cruise M91, and off Mauritania on 3 cruises. The helium- 3 flux into the mixed layer also depends on the diapycnal mixing. Direct observations of the vertical diffusivity have been performed on all 4 cruises and are also used in this study. The resulting upwelling velocities in the coastal regions vary between 1.1x10-5 and 2.8x10-5ms-1 for all cruises. Vertical velocities off the equator can also be inferred from the divergence of the wind driven Ekman transport. In the coastal regimes, the agreement between wind and helium derived upwelling is fairly good at least for the mean values. Further offshore, the helium derived upwelling still reaches 1x10-5ms-1, whereas the wind driven upwelling from Ekman suction is smaller by at least one order of magnitude. One reason for this difference might be eddy induced upwelling. Both advective and diffusive nutrient fluxes into the mixed layer are calculated based on the helium derived vertical velocities and the measured vertical diffusivities. The advective part of these fluxes makes up at least 50% of the total. The nutrient flux into the mixed layer in the coastal upwelling regimes is equivalent to a net community production (NCP) of 1.3gCm² d-1 off Peru and 1.6-1.9 gCm² d-1 off Mauritania. [ABSTRACT FROM AUTHOR]

Published

2015

38. Ecological connectivity research in urban areas.

Author

LaPoint, Scott, Balkenhol, Niko, Hale, James, Sadler, Jonathan, Ree, Rodney, and Evans, Karl

Subjects

CITIES & towns, ECOLOGY, ECOSYSTEM dynamics, ECOSYSTEM management, BIOTIC communities

Abstract

The successful movement of individuals is fundamental to life. Facilitating these movements by promoting ecological connectivity has become a central theme in ecology and conservation. Urban areas contain more than half of the world's human population, and their potential to support biodiversity and to connect their citizens to nature is increasingly recognized. Promoting ecological connectivity within these areas is essential to reaching this potential. However, our current understanding of ecological connectivity within urban areas appears limited., We reviewed the published scientific literature to assess the state-of-the-art of ecological connectivity research in urban areas, summarized trends in study attributes and highlighted knowledge gaps., We found 174 papers that investigated ecological connectivity within urban areas. These papers addressed either structural (48) or functional connectivity (111), and some addressed both (15), but contained substantial geographic and taxonomic biases. These papers rarely defined the aspect of connectivity they were investigating and objective descriptions of the local urban context were uncommon. Formulated hypotheses or a priori predictions were typically unstated and many papers used suboptimal study designs and methods., We suggest future studies explicitly consider and quantify the landscape within their analyses and make greater use of available and rapidly developing tools and methods for measuring functional connectivity (e.g. biotelemetry or landscape genetics). We also highlight the need for studies to clearly define how the terms ' urban' and ' connectivity' have been applied., Knowledge gaps in ecological connectivity in urban areas remain, partly because the field is still in its infancy and partly because we must better capitalize on the state-of-the-art technological and analytical techniques that are increasingly available. Well-designed studies that employed high-resolution data and powerful analytical techniques highlight our abilities to quantify ecological connectivity in urban areas. These studies are exemplary, setting the standards for future research to facilitate data-driven and evidence-based biodiversity-friendly infrastructure planning in urban areas. [ABSTRACT FROM AUTHOR]

Published

2015

39. Coupling of the spatial dynamic of picoplankton and nanoflagellate grazing pressure and carbon flow of the microbial food web in the subtropical pelagic continental shelf ecosystem.

Author

Chiang, K.-P., Tsai, A.-Y., Tsai, P.-J., Gong, G.-C., and Tsai, S.-F.

Subjects

CARBON cycle, FOOD chains, BIOTIC communities, SPATIO-temporal variation, OCEAN currents

