Your search keyword '"ECOSYSTEM management"' showing total 4,323 results

1. Assessment of ecosystem health and driving forces in response to landscape pattern dynamics: the Shibing Karst world natural heritage site case study.

Author

He, Lixiang, Zhang, Juan, Yu, Bin, Hu, Mengshan, and Zhang, Zihao

Subjects

*ECOSYSTEM health, *WORLD Heritage Sites, *KARST, *ECOLOGICAL integrity, *ECOSYSTEM management, *INTEGRITY, *COINCIDENCE

Abstract

The Shibing Karst constitutes a pivotal component of the "South China Karst," and its ecosystem health integrity crucially influences the Outstanding Universal Value (OUV) of the corresponding Natural World Heritage (NWH). Consequently, robust ecosystem health assessment (EHA) is imperative for the judicious conservation and management of this heritage, as well as for the sustainable progression of the region. This research assessed the health of the Shibing Karst ecosystem from 2004 to 2020 by employing changes in landscape patterns through the Vigor-Organization-Resilience-Ecosystem Services (VORS) model. Spatial autocorrelation was employed to discern the spatial coherence and evolutionary patterns of ecosystem health, whereas a geo-detector ascertained the pivotal determinants impacting regional ecosystem vitality. The findings revealed that: (1) The landscape patterns distribution in the study area exhibited considerable constancy, primarily comprising forest land, with a rising trajectory in construction land and water, juxtaposed with a recession in shrubland, grassland, paddy land, and dryland expanses. (2) From 2004 to 2020, the ecosystem of the study area maintained its health and remained stable, with mean values of 0.8303, 0.7689, 0.6976, and 0.7824, respectively, showing an evolutionary trend of an initial downtrend trend followed by an upswing, with 2016 marking a pivotal juncture. (3) Spatial clustering analysis highlighted significant clustering characteristics of ecosystem health, with a nominal decrease in the Global Moran's I index from 0.666 to 0.665, which is indicative of a subtle decrease in clustering over time. High-high clustering areas were predominantly located within the World Heritage Site (WHS), while low-low clustering areas were mainly distributed in the southeastern part of buffer zone. (4) Land use and cover change (LUCC) and Ecosystem Services (ESs) were identified as the primary indexes of EHA, with Ecosystem Resilience (ER), Ecosystem Vigor (EV), and Ecosystem Organization (EO) exerting relatively mild influences. This study provides a scientific framework for policymakers in local governance to devise strategies for ecosystem conservation and management, enhances the analytical perspective on the integrity and conservation of Karst Natural World Heritage (KNWH). [ABSTRACT FROM AUTHOR]

Published

2024

2. Invasion risk of the currently cultivated alien flora in southern Africa is predicted to decline under climate change.

Author

Omer, Ali, Essl, Franz, Dullinger, Stefan, Lenzner, Bernd, García‐Rodríguez, Adrián, Moser, Dietmar, Fristoe, Trevor, Dawson, Wayne, Weigelt, Patrick, Kreft, Holger, Pergl, Jan, Pyšek, Petr, van Kleunen, Mark, and Wessely, Johannes

Subjects

*CLIMATE change, *ECOSYSTEM management, *BOTANY, *SWAMPS, *BIOMES, *BROADLEAF forests, *PLANT invasions

Abstract

Alien species can have massive impacts on native biodiversity, ecosystem functioning, and human livelihoods. Assessing which species from currently cultivated alien floras may escape into the wild and naturalize is essential for efficient and proactive ecosystem management and biodiversity conservation. Climate change has already promoted the naturalization of many alien plants in temperate regions, but whether it is similar in (sub)tropical areas is insufficiently known. In this study, we used species distribution models for 1527 cultivated alien plants to evaluate current and future invasion risks across different biomes and 10 countries in southern Africa. Our results confirm that the area of suitable climate is a strong predictor of naturalization success among the cultivated alien flora. In contrast to previous findings from temperate regions, however, climatic suitability is generally predicted to decrease for potential aliens across our (sub)tropical study region. While increasingly hotter and drier conditions are likely to drive declines in suitability for potential aliens across most biomes of southern Africa, in some the number of potential invaders is predicted to increase under moderate climate change scenarios (e.g. in dry broadleaf forests and flooded grasslands). We found that climatic suitability is expected to decline less for aliens originating from continents with the tropical biome or from the Southern Hemisphere. In addition, we found that the climatically suitable area will decline less for aliens that have already naturalized in the region. While the number of potential invaders may decrease across southern Africa under future climate change, our results suggest that already naturalized aliens will continue to threaten native species and ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

3. Ecosystem Services Provided by Urban Soils and Their Assessment: A Review.

Author

Orlova, K. S. and Savin, I. Yu.

Abstract

The history of the development of the concept of urban soil services, their current list, anthropocentric and pedocentric approaches to their assessment, and experience of application in various cities are considered. At present, the concept of ecosystem services is a comprehensive tool that allows, by analogy, to translate soil information into the sphere of management decision-making, as well as to maintain the sustainability of urban ecosystems by introducing measures to preserve urban soil services. Despite the accumulated experience in methods for assessing ecosystem services and examples of their application in urban planning in individual cities, there is no unified approach to assessing the services of urban soils. The widespread application of this concept is often hampered by insufficient knowledge of the properties of urban soils with their high spatiotemporal variability, as well as by the insufficient development of the approach itself for assessing soil services. However, the active development of theoretical and practical approaches to integrating information about soil characteristics into management is a prerequisite for optimizing the system of soil resource management in cities and towns. [ABSTRACT FROM AUTHOR]

Published

2024

4. Toward the development of an ecosystem model ensemble to support adaptive management in Lake Ontario.

Author

Neumann, Alex, Fernando, Yasasi, Saber, Ali, and Arhonditsis, George B.

Subjects

*LAKE management, *ECOSYSTEM management, *CYANOBACTERIAL blooms, *WATER quality, *ECOSYSTEMS, *LITTORAL zone, *ECOSYSTEM services

Abstract

Notwithstanding the continuing advancement of our understanding of the broader ecosystem functioning in Lake Ontario, emerging evidence suggests that there are fundamental knowledge gaps to accurately describe the relationship between exogenous phosphorus (P) loading and in-lake total phosphorus (TP) concentrations. The whole-lake load appears to frequently exceed the Great Lakes Water Quality Agreement (GLWQA) interim target of 7000 metric tonnes·year−1, although the offshore-water P concentrations are consistently below the GLWQA interim substance concentration objective of 10 µg TP·L–1. Contrasting ecological conditions prevail in different locations of Lake Ontario, owing to the significant urban footprint along the shoreline but also the capacity of dreissenid mussels to sequester P in the littoral zone. Specifically, low ambient P levels threaten fisheries productivity in offshore waters, while nuisance benthic algae (predominantly Cladophora) and toxin-producing cyanobacteria blooms affect the water quality in the nearshore zone. The present study offers a technical analysis of the recent and ongoing modelling work that has been conducted in Lake Ontario and can be potentially used to address the multitude of ecosystem management challenges. Our aim is to provide an overview of all the major models developed by identifying their fundamental assumptions, structural attributes, and general consistency against empirical knowledge derived from the system. The existing modelling work has opted for parsimonious representations of the lower food web coupled with granular grid configurations to effectively link hydrodynamic processes and mass transport between nearshore and offshore waters. The establishment of comprehensive ecophysiological modules that will recreate the mechanisms underlying the interplay among bioavailable phosphorus, planktonic dynamics, dreissenid mussels, and Cladophora is a critical undertaking to reproduce the water quality conditions in the nearshore zone of Lake Ontario. Striving to integrate the lower food web with fisheries and ecosystem-service modelling, we also offer a technical analysis of knowledge gaps and monitoring-assessment objectives that should be addressed to ensure that ecosystem processes of management interest are adequately measured and the local modelling enterprise is focused on suitable performance indicators. [ABSTRACT FROM AUTHOR]

Published

2024

5. Effects of protection and temperature variation on temporal stability in a marine reserve network.

Author

Srednick, Griffin and Swearer, Stephen E.

Subjects

*MARINE parks & reserves, *ECOSYSTEM management, *OCEAN temperature, *TEMPERATURE effect, *NUMBERS of species, *ECOSYSTEMS, *PREDATION

Abstract

Understanding the drivers of ecosystem stability has been a key focus of modern ecology as the impacts of the Anthropocene become more prevalent and extreme. Marine protected areas (MPAs) are tools used globally to promote biodiversity and mediate anthropogenic impacts. However, assessing the stability of natural ecosystems and responses to management actions is inherently challenging due to the complex dynamics of communities with many interdependent taxa. Using a 12‐year time series of subtidal community structure in an MPA network in the Channel Islands (United States), we estimated species interaction strength (competition and predation), prey species synchrony, and temporal stability in trophic networks, as well as temporal variation in sea surface temperature to explore the causal drivers of temporal stability at community and metacommunity scales. At the community scale, only trophic networks in MPAs at Santa Rosa Island showed greater temporal stability than reference sites, likely driven by reduced prey synchrony. Across islands, competition was sometimes greater and predation always greater in MPAs compared with reference sites. Increases in interaction strength resulted in lower temporal stability of trophic networks. Although MPAs reduced prey synchrony at the metacommunity scale, reductions were insufficient to stabilize trophic networks. In contrast, temporal variation in sea surface temperature had strong positive direct effects on stability at the regional scale and indirect effects at the local scale through reductions in species interaction strength. Although MPAs can be effective management strategies for protecting certain species or locations, our findings for this MPA network suggest that temperature variation has a stronger influence on metacommunity temporal stability by mediating species interactions and promoting a mosaic of spatiotemporal variation in community structure of trophic networks. By capturing the full spectrum of environmental variation in network planning, MPAs will have the greatest capacity to promote ecosystem stability in response to climate change. [ABSTRACT FROM AUTHOR]

Published

2024

6. Contributions of the IUCN Red List of Ecosystems to risk‐based design and management of protected and conserved areas in Africa.

Author

Keith, David A., Ghoraba, Somaya Magdy M., Kaly, Eric, Jones, Kendall R., Oosthuizen, Ané, Obura, David, Costa, Hugo M., Daniels, Fahiema, Duarte, Eleutério, Grantham, Hedley, Gudka, Mishal, Norman, Juliet, Shannon, Lynne J., Skowno, Andrew, and Ferrer‐Paris, José R.

Subjects

*ECOSYSTEMS, *ECOSYSTEM management, *PROTECTED areas, *ECOLOGICAL integrity, *BIOLOGICAL extinction, CONVENTION on Biological Diversity (1992)

Abstract

Protected and conserved areas (PCAs) are key ecosystem management tools for conserving biodiversity and sustaining ecosystem services and social cobenefits. As countries adopt a 30% target for protection of land and sea under the Global Biodiversity Framework of the United Nations Convention on Biological Diversity, a critical question emerging is, which 30%? A risk‐based answer to this question is that the 30% that returns the greatest reductions in risks of species extinction and ecosystem collapse should be protected. The International Union for Conservation of Nature (IUCN) Red List protocols provide practical methods for assessing these risks. All species, including humans, depend on the integrity of ecosystems for their well‐being and survival. Africa is strategically important for ecosystem management due to convergence of high ecosystem diversity, intense pressures, and high levels of human dependency on nature. We reviewed the outcomes (e.g., applications of ecosystem red‐list assessments to protected‐area design, conservation planning, and management) of a symposium at the inaugural African Protected Areas Congress convened to discuss roles of the IUCN Red List of Ecosystems in the design and management of PCAs. Recent progress was made in ecosystem assessment, with 920 ecosystem types assessed against the IUCN Red List criteria across 21 countries. Although these ecosystems spanned a diversity of environments across the continent, the greatest thematic gaps were for freshwater, marine, and subterranean realms, and large geographic gaps existed in North Africa and parts of West and East Africa. Assessment projects were implemented by a diverse community of government agencies, nongovernmental organizations, and researchers. The assessments have influenced policy and management by informing extensions to and management of formal protected area networks supporting decision‐making for sustainable development, and informing ecosystem conservation and threat abatement within boundaries of PCAs and in surrounding landscapes and seascapes. We recommend further integration of risk assessments in environmental policy and enhanced investment in ecosystem red‐list assessment to fill current gaps. [ABSTRACT FROM AUTHOR]

Published

2024

7. Microclimate, an important part of ecology and biogeography.

Author

Kemppinen, Julia, Lembrechts, Jonas J., Van Meerbeek, Koenraad, Carnicer, Jofre, Chardon, Nathalie Isabelle, Kardol, Paul, Lenoir, Jonathan, Liu, Daijun, Maclean, Ilya, Pergl, Jan, Saccone, Patrick, Senior, Rebecca A., Shen, Ting, Słowińska, Sandra, Vandvik, Vigdis, von Oppen, Jonathan, Aalto, Juha, Ayalew, Biruk, Bates, Olivia, and Bertelsmeier, Cleo

Subjects

*BIOGEOGRAPHY, *ECOSYSTEM management, *URBAN ecology, *BIODIVERSITY conservation, *REMOTE sensing, *CLIMATE change, *ECOSYSTEMS, *URBAN forestry

Abstract

Brief introduction: What are microclimates and why are they important? Microclimate science has developed into a global discipline. Microclimate science is increasingly used to understand and mitigate climate and biodiversity shifts. Here, we provide an overview of the current status of microclimate ecology and biogeography in terrestrial ecosystems, and where this field is heading next. Microclimate investigations in ecology and biogeography: We highlight the latest research on interactions between microclimates and organisms, including how microclimates influence individuals, and through them populations, communities and entire ecosystems and their processes. We also briefly discuss recent research on how organisms shape microclimates from the tropics to the poles. Microclimate applications in ecosystem management: Microclimates are also important in ecosystem management under climate change. We showcase new research in microclimate management with examples from biodiversity conservation, forestry and urban ecology. We discuss the importance of microrefugia in conservation and how to promote microclimate heterogeneity. Methods for microclimate science: We showcase the recent advances in data acquisition, such as novel field sensors and remote sensing methods. We discuss microclimate modelling, mapping and data processing, including accessibility of modelling tools, advantages of mechanistic and statistical modelling and solutions for computational challenges that have pushed the state‐of‐the‐art of the field. What's next?: We identify major knowledge gaps that need to be filled for further advancing microclimate investigations, applications and methods. These gaps include spatiotemporal scaling of microclimate data, mismatches between macroclimate and microclimate in predicting responses of organisms to climate change, and the need for more evidence on the outcomes of microclimate management. [ABSTRACT FROM AUTHOR]

Published

2024

8. Spatiotemporal metacommunity structures and beta diversity of macroinvertebrates in stream and lake systems.

Author

He, Siwen, Wang, Beixin, Gao, Jin, Chen, Kai, and Soininen, Janne

Subjects

*INSECT diversity, *ECOSYSTEM management, *AQUATIC insects, *INVERTEBRATES, *LAKES, *AQUATIC biodiversity

Abstract

Understanding how metacommunity organization is structured in space and time is a long-standing challenge in community ecology. We aimed to explore the spatiotemporal beta diversity of macroinvertebrate metacommunities and their underlying drivers in two contrasting freshwater systems: streams and a lake. We observed that spatial beta diversity was higher than temporal beta diversity in both systems. Generalized dissimilarity modeling and dispersal-niche continuum index analyses suggested that this is probably because (i) environmental filtering was stronger in space than in time at least in streams, and (ii) dispersal was stronger in time than in space. The relative importance of spatial and seasonal drivers on metacommunity structures was notably different between stream and lake systems, as they have fundamentally different spatiotemporal structure of abiotic (i.e. environmental and hydrological) and biotic (i.e. aquatic insect diversities and life strategies) conditions. Our results shed light on spatiotemporal patterns in lake and stream metacommunities and may be useful for the management of freshwater ecosystems undergoing environmental changes. [ABSTRACT FROM AUTHOR]

Published

2024

9. Seagrass Community Structure and Ecosystem Carbon Stocks Along the Shoreline of Semujur Island, Bangka Belitung Province, Indonesia.

Author

Muliawati, Aldina Himmarila and Choesin, Devi N.

Subjects

*CLIMATE change mitigation, *SEAGRASSES, *ECOSYSTEM management, *ECOSYSTEM dynamics, *SEAGRASS restoration

Abstract

Seagrass meadows serve as vital blue carbon ecosystems, sequestering significant amounts of CO2 and playing a crucial role in climate change mitigation. Semujur Island, located in the Bangka Belitung Province, exemplifies numerous small Indonesian islands boasting extensive seagrass meadows lining their shores. This research seeks to (1) describe the community structure of seagrass on Semujur Island, (2) assess the carbon storage within the seagrass ecosystem, and (3) analyze the relationship between seagrass community structure and carbon reserves across three distinct sites. According to the results of this study, there are eight species of seagrass on Semujur Island, i.e., Cymodocea rotundata, Enhalus acoroides, Halodule uninervis, Halophila ovalis, Oceana serrulata, Syringodium isoetifolium, Thalassia hemprichii, and Thalassodendron ciliatum. Diversity indices varied among sites, ranging from 1.48 to 1.72. Species evenness indices varied between 0.83 and 0.92, while dominance indices varied between 0.20 and 0.28. The highest estimated carbon stock was obtained at the site dominated by the species H. uninervis (75.11 MgC/ha); followed by the site dominated by T. hemprichii (50.55 MgC/ha). The correlation between seagrass community structure, including density and coverage, and carbon stocks demonstrated a moderate positive correlation, with coefficients of 0.430 and 0.528, respectively (p<0.05). This research highlights the significance of integrating ecological dynamics into the management of seagrass ecosystems to enhance climate change mitigation efforts. Additionally, it offers valuable data as a reference for the restoration and conservation of seagrass ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

10. Integrating Real-Time Meteorological Conditions into a Novel Fire Spread Model for Grasslands.

Author

Zhang, Yakun, Yu, Huimin, Huang, Wenjiang, Huang, Tiecheng, Fan, Meng, and Wang, Kun

Subjects

*GRASSLAND fires, *FIRE management, *WIND speed, *FLAME spread, *ECOSYSTEM management, *FIRE ecology, *FLAMMABLE materials, *GRASSLANDS, *HUMIDITY

Abstract

Accurate comprehension of grassland fires is imperative for maintaining ecological stability. In this study, we propose a novel fire model that incorporates real-time meteorological conditions. Our methodology integrates key meteorological factors including relative humidity, temperature, degree of solidification of combustible materials, and wind speed. These factors are embedded into a comprehensive function that determines both the downwind and upwind spreading speeds of the fire. Additionally, the model accommodates fire spread in the absence of wind by incorporating the direction perpendicular to the wind, with wind speed set to zero. By precisely determining wind speed, the model enables real-time calculation of fire spread speeds in all directions. Under stable wind conditions, the fire spread area typically adopts an elliptical shape. Leveraging ellipse properties, we define the aspect ratio as a function related to wind speed. Consequently, with knowledge of the fire duration, the model accurately estimates the area of fire spread. Our findings demonstrate the effectiveness of this model in predicting and evaluating fires in the Hulunbuir Grassland. The model offers an innovative method for quantifying grassland fires, contributing significantly to the understanding and management of grassland ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

11. Biodiversity patterns of the coral reef cryptobiota around the Arabian Peninsula.

Author

Villalobos, Rodrigo, Aylagas, Eva, Pearman, John K., Curdia, Joao, Coker, Darren, Bell, Alyssa Clothilde, Brown, Shannon D., Rowe, Katherine, Lozano-Cortés, Diego, Rabaoui, Lotfi J., Marshell, Alyssa, Qurban, Mohammad, Jones, Burton, Berumen, Michael Lee, and Carvalho, Susana

Subjects

*CORAL reefs & islands, *CORALS, *CYTOCHROME oxidase, *EXTREME environments, *ECOSYSTEM management, *CORAL bleaching

Abstract

The Arabian Peninsula accounts for approximately 6% of the world's coral reefs. Some thrive in extreme environments of temperature and salinity. Using 51 Autonomous Reef Monitoring Structure (ARMS), a standardized non-destructive monitoring device, we investigated the spatial patterns of coral reef cryptobenthic diversity in four ecoregions around the Arabian Peninsula and analyzed how geographical and/or environmental drivers shape those patterns. The mitochondrial cytochrome c oxidase subunit I (COI) gene was used to identify Amplicon Sequence Variants and assign taxonomy of the cryptobenthic organisms collected from the sessile and mobile fractions of each ARMS. Cryptobenthic communities sampled from the two ecoregions in the Red Sea showed to be more diverse than those inhabiting the Arabian (Persian) Gulf and the Gulf of Oman. Geographic distance revealed a stronger relationship with beta diversity in the Mantel partial correlation than environmental distance. However, the two mobile fractions (106–500 µm and 500–2000 µm) also had a significant correlation between environmental distance and beta diversity. In our study, dispersal limitations explained the beta diversity patterns in the selected reefs, supporting the neutral theory of ecology. Still, increasing differences in environmental variables (environmental filtering) also had an effect on the distribution patterns of assemblages inhabiting reefs within short geographic distances. The influence of geographical distance in the cryptofauna assemblages makes these relevant, yet usually ignored, communities in reef functioning vulnerable to large scale coastal development and should be considered in ecosystem management of such projects. [ABSTRACT FROM AUTHOR]

Published

2024

12. Could fish aggregation at ocean aquaculture augment wild populations and local fisheries?

Author

Couture, Jessica L., Bradley, Darcy, Halpern, Benjamin S., and Gaines, Steven D.