Abstract

In order to investigate the mechanism of spatial dynamics of picoplankton community (bacteria and Synechococcus spp.) and estimate the carbon flux of the microbial food web in the oligotrophic Taiwan Warm Current Water of subtropical marine pelagic ecosystem, we conducted size-fractionation experiments in five cruises by the R/V Ocean Research II during the summers of 2010 and 2011 in the southern East China Sea. We carried out culture experiments using surface water which, according to a temperature-salinity (T-S) diagram, is characterized as oligotrophic Taiwan Current Warm Water. We found a negative correlation between bacteria growth rate and temperature, indicating that the active growth of heterotrophic bacteria might be induced by nutrients lifted from deep layer by cold upwelling water. This finding suggests that the area we studied was a bottom-up control pelagic ecosystem. We suggest that the microbial food web of an oligotrophic ecosystem may be changed from top-down control to resource supply (bottom-up control) when a physical force brings nutrient into the oligotrophic ecosystem. Upwelling brings nutrient-rich water to euphotic zone and promotes bacteria growth, increasing the picoplankton biomass which increased the consumption rate of nanoflagellate. The net growth rate (growth rate--grazing rate) becomes negative when the densities of bacteria and Synechococcus spp. are lower than the threshold values. The interaction between growth and grazing will limit the abundances of bacteria (105 -106 cells mL -1) and Synechococcus spp. (104 -105 cells mL-1) within a narrow range, forming a predator-prey eddy. Meanwhile, 62% of bacteria production and 55% of Synechococcus spp. production are transported to higher trophic level (nanoflagellate), though the cascade effect might cause an underestimation of both percentages of transported carbon. Based on the increasing number of sizes we found in the size-fractionation experiments, we estimated that the predation values were underestimated by 28.3% for bacteria and 34.6% for Synechococcus spp. Taking these corrections into consideration, we conclude that picoplankton production is balanced by nonoflagellate grazing and the diet of nanoflagellate is composed of 64% bacteria and 36% Synechococcus spp. [ABSTRACT FROM AUTHOR]

Published

2013

40. Multiyear precipitation reduction strongly decrease carbon uptake over North China.

Author

Yuan, W. P., Liu, D., Dong, W. J., Liu, S. G., Zhou, G. S., Yu, G. R., Zhao, T. B., Feng, J. M., Ma, Z. G., Chen, J. Q., Chen, Y., Chen, S. P., Han, S. J., Huang, J. P., Li, L. H., Liu, H. Z., Liu, S. M., Ma, M. G., Wang, Y. F., and Xia, J. Z.

Subjects

CARBON cycle, SOIL moisture, VEGETATION & climate, CROP yields, BIOTIC communities

Abstract

Drought has been a concern of global and regional water, carbon and energy cycles. From 1999 to 2011, North China experienced a multiyear precipitation reduction, which decreased significantly water availability as indicated by decreased soil moisture and Palmer Drought Severity Index. In this study, three light use efficiency models (CASA, MODIS-GPP and EC-LUE) and one dynamic vegetation model (IBIS) were used to characterize the impacts of long-term drought on terrestrial carbon fluxes over the North China. All of four models showed the reduction in averaged GPP of 0.026-0.047 Pg C yr-1 from 1999 to 2011 compared to 1982-2011. Based on IBIS model, simulated ecosystem respiration fell from 1999 to 2011 by 0.016 Pg C yr-1. Multiple precipitation reduction changed the regional carbon uptake of 0.0014 Pg C yr-1 from 1982 to 1998 to a net source of 0.018 Pg C yr-1. Moreover, a pronounced decrease of maize yield was found ranging from 1999 to 2011 versus the average of 1978-2011 at almost all provinces over the study region. The largest reduction of maize yield occurred in the Beijing (2499 kg ha-1 yr-1), Jilin (2180 kg ha-1 yr-1), Tianjing (1923 kg ha-1 yr-1) and Heilongjiang (1791 kg ha-1 yr-1), and maize yield anomaly was significantly correlated with the precipitation through May and September over the entire study area. Our results revealed that recent climate change, and especially drought-induced water stress, is the dominant cause of the reduction in the terrestrial carbon sink. [ABSTRACT FROM AUTHOR]

Published

2013

41. Photosynthetic parameters in the Beaufort Sea in relation to the phytoplankton community structure.

Author

Huot, Y., Babin, M., and Bruyant, F.

Subjects

PHYTOPLANKTON, BIOTIC communities, DATA analysis, PHOTOSYNTHESIS, MARINE ecology

Abstract

To model phytoplankton primary production from remotely sensed data a method to estimate photosynthetic parameters describing the photosynthetic rates per unit biomass is required. Variability in these parameters must be related to environmental variables that are measurable remotely. In the Arctic, a limited number of measurements of photosynthetic parameter have been carried out with the concurrent environmental variables needed. Therefore, to improve the accuracy of remote estimates of phytoplankton primary production as well as our ability to predict changes in the future such measurements and relationship to environmental variables are required. During the MALINA cruise, a large dataset of these parameters were obtained. Together with previously published datasets, we use environmental and trophic variables to provide functional relationships for these parameters. In particular, we describe several specific aspects: the maximum rate of photosynthesis (Pmaxchl) normalized to chlorophyll decreases with depth and is higher for communities composed of large cells; the saturation parameter (Ek) decreases with depth but is independent of the community structure; and the initial slope of the photosynthesis versus irradiance curve (αchl) normalized to chlorophyll is independent of depth but is higher for communities composed of larger cells. The photosynthetic parameters were not influenced by temperature over the range encountered during the cruise (-2 to 8 °C). [ABSTRACT FROM AUTHOR]