Subjects

*AQUACULTURE, *FOOD supply, *AGRICULTURE, *ECOSYSTEM management, *SALTWATER fishing, *FISHERIES, *FISHERY management

Abstract

The global population consumes more seafood from aquaculture today than from capture fisheries and although the aquaculture industry continues to grow, both seafood sectors will continue to be important to the global food supply into the future. As farming continues to expand into ocean systems, understanding how wild populations and fisheries will interact with farms will be increasingly important to informing sustainable ocean planning and management. Using a spatially explicit population and fishing model we simulate several impacts from ocean aquaculture (i.e., aggregation, protection from fishing, and impacts on fitness) to evaluate the mechanisms underlying interactions between aquaculture, wild populations and fisheries. We find that aggregation of species to farms can increase the benefits of protection from fishing that a farm provides and can have greater impacts on more mobile species. Splitting total farm area into smaller farms can benefit fishery catches, whereas larger farms can provide greater ecological benefits through conservation of wild populations. Our results provide clear lessons on how to design and co-manage expanding ocean aquaculture along with wild capture ecosystem management to benefit fisheries or conservation objectives. [ABSTRACT FROM AUTHOR]

Published

2024

13. Genomic insights into the seawater adaptation in Cyprinidae.

Author

Wang, Ying, Zhang, Xuejing, Wang, Jing, Wang, Cheng, Xiong, Fei, Qian, Yuting, Meng, Minghui, Zhou, Min, Chen, Wenjun, Ding, Zufa, Yu, Dan, Liu, Yang, Chang, Yumei, He, Shunping, and Yang, Liandong

Subjects

*SEAWATER, *CYPRINIDAE, *GENOMICS, *GENETIC models, *ECOSYSTEM management, *MARINE ecology, *ECOSYSTEMS, *COLD adaptation

Abstract

Background: Cyprinidae, the largest fish family, encompasses approximately 367 genera and 3006 species. While they exhibit remarkable adaptability to diverse aquatic environments, it is exceptionally rare to find them in seawater, with the Far Eastern daces being of few exceptions. Therefore, the Far Eastern daces serve as a valuable model for studying the genetic mechanisms underlying seawater adaptation in Cyprinidae. Results: Here, we sequenced the chromosome-level genomes of two Far Eastern daces (Pseudaspius brandtii and P. hakonensis), the two known cyprinid fishes found in seawater, and performed comparative genomic analyses to investigate their genetic mechanism of seawater adaptation. Demographic history reconstruction of the two species reveals that their population dynamics are correlated with the glacial-interglacial cycles and sea level changes. Genomic analyses identified Pseudaspius-specific genetic innovations related to seawater adaptation, including positively selected genes, rapidly evolving genes, and conserved non-coding elements (CNEs). Functional assays of Pseudaspius-specific variants of the prolactin (prl) gene showed enhanced cell adaptation to greater osmolarity. Functional assays of Pseudaspius specific CNEs near atg7 and usp45 genes suggest that they exhibit higher promoter activity and significantly induced at high osmolarity. Conclusions: Our results reveal the genome-wide evidence for the evolutionary adaptation of cyprinid fishes to seawater, offering valuable insights into the molecular mechanisms supporting the survival of migratory fish in marine environments. These findings are significant as they contribute to our understanding of how cyprinid fishes navigate and thrive in diverse aquatic habitats, providing useful implications for the conservation and management of marine ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

14. Synergies of management actions between species and community focused approaches to protecting threatened biodiversity.

Author

Olivares‐Rojas, Javiera, Cook, Carly N., and Walsh, Jessica C.

Subjects

*POPULATION viability analysis, *BIOTIC communities, *NUMBERS of species, *ENDANGERED species, *ECOSYSTEM management, *BIODIVERSITY, *ANIMAL species

Abstract

Conservation efforts have focused largely on species, yet ecosystem management is suggested to be a more efficient strategy for biodiversity management. With increasing numbers of threatened species, ecosystems and ecological communities, and limited resources, an approach that delivers the best conservation outcomes across multiple levels of biodiversity is crucial. In this study, we compared a species approach and a community approach to management by evaluating the number of threatened species benefiting from actions targeted at threatened ecological communities (TECs), and vice versa. We ran three analyses: one theoretical, and two spatially‐explicit analyses accounting for co‐occurrence in distributions and site‐based actions. We found that of 124 actions, 61 were common to species and TECs. Yet, the overlap of actions was lower when considering species and TEC co‐occurrences across the distributions, and was mostly lost at the site‐scale. In all analyses, focusing on species management resulted in a greater percentage of actions considered, thus potentially benefiting more species and TECs. We suggest that when there is limited capacity to perform formal prioritization analyses, our process could identify actions addressing widespread and common threats impacting both species and communities. Further, simultaneously managing both species and TECs would potentially deliver a more effective solution. [ABSTRACT FROM AUTHOR]

Published

2024

15. Changes in Vegetation NDVI and Its Response to Climate Change and Human Activities in the Ferghana Basin from 1982 to 2015.

Author

Zhang, Heli, Li, Lu, Zhao, Xiaoen, Chen, Feng, Wei, Jiachang, Feng, Zhimin, Hou, Tiyuan, Chen, Youping, Yue, Weipeng, Shang, Huaming, Wang, Shijie, and Hu, Mao

Subjects

*VEGETATION dynamics, *GROWING season, *ECOSYSTEM management, *SUSTAINABLE development, ENVIRONMENTAL protection planning

Abstract

Exploring the evolution of vegetation cover and its drivers in the Ferghana Basin helps to understand the current ecological status of the Ferghana Basin and to analyze the vegetation changes and drivers, with a view to providing a scientific basis for regional ecological and environmental management and planning. Based on GIMMS NDVI3g and meteorological data, the spatial and temporal evolution characteristics of NDVI were analyzed from multiple perspectives with the help of linear trend and Mann–Kendall (MK) test methods using arcgis and the R language spatial analysis module, combined with partial correlation coefficients and residual analysis methods to analyze the impacts of climate change and human activities on the regional vegetation cover of the Ferghana Basin from 1982 to 2015. NDVI driving forces. The results showed the following: (1) The growing season of vegetation NDVI in the Ferghana Basin showed an increasing trend in the 34-year period, with an increase rate of 0.0044/10a, and the spatial distribution was significantly different, which was high in the central part of the country and low in the northern and southern parts of the country. (2) Temperature and precipitation simultaneously co-influenced the vegetation NDVI growth season, with most of the temperature and precipitation contributing in the spring, most of the temperature in the summer being negatively phased and the precipitation positively correlated, and most of the temperature and precipitation in the fall inhibiting vegetation NDVI growth. (3) The combined effect of climate change and human activities was the main reason for the overall rapid increase and great spatial variations in vegetation NDVI in China, and the spatial distribution of drivers, namely human activities and climate change, contributed 44.6% to vegetation NDVI in the growing season. The contribution of climate change and human activities to vegetation NDVI in the Ferghana Basin was 62.32% and 93.29%, respectively. The study suggests that more attention should be paid to the role of human activities and climate change in vegetation restoration to inform ecosystem management and green development. [ABSTRACT FROM AUTHOR]

Published

2024

16. The Effects of Infectious Diseases on the Consequences of Interspecific Competition in Grassland Communities.

Author

Chen, Yanli, Liu, Yanping, Liu, Xiaoni, Zhang, Zhengzhong, and Zhang, Feng

Subjects

*COEXISTENCE of species, *COMPETITION (Biology), *COMMUNICABLE diseases, *ECOSYSTEM management, *GRASSLANDS, *GRASSLAND soils, *PLANT species, *PLANT diseases

Abstract

As infectious diseases have a severe impact on the individual survival and competitive ability of host species in grassland communities, competition between relevant species may have different consequences, potentially influencing the species composition of grassland communities and the functioning of grassland ecosystems. Understanding the impact of infectious diseases on competition is thus crucial for the health management of grassland ecosystems. How do infectious diseases affect the competitive coexistence of grassland plant species? In this study, by drawing on Tilman's multispecies competition model and incorporating the spread characteristics of grassland plant diseases, we built three spatial competition models of two grass species subject to infectious diseases, and we analyzed the invasion conditions of infectious diseases and how they impact the population dynamics and competitive consequences of the species. Our model revealed the following: (1) Diseases with high transmission rates and low virulence are more likely to invade populations, while the presence of non-host species is detrimental to disease invasion. (2) Disease promotes the coexistence of competing species, breaking down the original competition–compromise trade-off mechanism for species coexistence and greatly expanding the range of parameters within which the two species can coexist. (3) Pathogen infections indirectly weaken the suppression of inferior species by dominant species, which is similar to the cascade effect seen in trophic interactions. Our findings highlight the importance of disease in species coexistence and grassland biodiversity maintenance. [ABSTRACT FROM AUTHOR]

Published

2024

17. Understanding variation in impacts from private protected areas across regions and protection mechanisms to inform organizational practices.

Author

Hagen, Sarah, Nolte, Christoph, Chang, Yuhe, Morgan, Seth, Boccaletti, Giulio, and Reddy, Sheila M. W.

Subjects

*PROTECTED areas, *REAL property acquisition, *AGRICULTURAL development, *CONSERVATION easements, *LAND cover, *KNOWLEDGE gap theory

Abstract

Private land protection is an important and growing tool to address biodiversity loss and climate change. Thus, better empirical evidence on the effectiveness of private land protection and organizational practices, such as targeting of lands for protection and choice of protection mechanism (i.e., fee simple land acquisition and conservation easements), is needed. We addressed this gap by estimating the impacts of The Nature Conservancy's (TNC) (a large nongovernmental organization with relatively decentralized management) conservation land acquisitions and easements from 1988 to 2016 in three regions of the United States (Mid‐Atlantic, New England and New York, and California). We estimated impact in terms of avoided conversion by comparing natural land cover on 3179 protected parcels with matched unprotected parcels. Nineteen of 21 ecoregional plans used threats of agriculture and development to identify priorities for protection. When regions and protection mechanisms were pooled, on average there was no evidence of avoided conversion from 1988 to 2016. Accounting for mechanisms, TNC land acquisitions avoided conversion and easements did not. TNC's easements on parcels acquired by conservation partners did avoid conversion. Limitations of these results include focus on a single measure of impact, inability to capture future avoided conversion, and low land cover change accuracy in California. Our results suggest that private land protection managers who seek to avoid land conversion in the near to medium term should increase focus on areas with higher threats. Special attention should be paid to strengthening accountability and the role of partners, improving or clarifying how easements are used, and facilitating the flow of resources to work with the greatest potential impact. [ABSTRACT FROM AUTHOR]

Published

2024

18. Assessment of vegetation dynamics under changed climate situation using geostatistical modeling.

Author

Basit, Iqra, Faizi, Fiza, Mahmood, Khalid, Faizi, Rida, Ramzan, Saira, Parvez, Shahid, and Mushtaq, Fatima

Subjects

*VEGETATION dynamics, *CLIMATE change mitigation, *WIND speed, *MOUNTAIN ecology, *ECOSYSTEM management

Abstract

The estimation of spatiotemporal variability of vegetation health and associated climatic variables is a prerequisite for efficient management of mountain ecosystems. The present study aimed to quantify the changing effect of different climatic parameters on vegetation health in Khyber Pakhtunkhwa, Pakistan, from 2012 to 2021. The association between NDVI and three explanatory variables, i.e., temperature, precipitation, and wind speed, was analyzed using geostatistical model optimization and stationarity index analysis. Results showed that local model GWR presented optimal results owing to its ability to deal with spatial non-stationarity and stochasticity inherent in regression relationships. The most dominant climatic factor influencing vegetation dynamics in KPK was temperature, followed by wind speed and precipitation. However, there was a gradual decline in the influence of temperature in controlling vegetation dynamics after 2018, and precipitation emerged to be the major determinant. Moreover, the stationarity index was calculated at multi-scales to determine the operational scale range for each climatic variable. The scale-dependency of NDVI-T relationship exhibited highest spatial heterogeneity, up to a distance of 600 km. Overall, geostatistical modeling using earth observation datasets enabled insightful understanding of spatiotemporal variations in vegetation response to climate change, necessary for sustainable development and responsive climate action. [ABSTRACT FROM AUTHOR]

Published

2024

19. Estimation of evapotranspiration through an improved daily global solar radiation in SEBAL model: a case study of the middle Heihe River Basin.

Author

Yin, Jingqiu, Qiu, Xinfa, Li, Shoubo, Shi, Guoping, Liu, Huiyu, Zhou, Haixuan, and Wu, Haiwei

Subjects

*WATER vapor, *GLOBAL radiation, *SOLAR radiation, *CLIMATE change, *WATERSHEDS, *ECOSYSTEM management, *WETLANDS

Abstract

Evapotranspiration (ET) is a major factor in the water cycle that is most directly affected by land use and climate change. The accurate estimation of the daily ET is an important link in the study of its hydrological and ecological interaction, hydrological cycle, and oasis ecosystem management in arid and semi-arid regions. Considering astronomical, atmospheric (i.e., air molecules, water vapor, and cloud), and surface factors (i.e., slope, aspect, terrain shading, and surface coverage), the new daily global solar radiation (GSR)model is proposed, based on Iqbal model C, DEM, TM, and MODIS data. The new model has been coupled with SEBAL to better estimate ET. The daily surface ET of June 21–24, 2009, in Heihe River Basin is simulated. The results are as follows: (1) the improved daily GSR mean absolute bias error (MABE) is 9 W/m2, and the mean absolute relative bias error (MARBE) is 2.5%. The MABE of the daily GSR using the SEBAL model is 122.2 W/m2, and the MARBE is 33.9%. (2) The improved SEBAL MABE of farmland ET decreases from 2.1 mm (original scheme) to 0.6 mm (improved scheme), and the MARBE declines from 44 to 13% accordingly. Moreover, the spatiotemporal resolution of the ET simulation is effectively improved by the TM/MODIS hybrid strategy. (3) All highest ET value appeared in all types of water bodies, followed by farmland, forest, wetland, and residential areas, and the lowest values appeared over bare rock land. The new results provide better theoretical basis and scientific guidance for ecosystem protection and sustainable utilization of water resources. [ABSTRACT FROM AUTHOR]

Published

2024

20. Comparison of the CASA and InVEST models' effects for estimating spatiotemporal differences in carbon storage of green spaces in megacities.

Author

Wang, Ruei-Yuan, Mo, Xueying, Ji, Hong, Zhu, Zhe, Wang, Yun-Shang, Bao, Zhilin, and Li, Taohui

Subjects

*URBAN ecology, *MEGALOPOLIS, *ECOSYSTEM management, *PUBLIC spaces, *CARBON cycle, *ZONING

Abstract

Urban green space is a direct way to improve the carbon sink capacity of urban ecosystems. The carbon storage assessment of megacity green spaces is of great significance to the service function of urban ecosystems and the management of urban carbon zoning in the future. Based on multi-period remote sensing image data, this paper used the CASA model and the InVEST model to analyze the spatio-temporal variation and driving mechanism of carbon storage in Shenzhen green space and discussed the applicability of the two models to the estimation of carbon storage in urban green space. The research results showed that, from 2008 to 2022, in addition to the rapid expansion of construction land, the area of green space and other land types in Shenzhen showed a significant decrease trend. The estimation results of the carbon storage model showed that the carbon storage of green space shows a significant trend of reduction from 2008 to 2022, and the reduction amounts are 0.8 × 106 t (CASA model) and 0.64 × 106 t (InVEST model), respectively. The evaluation results of the model show that, in megacities, the spatial applicability of InVEST model is lower than that of CASA model, and the CASA model is more accurate in estimating the carbon storage of urban green space. The research results can provide a scientific basis for the assessment of the carbon sink capacity of megacity ecosystems with the goal of "dual carbon". [ABSTRACT FROM AUTHOR]

Published

2024

21. Carbon Sequestration Potential of Agroforestry versus Adjoining Forests at Different Altitudes in the Garhwal Himalayas.

Author

Singh, Naresh, Riyal, Manoj Kumar, Singh, Bhupendra, Khanduri, Vinod Prasad, Rawat, Deepa, Singh, Chandramohan, Pinto, Marina M. S. Cabral, and Kumar, Munesh

Subjects

*FOREST biodiversity, *CARBON sequestration, *AGROFORESTRY, *ALTITUDES, *BIODIVERSITY conservation, *ECOSYSTEM management, *CLIMATE change

Abstract

Forests face a variety of threats in the modern era. Agroforestry systems, both traditional and introduced, have a tremendous capacity for providing sustainable resources and combating the impact of global climate change. Indigenous agroforestry and forest land-use systems are important reservoirs for biodiversity conservation and ecosystem services, providing a potential contribution to livelihood security for rural communities. This study aimed to assess the tree diversity and carbon stock of agroforestry and adjoining forests along altitudinal gradients, ranging between 700 and 2200 masl (i.e., lower, middle, and upper altitudes) by laying sample plots randomly of a size of 20 × 20 m2. In the forest land-use system, the maximum Importance Value Index (IVI) included Dalbergia sissoo (71.10), Pyrus pashia (76.78), and Pinus roxburghii (79.69) at the upper, middle, and lower elevations, respectively, whereas, in the agroforestry land-use system, the IVI reported for Ficus semicordata was 43.05 at the upper, while for Grewia optiva it was at 53.82 at the middle and 59.33 at the lower altitudes. The below-ground biomass density (AGBD) was recorded as 1023.48 t ha−1 (lower), 242.92 t ha−1 (middle), and 1099.35 t ha−1(upper), while in the agroforestry land-use system, the AGBD was 353.48 t ha−1 (lower), 404.32 t ha−1 (middle), and 373.23 t ha−1 (upper). The total carbon density (TCD) values recorded were 630.57, 167.32, and 784.00 t ha−1 in forest land-use systems, and 227.46, 343.23, and 252.47 in agroforestry land-use systems for lower, middle, and upper altitudes, respectively. The Margalef's Index values for agroforestry and forests ranged from 2.39 to 2.85 and 1.12 to 1.30, respectively. Soil organic carbon (SOC) stock recorded 45.32, 58.92, and 51.13 Mg C ha−1 for agroforestry and 61.73, 42.65, and 71.08 Mg C ha−1 for forest in lower, middle and upper elevations, respectively. The study suggests that selecting land use patterns can be an effective management system for tree species at different elevations for carbon storage, helping to mitigate climate change and aiding in sustainable management of ecosystems in the Garhwal Himalayas. [ABSTRACT FROM AUTHOR]

Published

2024

22. Managing multi-functional peri-urban landscapes: Impacts of horse-keeping on water quality.

Author

Kumblad, Linda, Petersson, Mona, Aronsson, Helena, Dinnétz, Patrik, Norberg, Lisbet, Winqvist, Camilla, Rydin, Emil, and Hammer, Monica

Subjects

*WATER quality, *ECOSYSTEM management, *WATER management, *LOCAL knowledge, *WATERSHEDS, *EUTROPHICATION

Abstract

Eutrophication assessments in water management to quantify nutrient loads and identify mitigating measures seldom include the contribution from horse facilities. This may be due to lack of appropriate methods, limited resources, or the belief that the impact from horses is insignificant. However, the recreational horse sector is growing, predominantly in multi-functional peri-urban landscapes. We applied an ecosystem management approach to quantify nutrient loads from horse facilities in the Stockholm Region, Sweden. We found that horses increased the total loads with 30–40% P and 20–45% N, with average area-specific loads of 1.2 kg P and 7.6 kg N ha−1 year−1. Identified local risk factors included manure management practices, trampling severity, soil condition and closeness to water. Comparisons of assessment methods showed that literature standard values of area-specific loads and water runoff may be sufficient at the catchment level, but in small and more complex catchments, measurements and local knowledge are needed. [ABSTRACT FROM AUTHOR]

Published

2024

23. A multi-realm perspective on applying potential tipping points to environmental decision-making.

Author

Harper, Meagan, Rytwinski, Trina, Creed, Irena F., Helmuth, Brian, Smol, John P., Bennett, Joseph R., Hanna, Dalal, Saravia, Leonardo A., Rocha, Juan, Carrier-Belleau, Charlotte, Foulk, Aubrey, Martinez De La Riva, Ana Hernández, Robichaud, Courtney, Sallan, Lauren, Sahdra, Angeli, and Cooke, Steven J.

Subjects

*ECOSYSTEM management, *ENVIRONMENTAL management, *MARINE ecosystem management, *DECISION making, *KNOWLEDGE management, *MARINE ecology, *FRESH water, *ECOSYSTEMS

Abstract

Ecosystems experiencing pressures are at risk of rapidly transitioning ("tipping") from one state to another. Identifying and managing these so-called tipping points continue to be a challenge in marine, freshwater, and terrestrial ecosystems, particularly when multiple potentially interacting drivers are present. Knowledge of tipping points, the mechanisms that cause them, and their implications for management practices are evolving, but often in isolation within specific ecological realms. Here, we summarize current knowledge of tipping points in marine, freshwater, and terrestrial realms and provide a multi-realm perspective of the challenges and opportunities for applying this knowledge to ecosystem management. We brought together conservation practitioners and global experts in marine, freshwater, and terrestrial tipping points and identified seven challenges that environmental policymakers and managers contend with including (1) predictability, (2) spatiotemporal scales, (3) interactions, (4) reversibility, (5) socio-ecological context, (6) complexity and heterogeneity, and (7) selecting appropriate action. We highlight opportunities for cross-scalar and cross-realm knowledge production and provide recommendations for enabling the management of tipping points. Although knowledge of tipping points is imperfect, we stress the need to continue working toward incorporating tipping points perspectives in environmental management across all realms. [ABSTRACT FROM AUTHOR]

Published

2024

24. Geography, Climate, and Habitat Shape the Microbiome of the Endangered Rock Gnome Lichen (Cetradonia linearis).

Author

Paulsen, Julianna, Allen, Jessica L., Morris, Nathan, Dorey, Jenna, Walke, Jenifer B., and Alter, S. Elizabeth

Subjects

*LICHENS, *BIOLOGICAL systems, *BACTERIAL diversity, *ECOSYSTEM management, *ENDANGERED species, *ENDANGERED ecosystems, *HABITATS, *BACTERIAL communities

Abstract

Bacterial symbionts are essential components of healthy biological systems. They are increasingly recognized as important factors in the study and management of threatened species and ecosystems. Despite management shifts at the ecosystem level, microbial communities are often neglected in discussions of holobiont conservation in favor of the primary members of a symbiosis. In this study, we addressed the bacterial community knowledge gap for one of two federally endangered lichen species in the United States, Cetradonia linearis (Cladoniaceae). We collected 28 samples of the endangered rock gnome lichen (Cetradonia linearis) from 13 sites and characterized bacterial communities in thalli using 16S rRNA metabarcoding to investigate the factors influencing the microbiome composition and diversity within the thallus. We found that Proteobacteria (37.8% ± 10.3) and Acidobacteria (25.9% ± 6.0) were the most abundant phyla recovered. Cyanobacteria were a major component of the microbiome in some individuals, despite this species associating with a green algal symbiont. Habitat, climate, and geography were all found to have significant influences on bacterial community composition. An analysis of the core microbiome at a 90% threshold revealed shared amplicon sequence variants in the microbiomes of other lichens in the family Cladoniaceae. We concluded that the bacterial microbiome of Cetradonia linearis is influenced by environmental factors and that some bacterial taxa may be core to this group. Further exploration into the microbiomes of rare lichen species is needed to understand the importance of bacterial symbionts to lichen diversity and distributions. [ABSTRACT FROM AUTHOR]

Published

2024

25. Quantitative Assessment of the Effect of Agency-Led Prescribed Burns and Cultural Burns on Soil Properties in Southeastern Australia.