Published

2013

42. Hydrologic control of the oxygen isotope ratio of ecosystem respiration in a semi-arid woodland.

Author

Shim, J. H., Powers, H. H., Meyer, C. W., Knohl, A., Dawson, T. E., Riley, W. J., Pockman, W. T., and McDowell, N.

Subjects

OXYGEN isotopes, BIOTIC communities, ARID regions, FORESTS & forestry, HYDROLOGIC cycle, ATMOSPHERIC carbon dioxide

Abstract

We conducted high frequency measurements of the δ18 O value of atmospheric CO2 from a juniper (Juniperus monosperma) woodland in New Mexico, USA, over a four- year period to investigate climatic and physiological regulation of the δ18O value of ecosystem respiration (δR). Rain pulses reset δR with the dominant water source isotope composition, followed by progressive enrichment of δR. Transpiration (ET) was significantly related to post-pulse δR enrichment because leaf water δ18O value showed strong enrichment with increasing vapor pressure deficit that occurs following rain. Post-pulse δR enrichment was correlated with both ET and the ratio of ET to soil evaporation (ET/ES). In contrast, soil water δ18O value was relatively stable and δR enrichment was not correlated with ES. Model simulations captured the large post-pulse δR enrichments only when the offset between xylem and leaf water δ18O value was modeled explicitly and when a gross flux model for CO2 retro-diffusion was included. Drought impacts δR through the balance between evaporative demand, which enriches δR, and low soil moisture availability, which attenuates δR enrichment through reduced ET. The net result, observed throughout all four years of our study, was a negative correlation of post-precipitation δR enrichment with increasing drought. [ABSTRACT FROM AUTHOR]

Published

2013

43. Satellite views of global phytoplankton community distributions using an empirical algorithm and a numerical model.

Author

Rousseaux, C. S., Hirata, T., and Gregg, W. W.

Subjects

REMOTE-sensing images, PHYTOPLANKTON, BIOTIC communities, EMPIRICAL research, NUMERICAL analysis, BIOGEOCHEMICAL cycles

Abstract

We compared the functional response of a biogeochemical data assimilation model versus an empirical satellite-derived algorithm in describing the variation of four phytoplankton (diatoms, cyanobacteria, coccolithophores and chlorophytes) groups globally and in 12 major oceanographic basins. Global mean differences of all groups were within ~15% of an independent observation data base for both approaches except for satellite-derived chlorophytes. Diatoms and cyanobacteria concentrations were significantly (p < 0.05) correlated with the independent observation data base for both methods. Coccolithophore concentrations were only correlated with the in situ data for the model approach and the chlorophyte concentration was only significantly correlated to the in situ data for the satellite-derived approach. Using monthly means from 1998–2007, the seasonal variation from the satellite-derived approach and model were significantly correlated in 11 regions for diatoms and in 9 for coccolithophores but only in 3 and 2 regions for cyanobacteria and chlorophytes. Most disagreement on the seasonal variation of phytoplankton composition occurred in the North Pacific and Antarctic where, except for diatoms, no significant correlation could be found between the monthly mean concentrations derived from both approaches. In these two regions there was also an overestimate of diatom concentration by the model of ~60% whereas the satellite-derived approach was closer to in situ data (8-26% underestimate). Chlorophytes were the group for which both approaches differed most and that was furthest from the in situ data. These results highlight the strengths and weaknesses of both approaches and allow us to make some suggestions to improve our approaches to understanding phytoplankton dynamics and distribution. [ABSTRACT FROM AUTHOR]

Published

2013

44. Abiotic ammonification and gross ammonium photoproduction in the upwelling system off central Chile (36° S).

Author

Rain-Franco, A., Muñoz, C., and Fernandez, C.

Subjects

UPWELLING (Oceanography), AMMONIUM, BIOTIC communities, ULTRAVIOLET radiation, DISSOLVED organic matter, PHOTODEGRADATION, SPECIES diversity, PHYTOPLANKTON

Abstract

We investigated the production of ammonium via photodegradation of dissolved organic matter (DOM) in the coastal upwelling system off central Chile (36° S). Photoam-monification experiments were carried out using exudates obtained from representative diatom species (Chaetoceros muelleri and Thalassiosira minuscule) and natural marine DOM under simulated solar radiation conditions. Additionally, we evaluated the use of photoproduced ammonium by natural microbial communities and separated ammonium oxidizing archaea and bacteria by using GC-7 as an inhibitor of the archaeal community. We found photoammonification operating at two levels: via the transformation of DOM by UV radiation (abiotic ammonification) and via the simultaneous occurrence of abiotic phototransformation and biological remineralization of DOM into NH4+ (referred as gross photoproduction of NH4+). The maximum rates of abiotic ammonification reached 0.057 µmol L-1 h-1, whereas maximum rates of gross photopro- duction reached 0.746 µmol L-1 h-1. Our results also suggest that ammonium oxidizing archaea could dominate the biotic remineralization induced by photodegradation of organic matter and consequently play an important role in the local N cycle. Abiotic ammonium photoproduction in coastal upwelling systems could support between 7 and 50%of the spring-summer phytoplankton NH4+ demand. Surprisingly, gross ammonium photoproduction (remineralization induced by abiotic ammonification) might support 50 to 180% of spring-summer phytoplankton NH4+ assimilation. [ABSTRACT FROM AUTHOR]

Published

2012

45. Technical Note: The Simple Diagnostic Photosynthesis and Respiration Model (SDPRM).

Author

Badawy, B., Rödenbeck, C., Reichstein, M., Carvalhais, N., and Heimann, M.

Subjects

PHOTOSYNTHESIS, BIOTIC communities, CLIMATE change, ATMOSPHERIC carbon dioxide, PARAMETER estimation, WATER temperature, PRECIPITATION (Chemistry)

Abstract

We present a Simple Diagnostic Photosynthesis and Respiration Model (SDPRM) that has been developed based on pre-existing formulations. The photosynthesis model is based on the light use efficiency logic, suggested by Monteith (1977), for calculating the Gross Primary Production (GPP) while the ecosystem respiration (Reco) model is based on the formulations introduced by Lloyd and Taylor (1994) and modified by Reichstein et al. (2003). SDPRM is driven by satellite-derived fAPAR (fraction of Absorbed Photosynthetically Active Radiation) and climate data from NCEP/NCAR. The model estimates 3-hourly values of GPP for seven major biomes and daily Reco. The motivation is to provide a-priori fields of surface CO2 fluxes with fine temporal and spatial scales, and their derivatives with respect to adjustable model parameters, for atmospheric CO2 inversions. The estimated fluxes from SDPRM showed that the model is capable of producing flux estimates consistent with the ones inferred from atmospheric CO2 inversion or simulated from process-based models. In this Technical Note, different analyses were carried out to test the sensitivity of the estimated fluxes of GPP and Reco to their driving forces. The spatial patterns of the climatic controls (temperature, precipitation, water) on the interannual variability of GPP are consistent with previous studies even though SDPRM has a very simple structure and few adjustable parameters, and hence it is much easier to modify than more sophisticated process-based models used in these previous studies. According to SDPRM, the results show that temperature is a limiting factor for the interannual variability of Reco over the cold boreal forest, while precipitation is the main limiting factor of Reco over the tropics and the southern hemisphere, consistent with previous regional studies. [ABSTRACT FROM AUTHOR]

Published

2012

46. Plankton ecosystem functioning and nitrogen fluxes in the most oligotrophic waters of the Beaufort Sea, Arctic Ocean: a modeling study.

Author

Le Fouest, V., Zakardjian, B., H. Xie, Raimbault, P., Joux, F., and Babin, M.