Author

Davis, Jessica, Simmons, Jack, Snelson, Shane, Channell, Victor, Haynes, Katharine, Deutscher, Nicholas, Brook, Leanne, and Dosseto, Anthony

Subjects

*PRESCRIBED burning, *FIRE management, *ECOSYSTEM management, *SOILS, *SOIL density

Abstract

Fire management techniques play a critical role in mitigating the impact of bushfires on communities and ecosystems. In Australia, government agencies implement hazard reduction burn programs, while Indigenous communities have used fire for ecosystem management for thousands of years. The positive effect of prescribed burning goes beyond bushfire risk mitigation, with impacts also on soil and ecosystem health. This study evaluates the effects of prescribed burning on soil properties, with implications for soil and ecosystem health. Two fire management techniques were evaluated: agency-led prescribed burning and cultural burning. Both fire treatments resulted in an increase in soil moisture, showing that they positively affect the soil water balance (the greater effect seen following the agency-led burn). Both fire treatments also resulted in a decrease in soil bulk density and an increase in organic matter content, with the greater effect seen for soils affected by the Indigenous-led burn. These results show that both fire management techniques positively affect soil health, with important consequences for aboveground ecosystem health. Cultural burning is the most efficient to promote reduced soil bulk density (important for nutrient availability and microbial activity) and increase carbon and nitrogen stores. [ABSTRACT FROM AUTHOR]

Published

2024

26. Living on the edge: forest edge effects on microclimate and terrestrial mammal activity in disturbed lowland forest in Sumatra, Indonesia.

Author

Slater, Helen D., Gillingham, Phillipa K., Pratt, Victoria, Eaton, Ben, Fletcher, Simon, Abdullah, Abdullah, Supriadi, and Korstjens, Amanda H.

Subjects

*EDGE effects (Ecology), *LOGGING, *MAMMAL diversity, *FOREST degradation, *ECOSYSTEM management, *MAMMALS

Abstract

Species–environment relationships are often studied at large spatial scales, but effective conservation requires an understanding of local-scale environmental drivers and pressures. Widespread degradation and fragmentation of forests have increased the proportion of tropical mammal habitat that is affected by edge effects. Edge effects include greater exposure to anthropogenic disturbance and abiotic changes that synergistically influence how well populations can cope with climate change. We investigated relationships between distance to the forest edge, forest structure, microclimate and terrestrial mammal detections in a selectively logged forest at the boundary of Gunung Leuser National Park in Sumatra, Indonesia. We collected mammal detection data from motion-activated camera traps, microclimate data from automated climate data loggers and forest structure data from vegetation plots. Daily mean and maximum temperatures significantly decreased with distance from the forest edge, whereas tree height and minimum temperature increased. Mammal diversity was lower at the forest edge compared to the interior. Mammals were detected less frequently at the forest edge, although this relationship varied between mammal orders. Mammal detections were best explained by temperature, tree height and tree diameter at breast height. These results demonstrate that abiotic changes in forests brought on by edge effects have negative impacts on mammals, but these effects vary between mammal taxa because of differing sensitivities to human disturbance. Our findings highlight the importance of considering local-scale environmental drivers in determining species–environment relationships to identify key habitat features such as microclimate refuges that should be prioritized in ecosystem management. [ABSTRACT FROM AUTHOR]

Published

2024

27. Realized thermal niche approach eliminates temperature bias in bioenergetic model estimates.

Author

Ivanova, Silviya V., Fisk, Aaron T., and Johnson, Timothy B.

Subjects

*COLD-blooded animals, *GLOBAL temperature changes, *LAKE trout, *LIFE history theory, *CHINOOK salmon, *ECOSYSTEM management, *PREDATION

Abstract

Bioenergetics models estimate ectotherm growth, production, and prey consumption – all key for effective ecosystem management during changing global temperatures. Based on species‐specific allometric and thermodynamic relationships, these models typically use the species' lab‐derived optimum temperatures (physiological optimum) as opposed to empirical field data (realized thermal niche) that reflect actual thermal experience. Yet, dynamic behavioral thermoregulation mediated by biotic and abiotic interactions may provide substantial divergence between physiological optimum and realized thermal niche temperatures to significantly bias model outcomes. Here, using the Wisconsin bioenergetics model and in‐situ year‐round temperature data, we tested the two approaches and compared the maximum attainable lifetime weight and lifetime prey consumption estimates for two salmonid species with differing life histories. We demonstrate that using the realized thermal niche is the better approach because it eliminates significant biases in estimates produced by the physiological optimum. Specifically, using the physiological optimum, slower‐growing Salvelinus namaycush maximum attainable lifetime weight was underestimated, and consumption overestimated, while fast‐growing Oncorhynchus tshawytscha maximum attainable weight was overestimated. While the physiological optimum approach is useful for theoretical studies, our results demonstrate the critical importance that models used by management utilize up‐to‐date system‐ and species‐specific field data representing actual in‐situ behaviors (i.e., realized thermal niche). [ABSTRACT FROM AUTHOR]

Published

2024

28. Dreaming of wetscapes: Waking to the realities of restoration.

Author

Langston, James Douglas, Mendham, Daniel Steven, and Sakuntaladewi, Niken

Subjects

*PEATLAND restoration, *DREAMS, *GREENHOUSE gases, *PEATLAND management, *ECOSYSTEM management

Abstract

The article discusses the importance of restoring peatlands for the future of both people and nature. While the authors agree with the need for restoration, they argue that the approach presented in a previous article overlooks the complex social, cultural, and political dynamics involved in peatland restoration. They emphasize the need for a more inclusive and context-specific approach that takes into account the needs and aspirations of local communities. The authors also highlight the importance of engaging with the value systems and governance issues that affect peatland restoration. [Extracted from the article]

Published

2024

29. Postfire Forest Regrowth Algorithm Using Tasseled-Cap-Retrieved Indices.

Author

Stankova, Nataliya and Avetisyan, Daniela

Subjects

*FOREST fires, *FIRE management, *FOREST monitoring, *ECOSYSTEM management, *REMOTE-sensing images, *CLIMATE change, *THEMATIC maps

Abstract

Wildfires are a common disturbance factor worldwide, especially over the last decade due to global climate change. Monitoring postfire forest regrowth provides fundamental information needed to enhance the management and support of ecosystem recovery after fires. The purpose of this study is to propose an algorithm for postfire forest regrowth monitoring using tasseled-cap-derived indices. A complex approach is used for its implementation, for which a model is developed based on three components—Disturbance Index (DI), Vector of Instantaneous Condition (VIC), and Direction Angle (DA). The final product—postfire regrowth (PFIR)—allows for a quantitative assessment of the intensity of regrowth. The proposed methodology is based on the linear orthogonal transformation of multispectral satellite images—tasseled cap transformation (TCT)—that increases the degree of identification of the three main components that change during a fire—soil, vegetation, and water/moisture—and implies a higher accuracy of the assessments. The results provide a thematic raster representing the intensity of the regrowth classes, which are defined after the PFIR threshold values are determined (HRI—high regrowth intensity; MRI—moderate regrowth intensity; and LRI—low regrowth intensity). The accuracy assessment procedure is conducted using very-high-resolution (VHR) aerial and satellite data from World View (WV) sensors, as well as multispectral Sentinel 2A images. Three different forest test sites affected by fire in Bulgaria are examined. The results show that the classified thematic raster maps are distinguished by a good performance in monitoring the regrowth dynamics, with an average overall accuracy of 62.1% for all three test sites, ranging from 73.9% to 48.4% for the individual forests. [ABSTRACT FROM AUTHOR]

Published

2024

30. Phytoplankton Community Dynamics in Ponds with Diverse Biomanipulation Approaches.

Author

Zhang, Yantao, Yang, Jie, Lin, Xiaoman, Tian, Biao, Zhang, Tanglin, and Ye, Shaowen

Subjects

*BIOMANIPULATION, *PONDS, *ECOSYSTEM management, *FISH stocking, *PHYTOPLANKTON, *EUTROPHICATION, *NITROGEN cycle

Abstract

The rising challenge of eutrophication in aquatic systems globally necessitates an understanding of phytoplankton community dynamics under diverse biomanipulation approaches. This study, conducted from June 2022 to July 2023 in the Yuqiao Reservoir's ponds in China, explored phytoplankton dynamics across ponds under different biomanipulation strategies. The study included a pond (BL) without fish stocking, a pond (CH) stocked with carnivorous and herbivorous fish, and another pond (CFD) incorporating a mix of carnivorous, filter-feeding, and detritus-feeding fish. Substantial seasonal variations in phytoplankton density and biomass were observed. In the BL pond, phytoplankton density ranged from 0.23 × 107 to 3.21 × 107 ind/L and biomass from 0.71 to 7.10 mg/L, with cyanobacteria predominantly in warmer seasons and a shift to cryptophytes and chrysophytes in winter. The CH pond exhibited a density range from 0.61 × 107 to 8.04 × 107 ind/L and biomass of 1.11 to 7.58 mg/L. Remarkably, the CFD pond demonstrated a significant reduction in both density (0.11 × 107 to 2.36 × 107 ind/L) and biomass (0.27 to 5.95 mg/L), indicating the effective implementation of its biomanipulation strategy. Key environmental factors including total nitrogen, water temperature, pH, chlorophyll-a, and total phosphorus played a significant role in shaping phytoplankton communities. The study highlights the importance of tailored biomanipulation strategies in aquatic ecosystem management, emphasizing long-term monitoring for sustainable management of eutrophication. [ABSTRACT FROM AUTHOR]

Published

2024

31. Mapping and Analyzing the Spatiotemporal Patterns and Drivers of Multiple Ecosystem Services: A Case Study in the Yangtze and Yellow River Basins.