Subjects

PLANKTON, BIOTIC communities, NITROGEN, CLIMATE change, MATHEMATICAL models

Abstract

The Arctic Ocean (AO) undergoes profound changes of its physical and biotic environments due to climate change. The greater light exposure and stratification alter its plankton ecosystem structure, functioning and productivity promoting oligotrophy in some areas as the Beaufort Sea. A one-dimension (1-D) physical-biological coupled model based on the large multiparametric database of the Malina project in the Beaufort Sea was used (i) to infer the functioning and nitrogen fluxes within the summer plankton ecosystem and (ii) to assess the model sensitivity to key light-associated processes involved in nutrient recycling and phytoplankton growth. The coupled model suggested that ammonium photochemically produced from photosensitive dissolved organic nitrogen (i.e. photoammonification process) was a necessary nitrogen source to achieve the observed levels of microbial biomass and production. It contributed to ca. two-thirds and one-third of the simulated surface (0-10 m) and depth-integrated primary and bacterial production, respectively. The model also suggested that carbon to chlorophyll ratios for small (<5 µm) phytoplankton (ca. 15-45 gg-1) lower than those commonly used in biogeochemical models applied to the AO were required to simulate the observed herbivorous versus microbial food web competition and realistic nitrogen fluxes in the Beaufort Sea oligotrophic waters. In face of accelerating Arctic warming, more attention should be paid in the future to the mechanistic processes involved in food webs and functional groups competition, nutrient recycling and primary production in poorly productive waters of the AO as they are expected to expand rapidly. [ABSTRACT FROM AUTHOR]

Published

2012

47. Decreased carbon limitation of litter respiration in a mortality-affected piñon-juniper woodland.

Author

Berryman, E., Marshall, J. D., Rahn, T., Litvak, M., and Butnor, J.

Subjects

MICROBIAL respiration, FORESTS & forestry, CLIMATE change, CARBON cycle, BIOTIC communities, MORTALITY, SOIL amendments

Abstract

Microbial respiration depends on microclimatic variables and carbon (C) substrate availability, all of which are altered when ecosystems experience major disturbance. Widespread tree mortality, currently affecting piñon-juniper ecosystems in Southwestern North America, may affect C substrate availability in several ways; for example, via litterfall pulses and loss of root exudation. To determine piñnon mortality effects on C and water limitation of microbial respiration, we applied field amendments (sucrose and water) to two piñnon-juniper sites in central New Mexico, USA: one with a recent (<1 yr), experimentally-induced mortality event and a nearby site with live canopy. We monitored the respiration response to water and sucrose applications to the litter surface and to the underlying mineral soil surface, testing the following hypotheses: (1) soil respiration in a piñnon-juniper woodland is water- and labile C-limited in both the litter layer and mineral soil; (2) water and sucrose applications increase temperature sensitivity of respiration; (3) the mortality-affected site will show a reduction in C limitation in the litter; (4) the mortality-affected site will show an enhancement of C limitation in the mineral soil. Litter respiration at both sites responded to increased water availability, yet surprisingly, mineral soil respiration was not limited by water. Temperature sensitivity was enhanced by some of the sucrose and water treatments. Consistent with hypothesis 3, C limitation of litter respiration was lower at the recent mortality site compared to the intact canopy site. Results following applications to the mineral soil 20 suggest the presence of abiotic effects of increasing water availability, precluding our ability to measure labile C limitation in soil. Widespread piñon mortality may decrease labile C limitation of litter respiration, at least during the first growing season following mortality. [ABSTRACT FROM AUTHOR]

Published

2012

48. The fate of riverine nutrients on Arctic shelves.

Author

Le Fouest, V., Babin, M., and Tremblay, J.-É

Subjects

PHOSPHATES, BIOGEOCHEMISTRY, PHYTOPLANKTON, BIOTIC communities, PLANT nutrients

Abstract

Present and future levels of primary production (PP) in the Arctic Ocean (AO) depend on nutrient inputs to the photic zone via vertical mixing, upwelling and external sources. In this regard, the importance of horizontal river supply relative to oceanic processes is poorly constrained at the panarctic scale. We compiled extensive historical (1954-2012) data on discharge and nutrient concentrations to estimate fluxes of nitrate, soluble reactive phosphate (SRP), silicate, DOC, DON, PON and POC from 9 large Arctic rivers and assess their potential impact on the biogeochemistry of shelf waters. Several key points can be emphasized from this analysis. The contribution of riverine nitrate to new PP (PPnew) is very small at the regional scale (<1% to ca. 6.2 %) and negligible at the panarctic scale (ca. 0.73%), in agreement with recent studies. By consuming all this nitrate, oceanic phytoplankton would be able to use only ca. 13.5%and 6.6-17.5% of the river supply of silicate at the panarctic and regional scales, respectively. Corresponding figures for SRP are ca. 27.8% and 18.4-44.4 %. On the Beaufort and Bering shelves, riverine SRP cannot fulfil phytoplankton requirements. On a seasonal basis, the removal of riverine nitrate, silicate and SRP would be the highest in spring and not in summer when AO shelf waters are nitrogen-limited. Riverine DON is potentially an important nitrogen source for the planktonic ecosystem in summer, when ammonium supplied through the photoammonification of refractory DON (ca. 3.9x109 mol N) may exceed the combined riverine supply of nitrate and ammonium (ca. 2.9x109 mol N). Nevertheless, overall nitrogen limitation of AO phytoplankton is expected to persist even when projected increases of riverine DON and nitrate supply are taken into account. This analysis underscores the need to better contrast oceanic nutrient supply processes with the composition and fate of changing riverine nutrient deliveries in future scenarios of plankton community structure, function and production in the coastal AO. [ABSTRACT FROM AUTHOR]