Author

Yu, Yuanhe, Xiao, Zhouxuan, Bruzzone, Lorenzo, and Deng, Huan

Subjects

*WATERSHEDS, *ECOSYSTEM management, *CARBON sequestration, *LAND cover, *ECOSYSTEM services, *REGIONAL economic disparities, *ECOSYSTEMS, *SOIL conservation, ECONOMIC conditions in China

Abstract

The Yangtze River Basin (YZRB) and the Yellow River Basin (YRB), which are crucial for ecology and economy in China, face growing challenges to ecosystem service (ES) functions due to global population growth, urbanization, and climate change. This study assessed the spatiotemporal dynamics of ESs in the YZRB and the YRB between 2001 and 2021, comprehensively encompassing essential aspects such as water yield (WY), carbon sequestration (CS), soil conservation (SC), and habitat quality (HQ) while also analyzing the trade-offs and synergies among these ESs at the grid cells. The GeoDetector was employed to ascertain individual or interactive effects of natural and anthropogenic factors on these ESs and their trade-offs/synergies. The results showed that (1) from 2001 to 2021, the four ESs exhibited significant spatial disparities in the distribution within two basins, with the overall trend of ESs mainly increasing. YZRB consistently exhibited substantially higher ES values than the YRB. (2) Complex trade-offs and synergies among these ESs were apparent in both basins, characterized by distinct spatial heterogeneity. The spatial relationships of WY–CS, WY–SC, CS–SC, and CS–HQ were mainly synergistic. (3) Precipitation, potential evapotranspiration, elevation, land use and land cover (LULC), and slope influenced ESs in both basins. Notably, interactive factors, particularly the interactions involving LULC and other factors, demonstrated more robust explanatory power for ESs and their trade-offs/synergies than individual drivers. These findings significantly affect the refined ecosystem management and sustainable development decision-making in large rivers or regions. [ABSTRACT FROM AUTHOR]

Published

2024

32. The Status of Wildlife Damage Compensation in China.

Author

Wang, Wenxia, Wronski, Torsten, and Yang, Liangliang

Subjects

*WILDLIFE reintroduction, *LITERATURE reviews, *ECOSYSTEM management, *HABITAT conservation, *WILDLIFE conservation, *ENVIRONMENTAL justice, *HABITATS, *ANIMAL populations

Abstract

Simple Summary: With the remarkable progress in wildlife conservation in China in recent years, the problem of human–wildlife conflict has notably increased. To appropriately resolve human–wildlife conflict and safeguard environmental justice, efficient wildlife damage compensation is crucial. This review attempts to compile information on the current state of wildlife damage compensation in China, describing the characteristics of wildlife damage and highlighting the necessity for compensation, regulation, and the management of wildlife damage compensation. We further compiled a list of nuisance species, and we exemplify detailed management practices in four case studies. Finally, we carefully evaluated the difficulties and challenges faced by China's wildlife damage compensation schemes and provided recommendations for the future. The conservation management of natural ecosystems in China has significantly improved in recent decades, resulting in the effective protection of wildlife and the restoration of habitats. With the rapid growth in wildlife populations and corresponding range expansions, incidents of human–wildlife conflict have notably increased across China. However, only a few studies have paid adequate attention to wildlife damage management and compensation. In our review, we focus on the foremost mitigation measure to combat human–wildlife conflict, i.e., compensation for damage caused by wildlife. We conducted a questionnaire survey and an in-depth review of the literature across 19 Chinese provinces and autonomous regions, resulting in a total of 78 relevant sources. We first introduce the concept of wildlife damage compensation in China, followed by a review of Chinese legislation and policies regarding wildlife damage compensation. We compiled a comprehensive list of nuisance species, and we showcase four case studies in which we exemplarily describe the current situation of wildlife damage compensation. We reflect on difficulties and challenges such as delayed damage assessments or compensation quotas that do not correspond to current market prices. Since local legislation is often insufficient or completely absent, we make suggestions on how to improve existing policies and compensation mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

33. Revisiting the role of behavior-mediated structuring in the survival of populations in hostile environments.

Author

Sandhu, Simran, Mikheev, Victor, Pasternak, Anna, Taskinen, Jouni, and Morozov, Andrew

Subjects

*ENDANGERED species, *FISH farming, *FISHERIES, *ECOSYSTEM management, *HOSTILITY

Abstract

Increasing the population density of target species is a major goal of ecosystem and agricultural management. This task is especially challenging in hazardous environments with a high abundance of natural enemies such as parasites and predators. Safe locations with lower mortality have been long considered a beneficial factor in enhancing population survival, being a promising tool in commercial fish farming and restoration of threatened species. Here we challenge this opinion and revisit the role of behavior structuring in a hostile environment in shaping the population density. We build a mathematical model, where individuals are structured according to their defensive tactics against natural enemies. The model predicts that although each safe zone enhances the survival of an individual, for an insufficient number of such zones, the entire population experiences a greater overall mortality. This is a result of the interplay of emergent dynamical behavioral structuring and strong intraspecific competition for safe zones. Non-plastic structuring in individuals' boldness reduces the mentioned negative effects. We demonstrate emergence of non-plastic behavioral structuring: the evolutionary branching of a monomorphic population into a dimorphic one with bold/shy strains. We apply our modelling approach to explore fish farming of salmonids in an environment infected by trematode parasites. A theoretical model, based on empirical data, predicts that population structuring according to defensive tactics used against natural enemies enhances the population mortality, whereas nonplastic (permanent) structuring reduces this negative effect. [ABSTRACT FROM AUTHOR]

Published

2024

34. Dynamics of land use land cover change in an East African inland valley wetland.

Author

Gimbo, Rebecca, Mukundi, John Bosco, Mburu, David Mwehia, and Balirwa, John Stephen

Subjects

*LAND cover, *WETLANDS, *LAND use, *ECOSYSTEM management, *WETLAND conservation, *GEOGRAPHIC information systems, *REMOTE-sensing images

Abstract

The dynamics of inland valley wetlands landuse landcover (LULC) changes are of ecological and economical significance hence necessitating up-to-date datasets of resource status. Nalwekomba inland valley wetland is highly agriculturally utilised yet ecologically important wetland threatened with conversion. Historical LULC data sets as bench marks justifying wetland conservation are lacking. Therefore, the spatial-temporal LULC changes in Nalwekomba inland valley wetland were analysed through a combination of remote sensing and GIS, using satellite images of 1990, 2000, 2010 and 2020 as reference years. Results revealed variable dominance of grassland and tree cover for the wetland and its catchment over the years; 32.7% and 35.3% and 30.9% and 29.8%, respectively, for 1990 and 41.4% and 30.4% and 26.3% and 29.1% for 2020. The 30-year analysis revealed increasing area-shifts for cropland and built-up/settlement of 265.7% and 76.2%, respectively, reducing cover for shrubland by 78.31% in the wetland. Similar trend emerged for its catchment. Highest net cover gains and losses identified between 1990 and 2000 were for cropland and tree cover respectively. The observed trend points to the need for landuse planning and landcover management to enhance ecosystems' resilience to support sustainable livelihoods dependent on this ecosystem. [ABSTRACT FROM AUTHOR]

Published

2024

35. Optimizing detectability of the endangered fan mussel using eDNA and ddPCR.

Author

Marques, Virginie, Loot, Géraldine, Blanchet, Simon, Miaud, Claude, Planes, Serge, Peyran, Claire, Arnal, Véronique, Calvet, Coralie, Pioch, Sylvain, and Manel, Stéphanie

Subjects

*LAGOONS, *MUSSELS, *BIOLOGICAL extinction, *ECOSYSTEM management, *RESTORATION ecology, *ENDANGERED species

Abstract

Spatial and temporal monitoring of species threatened with extinction is of critical importance for conservation and ecosystem management. In the Mediterranean coast, the fan mussel (Pinna nobilis) is listed as critically endangered after suffering from a mass mortality event since 2016, leading to 100% mortality in most marine populations. Conventional monitoring for this macroinvertebrate is done using scuba, which is challenging in dense meadows or with low visibility. Here we developed an environmental DNA assay targeting the fan mussel and assessed the influence of several environmental parameters on the species detectability in situ. We developed and tested an eDNA molecular marker and collected 48 water samples in two sites at the Thau lagoon (France) with distinct fan mussel density, depths and during two seasons (summer and autumn). Our marker can amplify fan mussel DNA but lacks specificity since it also amplifies a conspecific species (Pinna rudis). We successfully amplified fan mussel DNA from in situ samples with 46 positive samples (out of 48) using ddPCR, although the DNA concentrations measured were low over almost all samples. Deeper sampling depth slightly increased DNA concentrations, but no seasonal effect was found. We highlight a putative spawning event on a single summer day with much higher DNA concentration compared to all other samples. We present an eDNA molecular assay able to detect the endangered fan mussel and provide guidelines to optimize the sampling protocol to maximize detectability. Effective and non‐invasive monitoring tools for endangered species are promising to monitor remaining populations and have the potential of ecological restoration or habitat recolonization following a mass mortality event. [ABSTRACT FROM AUTHOR]

Published

2024

36. Grassland Ecological Management and Utilization for Sustainability.

Author

Liu, Kesi and Shao, Xinqing

Subjects

*GRASSLANDS, *GREENHOUSE gases, *ECONOMIC decision making, *ECOSYSTEM management

Abstract

This document, titled "Grassland Ecological Management and Utilization for Sustainability," provides an overview of research articles focused on grassland management and utilization. The articles are grouped into three categories: the management and utilization of traditional grasslands, the restoration and management of degraded grasslands, and shrub encroachment in grasslands. The document highlights various factors and strategies related to grassland species, production, grazing, nutrient management, and health evaluation. It emphasizes the importance of effective ecological management and sustainable utilization of grasslands for maintaining ecosystem services and long-term environmental sustainability. The authors conclude that innovative approaches, integrated land use planning, and collaborative models are necessary for the long-term sustainability of grasslands and pastures. [Extracted from the article]

Published

2024

37. Inverting Chlorophyll Content in Jujube Leaves Using a Back-Propagation Neural Network–Random Forest–Ridge Regression Algorithm with Combined Hyperspectral Data and Image Color Channels.

Author

Wu, Jingming, Bai, Tiecheng, and Li, Xu

Subjects

*JUJUBE (Plant), *CHLOROPHYLL, *PLANT physiology, *ECOSYSTEM management, *PLANT adaptation, *PRECISION farming, *BACK propagation, *PARTIAL least squares regression

Abstract

Chlorophyll content is highly susceptible to environmental changes, and monitoring these changes can be a crucial tool for optimizing crop management and providing a foundation for research in plant physiology and ecology. This is expected to deepen our scientific understanding of plant ecological adaptation mechanisms, offer a basis for improving agricultural production, and contribute to ecosystem management. This study involved the collection of hyperspectral data, image data, and SPAD data from jujube leaves. These data were then processed using SG smoothing and the isolated forest algorithm, following which eigenvalues were extracted using a combination of Pearson's phase relationship method and the Partial Least Squares Regression–continuous projection method. Subsequently, seven methods were employed to analyze the results, with hyperspectral data and color channel data used as independent variables in separate experiments. The findings indicated that the integrated BPNN-RF-Ridge Regression algorithm provided the best results, with an R2 of 0.8249, MAE of 2.437, and RMSE of 2.9724. The inclusion of color channel data as an independent variable led to a 3.2% improvement in R2, with MAE and RMSE increasing by 1.6% and 3.9%, respectively. These results demonstrate the effectiveness of integrated methods for the determination of chlorophyll content in jujube leaves and underscore the potential of using multi-source data to improve the model fit with a minimal impact on errors. Further research is warranted to explore the application of these findings in precision agriculture for jujube yield optimization and income-related endeavors, as well as to provide insights for similar studies in other plant species. [ABSTRACT FROM AUTHOR]

Published

2024

38. Expanding the scope and roles of social sciences and humanities to support integrated ecosystem assessments and ecosystem-based management.