Published

2012

49. Primary production and respiration of hypersaline microbial mats as a response for high and low CO2 availability.

Author

Bento, L., Enrich-Prast, A., and Nielsen, L. P.

Subjects

PRIMARY productivity (Biology), MICROBIAL mats, MICROBIAL respiration, MICROCOSM & macrocosm, ATMOSPHERIC carbon dioxide, BENTHOS, BIOTIC communities

Abstract

Here we report a time series of experiments performed in a microcosm to test the response of hypersaline microbial mats to diverse atmospheric CO2 conditions. Different from most part of the literature, our study used a sample chamber were carbon dioxide concentration was controlled. Our aim was to test the effect of different atmospheric CO2 conditions in benthic gross and net primary production, and respiration. This study showed for the first time to our knowledge absolute carbon limitation in a microbial mat. Oxygen concentration profile varied from a flattened shape to almost linear when atmospheric CO2 at the chamber reached 0 ppm, with NPP reaching 0 nmol cm-3 s-1 throughout most part of the profile. In this conditions sediment community respiration represented 100% of GPP. Extreme close coupling between primary production and respiration in microbial mats can be even self-sustainable in environments with temporally no atmospheric CO2 available. When submitted to even high CO2 concentrations (550 ppm), our sample showed a characteristic shape that indicate limitation composed by a more rectilinear oxygen profile, and NPP peaks mainly restricted to deeper layers. Therefore, we suggest that phototrophic communities in aquatic shallow ecosystems can be carbon limited. This limitation could be common especially in ecosystems submitted to variable water depth conditions, like coastal lagoons and intertidal sediments. [ABSTRACT FROM AUTHOR]

Published

2012

50. Net community production and stoichiometry of nutrient consumption in a pelagic ecosystem of a northern high latitude fjord: mesocosm CO2 perturbation study.

Author

Silyakova, A., Bellerby, R. G. J., Czerny, J., Schulz, K. G., Nondal, G., Tanaka, T., Engel, A., De Lange, T., and Riebesell, U.

Subjects

STOICHIOMETRY, PLANT nutrients, BIOTIC communities, FJORD ecology, PERTURBATION theory, CHLOROPHYLL, BIOLOGY experiments

Abstract

Net community production (NCP) and ratios of carbon to nutrient consumption were studied during a large-scale mesocosm experiment on ocean acidification in Kongsfjorden, West Spitsbergen, during June-July 2010. Nutrient-deplete fjord water with natural phyto- and bacteriaplankton assemblages, enclosed in nine mesocosms of ∼50m³ volume, was exposed to pCO2 levels ranging from 185 to 1420 µatm on initial state. Mean values of pCO2 levels during experiment ranged from 175 to 1085 µatm in different mesocosms. Phytoplankton growth was stimulated by nutrient addition. In this study NCP is estimated as a cumulative change in dissolved inorganic carbon concentrations. Stoichiometric couping between inorganic carbon and nutrient is shown as a ratio of a cumulative NCP to a cumulative change in inorganic nutrients. Three peaks of chlorophyll a concentration occurred during the experiment. Accordingly the experiment was divided in three phases. Overall cumulative NCP was similar in all mesocosms by the final day of experiment. However, NCP varied among phases, showing variable response to CO2 perturbation. Carbon to nitrogen (C:N) and carbon to phosphorus (C: P) uptake ratios were estimated only for the period after nutrient addition (post-nutrient period). For the total post-nutrient period ratios were close to Redfield proportions, however varied from it in different phases. The response of C:N and C: P uptake ratios to CO2 perturbation was different for three phases of the experiment, reflecting variable NCP and dependence on changing microbial community. Through the variable NCP, C:N and C: P uptake ratios for 31 days of the experiment we show a flexibility of biogeochemical response establishing a strong microbial loop in Kongsfjorden under different CO2 scenarios. [ABSTRACT FROM AUTHOR]

Published

2012