Author

Tam, Jamie C, Parlee, Courtenay E, Campbell-Miller, Jill, Bellanger, Manuel, Bentley, Jacob, Pourfaraj, Vahab, Andrews, Evan J, Eger, Sondra L, Cook, Adam M, and Beaulieu, Gabrielle

Subjects

*SOCIAL scientists, *ECOSYSTEM management, *DECISION making, *SOCIOECONOMICS, *ECOSYSTEMS

Abstract

Understanding social-ecological systems (SESs) is an important part of ecosystem-based management (EBM). One of the main decision support frameworks to develop scientific advice for EBM is integrated ecosystem assessments (IEAs). Human dimensions in SESs are primarily captured through indicators derived from three social sciences: economics, anthropology, and sociology. The breadth of social sciences and humanities (SSH) research is much greater than those three fields, but they are generally underused in natural science-based decision support processes such as IEAs. Greater contributions of SSHs can enhance IEAs through various direct (e.g. to develop indicators) and indirect ways (e.g. to establish and maintain ethical practices). We examine a wider range of SSH disciplines and conclude that scientific advice processes that inform EBM can benefit from broader integration of SSH theories and methods through themes of contextualizing, facilitating, communicating, evaluating, and anticipating. We see this an opportunity to both widen the vocabulary used to describe social scientists and those who work in humanities in IEAs, and apply the underlying worldviews used to conduct SSH research to fundamentally enhance the IEA process and to further progress in EBM. [ABSTRACT FROM AUTHOR]

Published

2024

39. Structural and functional indicators in freshwater ecosystem monitoring programs.

Author

Derek Cheung, Wing Chun and Burrows, Ryan M.

Subjects

*ECOSYSTEM management, *ECOSYSTEM health, *ECOSYSTEMS, *FRESH water, *RECORDS management

Abstract

Ecosystem function is a foundational part of ecosystem health, but it is often neglected in the practice of ecosystem monitoring. We conducted a review of freshwater ecosystem management literature, analysing 60 documents across multiple organisations to understand the prevalence of function in conceptualisations and measures of ecosystem health. Only 28% (n = 13) of analysed documents included definitions of waterway health that included function, and only 30% (n = 18) integrated function into their conceptualisations of waterway health. More generally, we observed noticeable deviation in analysed documents from management best practices advocated for by contemporary ecosystem science – including unclear rationales, vague language, and imprecise metrics for assessing waterway health. We discuss these findings in broader ecosystem management contexts. Our findings support previous observations of a strong structural bias in current ecosystem health monitoring and suggest the need for closer examinations into the processes and rationales by which such an important factor could be absent from monitoring programs. [ABSTRACT FROM AUTHOR]

Published

2024

40. Natural recovery of corals after severe disturbance.

Author

Morais, Juliano, Tebbett, Sterling B., Morais, Renato A., and Bellwood, David R.

Subjects

*CORAL bleaching, *CORALS, *CORAL reefs & islands, *ECOSYSTEM management, *ACROPORA, *REEFS

Abstract

Ecosystem recovery from human‐induced disturbances, whether through natural processes or restoration, is occurring worldwide. Yet, recovery dynamics, and their implications for broader ecosystem management, remain unclear. We explored recovery dynamics using coral reefs as a case study. We tracked the fate of 809 individual coral recruits that settled after a severe bleaching event at Lizard Island, Great Barrier Reef. Recruited Acropora corals, first detected in 2020, grew to coral cover levels that were equivalent to global average coral cover within just 2 years. Furthermore, we found that just 11.5 Acropora recruits per square meter were sufficient to reach this cover within 2 years. However, wave exposure, growth form and colony density had a marked effect on recovery rates. Our results underscore the importance of considering natural recovery in management and restoration and highlight how lessons learnt from reef recovery can inform our understanding of recovery dynamics in high‐diversity climate‐disturbed ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

41. Growing-season carbon budget of alpine meadow ecosystem in the Qinghai Lake Basin: a continued carbon sink through this century according to the Biome-BGC model.

Author

Zhang, Meng-ya, Ma, Yu-jun, Chen, Peng, Shi, Fang-zhong, and Wei, Jun-qi

Subjects

*MOUNTAIN meadows, *CARBON cycle, *WATERSHEDS, *ECOSYSTEM management, *CARBON offsetting, *MOUNTAIN soils, *ECOSYSTEMS, *MOUNTAIN ecology

Abstract

Background: The alpine meadow is one of the most important ecosystems in the Qinghai-Tibet Plateau (QTP), and critically sensitive to climate change and human activities. Thus, it is crucial to precisely reveal the current state and predict future trends in the carbon budget of the alpine meadow ecosystem. The objective of this study was to explore the applicability of the Biome-BGC model (BBGC) in the Qinghai Lake Basin (QLB), identify the key parameters affecting the variation of net ecosystem exchange (NEE), and further predict the future trends in carbon budget in the QLB. Results: The alpine meadow mainly acted as carbon sink during the growing season. For the eco-physiological factors, the YEL (Yearday to end litterfall), YSNG (Yearday to start new growth), CLEC (Canopy light extinction coefficient), FRC:LC (New fine root C: new leaf C), SLA (Canopy average specific leaf area), C:Nleaf (C:N of leaves), and FLNR (Fraction of leaf N in Rubisco) were confirmed to be the top seven parameters affecting carbon budget of the alpine meadow. For the meteorological factors, the sensitivity of NEE to precipitation was greater than that to vapor pressure deficit (VPD), and it was greater to radiation than to air temperature. Moreover, the combined effect of two different meteorological factors on NEE was higher than the individual effect of each one. In the future, warming and wetting would enhance the carbon sink capacity of the alpine meadow during the growing season, but extreme warming (over 3.84 ℃) would reduce NEE (about 2.9%) in the SSP5-8.5 scenario. Conclusion: Overall, the alpine meadow ecosystem in the QLB generally performs as a carbon sink at present and in the future. It is of great significance for the achievement of the goal of carbon neutrality and the management of alpine ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

42. Predicting the Potential Distribution of the Szechwan Rat Snake (Euprepiophis perlacea) and Its Response to Climate Change in the Yingjing Area of the Giant Panda National Park.

Author

Song, Xinqiang, Jiang, Ying, Zhao, Li, Jin, Long, Yan, Chengzhi, and Liao, Wenbo

Subjects

*GIANT panda, *NATIONAL parks & reserves, *BIOLOGICAL extinction, *ECOSYSTEM management, *BIODIVERSITY conservation, *CORRIDORS (Ecology), *WILDLIFE reintroduction

Abstract

Simple Summary: This study employs maxent models to investigate the impact of climate change on the potential distribution of the Szechwan rat snake (Euprepiophis perlacea) in the Yingjing Area of the Giant Panda National Park. The analysis reveals the significant effects of distance from the streams and slope of the geographic distribution of E. perlacea. Furthermore, this study indicates a non-significant reduction in the potential distribution area for the species by the 2050s, which is attributed to reduced anthropogenic activities and habitat fragmentation within the Yingjing Area of the Giant Panda National Park. These findings validate the development of conservation guidelines for E. perlacea. More research is needed to identify suitable protected areas and wildlife corridors for E. perlacea across its distribution regions, thus enhancing its conservation prospects. Climate change is a significant driver of changes in the distribution patterns of species and poses a threat to biodiversity, potentially resulting in species extinctions. Investigating the potential distribution of rare and endangered species is crucial for understanding their responses to climate change and for the conservation of biodiversity and ecosystem management. The Szechwan rat snake (Euprepiophis perlacea) is an endemic and endangered species co-distributed with giant pandas, and studying its potential distribution contributes to a better understanding of the distribution pattern of endangered species. In this study, we confirmed seven presence points of this species in the Yingjing Area of the Giant Panda National Park, and selected eleven key factors to predict the potential distribution of E. perlacea under current and future scenarios using MaxEnt models. Our study consistently achieved AUC values exceeding 0.79, meeting the precision requirements of the models. The results indicated that the high potential distribution area of E. perlacea is mainly located near Yunwu mountain and the giant panda rewilding and reintroduction base, accounting for approximately 12% of the protected area. Moreover, we identified the primary environmental factors influencing the distribution of E. perlacea as the distance from streams and the slope degree, with their contribution rates exceeding 41% and 31%, respectively. In comparison to the current scenario, the potential habitat range for E. perlacea did not show an overall reduction in the context of future climate scenarios. To ensure the long-term preservation of E. perlacea, it is advisable to validate its actual distribution based on the models' results. Particular attention should be given to safeguarding its core distribution areas and raising awareness among residents within the potential distribution range about the conservation of E. perlacea. [ABSTRACT FROM AUTHOR]

Published

2023

43. Double-stranded RNA prevents and cures infection by rust fungi.

Author

Degnan, Rebecca M., Shuey, Louise S., Radford-Smith, Julian, Gardiner, Donald M., Carroll, Bernard J., Mitter, Neena, McTaggart, Alistair R., and Sawyer, Anne

Subjects

*DOUBLE-stranded RNA, *RUST fungi, *ECOSYSTEM management, *FUNGAL genes, *PHYTOPATHOGENIC microorganisms, *RUST diseases, *STRIPE rust

Abstract

Fungal pathogens that impact perennial plants or natural ecosystems require management strategies beyond fungicides and breeding for resistance. Rust fungi, some of the most economically and environmentally important plant pathogens, have shown amenability to double-stranded RNA (dsRNA) mediated control. To date, dsRNA treatments have been applied prior to infection or together with the inoculum. Here we show that a dsRNA spray can effectively prevent and cure infection by Austropuccinia psidii (cause of myrtle rust) at different stages of the disease cycle. Significant reductions in disease coverage were observed in plants treated with dsRNA targeting essential fungal genes 48 h pre-infection through to 14 days post-infection. For curative treatments, improvements in plant health and photosynthetic capacity were seen 2–6 weeks post-infection. Two-photon microscopy suggests inhibitory activity of dsRNA on intercellular hyphae or haustoria. Our results show that dsRNA acts both preventively and curatively against myrtle rust disease, with treated plants recovering from severe infection. These findings have immediate potential in the management of the more than 10-year epidemic of myrtle rust in Australia. Double-stranded RNA acts both preventatively and curatively against myrtle rust disease in perennial plants. Spray treatment reduces disease coverage and improves long-term plant health, offering a solution to long-standing myrtle rust epidemics. [ABSTRACT FROM AUTHOR]

Published

2023

44. Land cover and management effects on ecosystem resistance to drought stress.

Author

Xiao, Chenwei, Zaehle, Sönke, Yang, Hui, Wigneron, Jean-Pierre, Schmullius, Christiane, and Bastos, Ana

Subjects

*DROUGHT management, *ECOSYSTEM management, *LAND cover, *DROUGHTS, *LAND management, *SEAWATER salinity, *LOGGING

Abstract

Drought events are projected to become more severe and frequent across many regions in the future, but their impacts will likely differ among ecosystems depending on their ability to maintain functioning during droughts, i.e., ecosystem resistance. Plant species have diverse strategies to cope with drought. As a result, divergent responses of different vegetation types for similar levels of drought severity have been observed. It remains unclear whether such divergence can be explained by different drought duration; co-occurring compounding effects, e.g., heat stress or memory effects; management practices; etc. Here, we provide a global synthesis of vegetation resistance to drought and heat using different proxies for vegetation condition, namely the vegetation optical depth (L-VOD) data from the ESA Soil Moisture and Ocean Salinity (SMOS) passive L-band microwave mission and enhanced vegetation index (EVI) and kernel normalized difference vegetation index (kNDVI) from NASA MODIS. Due to its longer wavelength, L-VOD has the advantage over more commonly used vegetation indices (such as kNDVI, EVI) in that it provides different information on vegetation structure and biomass and suffers from less saturation over dense forests. We apply a linear model accounting for drought and temperature effects to characterize ecosystem resistance by their sensitivity to drought duration and temperature anomalies. We analyze how ecosystem resistance varies with land cover across the globe and investigate the potential effects of forest management and crop irrigation. We compare estimates of ecosystem resistance to drought and heat as retrieved from L-VOD, kNDVI, and EVI products. We find that regions with higher forest fraction show stronger ecosystem resistance to extreme droughts than cropland for all three vegetation proxies. L-VOD indicates that primary forests tend to be more resistant to drought events than secondary forests when controlling for the differences in background climate, but this cannot be detected in EVI and kNDVI. The difference is possibly related to EVI and kNDVI saturation in dense forests. In tropical primary evergreen broadleaf forests, old-growth trees tend to be more resistant to drought than young trees from L-VOD and kNDVI. Irrigation increases the drought resistance of cropland substantially. Forest harvest decreases the drought resistance of forests. Our results suggest that ecosystem resistance can be better monitored using L-VOD in dense forests and highlight the role of forest cover, forest management, and irrigation in determining ecosystem resistance to droughts. [ABSTRACT FROM AUTHOR]

Published

2023

45. Herbaceous vegetation changes along a bush encroachment intensity gradient in a montane area.

Author

Stephen, Retselisitsoe J., Chatanga, Peter, Seleteng‐Kose, Lerato, Mapeshoane, Botle, and Marake, Makoala V.

Subjects

*VEGETATION dynamics, *RANGELANDS, *ECOSYSTEM management, *SPECIES diversity, *ARID regions, *HERBACEOUS plants, *REGRESSION analysis

Abstract

Although bush encroachment in rangelands is a widely reported phenomenon, particularly in the arid and semi‐arid regions of southern Africa, the knowledge of the impact of bush encroachment in montane rangelands is inadequate to support the sustainable management of these important ecosystems. This study assessed how herbaceous vegetation changes along a bush encroachment intensity gradient in the montane rangelands of Sehlabathebe in the Qacha's Nek District of Lesotho. Fifty 16 m2 vegetation plots were randomly selected on a bush‐encroached rangeland area. In each plot, bush species data, including canopy cover, richness, density and height, were recorded. The Braun‐Blanquet method was used to assess herbaceous vegetation. The data were analysed using regression analysis, correlation analysis and ordination. Forb and graminoids attributes (Shannon‐Wiener diversity, species richness, evenness and percentage cover) together with bush attributes (height, density, diversity, evenness, richness and cover %) were subjected to regression and ordination. Results revealed that bush cover was negatively correlated with both forb and graminoids vegetation cover. While forb species richness, evenness and Shannon‐Wiener diversity increased with an increase in bush encroachment intensity, graminoid species abundance and diversity decreased. Overall, bush encroachment negatively impacted the structure and composition of graminoids. This implies that bush encroachment compromises the condition of montane rangelands because graminoids contribute to grazable forage more than forbs in these montane ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

46. Substitutability of natural and human capitals: lessons from a simple exploratory model.

Author

Rieb, Jesse T., Robinson, Brian E., and Bennett, Elena M.

Subjects

*NATURAL capital, *HUMAN capital, *ECOSYSTEM management

Abstract

Most ecosystem services (ES) are co-produced, to varying degrees, by interactions between people and ecosystems. Although ES research has tended to emphasize the role of ecosystems, or natural capital, in ES provision, the need for a deeper understanding of the role of human-derived capitals, like technology, labour, and management, is increasingly being recognized. Understanding the capacity for, and limitations of, human-derived capitals to enhance or substitute for natural capital is important for environmental decision-making, especially for decisions about when to promote conservation of natural capital to provide ecosystem services and when to employ technological alternatives. From the perspective of long-term sustainable ecosystem management, such decisions are further complicated by dynamics and interactions between different types of capital. We created a simple simulation model to compare how different assumptions around the temporal dynamics and interactions between natural and human-derived capitals affect long-term outcomes of different management choices on ES provision. We found that the extent to which different capitals are substitutable in the long-term depends on how individual capitals change over time and how different capitals interact with each other, and that replicating the near-term function of natural capital does not necessarily mean human-derived capitals are a viable long-term substitute. With an understanding of the dynamics and interactions of natural and human-derived capitals, it is possible to determine general long-term ES management strategies that are more likely to produce the desired benefits. [ABSTRACT FROM AUTHOR]

Published

2023

47. Shouldering the burden: social-ecological scale mismatches in wetland ecosystem management in Aotearoa New Zealand.

Author

Bataille, C. Y., Malinen, S. K., and Lyver, P. O'B.

Subjects

*ECOSYSTEM management, *WETLAND management, *WETLANDS, *INDIGENOUS peoples, *ENVIRONMENTAL degradation, *CULTURAL pluralism

Abstract

Social-ecological mismatches in scale limit the recovery of ecosystems from environmental degradation, severely impacting the diverse groups who rely on them. Identifying scale mismatches across cultural groups provides insights into underlying social and structural inequities affecting the management, recovery, and use of natural ecosystems. It can also present pathways to remediate mismatches and inequities. Here, we investigated the nature of social-ecological scale mismatches reported by four actor groups (tangata tiaki (Māori environmental guardians), private landowners, Crown (i.e. State) agencies, and recreational gamebird hunters) associated with wetland ecosystems in Aotearoa New Zealand. We also sought to uncover the nature of burdens and benefits brought about by mismatches and whether these were reportedly shared by all groups. Spatial, temporal, and functional-conceptual scale mismatches enabled by Western-based governance (e.g. policies geared towards individual farm-scale rather than catchment-scale wetland management) were reported to undermine aspects of social, cultural, and environmental wellbeing (e.g. through reduced agency). Mismatches such as focus on short-term economic gain over long-term wetland ecosystem health were reported to hamper particularly Indigenous peoples' rights and responsibilities towards natural ecosystems. Equitable partnerships and nested governance are mechanisms within biocultural frameworks that can support self-determination by Indigenous peoples. Fostering cultural diversity by embracing value plurality and weaving diverse knowledge systems can improve social-ecological outcomes for both Indigenous and other actor groups. Social justice through equitable management and use of resources can then cascade to promote social-ecological wellbeing, thus benefitting both humans and other elements of nature. [ABSTRACT FROM AUTHOR]

Published

2023

48. Just Transition in Response to Climate Change: A Case Study of Trans-Altitude Migrant Resettlement on the Qinghai–Xizang Plateau.

Author

HUANG, Jihui, JIANG, Wei, CAO, Dongdong, and ZHAN, Yige

Subjects

*REFUGEE resettlement, *CLIMATE change, *ECOSYSTEM dynamics, *ECOSYSTEM management, *CIVIL service, *SUPPLY & demand, *SUSTAINABLE development

Abstract

As a measure toward a joint target of promoting residents' life, combating climate change, and protecting ecosystem in the Qinghai–Xizang Plateau, migrant resettlement has made a remarkable achievement not only in preserving the ecological environment and building climate barriers, but also in significantly upgrading the residents' life quality. Yet, it also faces a multitude of challenges, such as the issue of just transition, which concerns the international community. To promote a just transition, the primary challenge lies in addressing the imbalance between the supply and demand in the resettlement. This includes matching the supply of public services with the material needs related to production and residents' life, as well as the alignment between the residents' cultural and psychological identification and the grassroots services available. Using Maslow's hierarchy of needs as a theoretical framework, this paper examines just transition in migrant resettlement on the Qinghai–Xizang Plateau from a supply–demand perspective based on follow-up fieldwork, and argues that the local community has achieved significant progress in promoting just transition in terms of material security, spiritual needs, and self-development, but further efforts should still be made to improve just transition and ensure a more sustainable future. [ABSTRACT FROM AUTHOR]

Published

2023

49. La restauración socioecológica: Potencialidades del uso del enfoque de los sistemas socioecológicos y el marco analítico de sistemas de innovación social.

Author

HERNÁNDEZ, ROSA C. and RAMOS, PABLO A.

Abstract

This article emphasizes the importance of combining socioecological and social innovation approaches to enrich the emerging concept of socioecological restoration (SER). Through an integrative review of the literature, key elements of socioecological systems (SES) and social innovation frameworks (SIS) were identified to improve both the understanding and application of SER. Despite the recognition of SER as a complex approach to addressing contemporary ecological and social challenges, our review highlights that most traditional approaches to ecological restoration (ER) still focus on technical and ecological aspects, overlooking the involvement of social actors and sociocultural integration. Likewise, our analysis of the literature demonstrates that the socioecological perspective in SER, through SES, can significantly improve it by identifying essential components from both social and ecological dimensions. The early incorporation of these socioecological considerations prevents fragmentation and allows identification of synergies and challenges between communities and ecosystems. Similarly, the integration of the social innovation systems (SIS) framework drives change and facilitates the adoption of social innovations at various scales of socioecological systems (SES), thereby strengthening socioecological networks and shedding light on political and institutional limitations, the needs of social actors and the integration of diverse knowledge systems. This dynamic process of social participation reduces power asymmetries and reinforces the resilience of socioecological systems. The emerging redefinition of SER presented in this article merges the SES and SIS frameworks, moving toward a more comprehensive understanding of SER by considering interactions between natural and human systems. Ultimately, our findings underscore the urgent need to establish new analytical frameworks that deepen the integrated understanding of SES and SIS in SER planning, thus enriching both the theory and practice of ER by expanding the concept towards emerging integrative frameworks. [ABSTRACT FROM AUTHOR]

Published

2023

50. Seasonal and Interannual Variability in the Phenolic Content of the Seagrass Nanozostera noltei: Characterization of Suitable Candidates for the Monitoring of Seagrass Health.

Author

Grignon-Dubois, Micheline and Rezzonico, Bernadette

Subjects

*POSIDONIA, *ECOSYSTEM management, *SEAGRASSES, *ECOLOGICAL disturbances, *ZOSTERA marina, *ENVIRONMENTAL health, *SEASONS, *OZONE layer, *PHYTOCHEMICALS

Abstract

Developing early warning indicators to accurately detect ecosystem disturbances is vital for enhancing ecosystem management. The seasonal and interannual variability of the phenolic content of Nanozostera noltei from Arcachon Bay, France, was explored over 47 consecutive months to identify suitable early indicators of the state of seagrass beds. Five phenolic acid derivatives and eight flavonoids were fully characterized using chromatographic and spectroscopic techniques; a caffeic tetramer was described for the first time as a metabolite of N. noltei and of the genus Nanozostera. The individual phenolic concentrations in each of the 47 collections were determined by quantitative HPLC and analyzed as a function of year and season. The variability of the phenolic content in the rhizomes of N. noltei from Arcachon Bay was also determined over one year, as well as rhizomes of N. noltei from three other locations in the Atlantic and Mediterranean for comparison purposes. In addition, the phenolic fingerprints of Z. marina rhizomes were also characterized for the first time. The results show that leaf phenolic chemistry could be used to signify changes in the ecological health of N. noltei. In particular, it appears that diosmetin 7-sulfate, rosmarinic acid and zosteranoic acid could be reliable and easy-to-use indicators for monitoring N. noltei meadows. From a phytochemical point of view, this work is the first report of zosteranoic acid in the leaves and the rhizomes of N. noltei and in the rhizomes of Z. marina. [ABSTRACT FROM AUTHOR]

Published

2023