Your search keyword '"ecosystem integrity"' showing total 367 results

1. Evaluating the Sagebrush Conservation Design Strategy Through the Performance of a Sagebrush Indicator Species

Author

Prochazka, Brian G., Lundblad, Carl G., Doherty, Kevin E., O'Neil, Shawn T., Tull, John C., Abele, Steve C., Aldridge, Cameron L., and Coates, Peter S.

Published

2024

2. Assessment of the impact of benzene, toluene, ethylbenzene, and xylene (BTEX) on soil microbial population in selected areas of Port Harcourt City, Nigeria

Author

Wanjala, Paul Muyoma, Opoku, Boadu Kwasi, Ibisime, Etela, and Wafula, Eliud N

Published

2025

3. Surprisingly good fit of pressure-based cropland condition map and bird census data at the national scale

Author

Tanács, Eszter, Bede-Fazekas, Ákos, and Báldi, András

Published

2024

4. Large-scale forest protection: the successful case of the Kayapo people in the Brazilian Amazon.

Author

Garcia, Beatriz, Morgan, Edward A., Aruch, Matthew, Ferreira, Igor Richwin, Jerozolimski, Adriano, Mackey, Brendan, and Hugh, Sonia

Abstract

Forest conservation is essential for action on climate change and biodiversity loss. Forest loss and degradation are increasing around the world, including in the Amazon. It is widely reported that Indigenous communities can be effective in forest protection, but less attention has been paid to explaining how they are able to do this in the face of severe threats. This article investigates what can be learned from the success of the Kayapo Indigenous communities and their organizations in protecting more than nine million hectares of primary forest in one of the most highly degraded and deforested areas of the Brazilian Amazon. We use geographic information system analysis to demonstrate the extent of forest protection, along with field work to examine the crucial alliances with conservation NGOs from governance and planning perspectives. Our interdisciplinary analysis is guided by the three-pillar framework for integrated landscape management and is informed by interviews conducted with Indigenous and non-Indigenous staff working for the Kayapo NGOs. Based on this data and the experience of the Kayapo people, we identify the main factors that facilitated large-scale forest conservation. Our research also reveals that the work of the Kayapo NGOs aligns with the principles of strong governance and effective planning. Lastly, we discuss key lessons and critical considerations to ensure the continued viability and ongoing success of the Kayapo NGOs in achieving their objectives. [ABSTRACT FROM AUTHOR]

Published

2024

5. Plant and gastropod species richness across fragmented urban landscapes: Patterns and environmental drivers

Author

Tomáš Čejka, Tomáš Bacigál, Ivan Jarolímek, Michaela Michalková, and Mária Šibíková

Subjects

Urban forests, Ecosystem integrity, Fragmentation, Terrestrial biota, Ecology, QH540-549.5

Abstract

Understanding biota distribution and species richness patterns in fragmented urban environments is crucial for conservation and management.We surveyed 30 plots in a medium-sized European city to assess vascular plant and terrestrial gastropod species richness in isolated forest patches (IFP), connected forest patches (CFP), and continuous forest (CF), with 10 plots per category. Environmental drivers such as Ellenberg's indicator values, vegetation cover, coarse woody debris, litter, and directly measured microclimatic factors like temperature and humidity were examined.Significant differences among forest types were found in stand structural characteristics and environmental conditions. IFPs had higher soil pH, more woody debris, and more substantial litter accumulation, with higher temperatures and lower humidity than CF and CFPs, especially in early summer. CF and CFPs mitigated extreme temperatures, leaving IFPs more vulnerable. IFPs had the highest plant species richness, especially neophyte and archaeophyte species, while CF plots had fewer species, mainly of the Carpinion association, indicating more natural conditions. Gastropod species richness and densities were also highest in IFPs. GLMs identified the landscape category as the most significant predictor of species richness for plants and gastropods. Plant species composition varied significantly among forest types, notably for Carpinion and neophytes, whereas gastropod species composition remained consistent.These findings highlight the complex interplay between environmental factors, urbanisation, and species richness in urban forests. The study underscores the importance of landscape categories, ecological factors, and fragmentation in evaluating species richness patterns in urban and suburban forested areas using plants and gastropods as linked ecological indicators.

Published

2025

6. Understanding the changes induced by the incorporation of trees in low densities into livestock systems: relevance of a long-term interdisciplinary experimental platform.

Author

Fedrigo, Jean K., Benítez, Valentina, de Souza, Mauricio, Morales, Virginia, Piñeyro, Pedro, Viana, Víctor, Blumetto, Oscar, Cancela, Héctor, Bertoncelli, Patricia, Laufer, Gabriel, González-Barrios, Pablo, Siri, Paulina, Báez, Francisco, García, Luís, Ciganda, Verónica, Pravia, Virginia, and Viñoles, Carolina

Subjects

ECOLOGICAL integrity, BIOINDICATORS, ANIMAL ecology, SILVOPASTORAL systems, SUSTAINABLE agriculture

Abstract

The purpose of this work is to describe the creation process of the first long-term experimental platform designed for interdisciplinary studies of Silvopastoral Systems (SPS) in Uruguay and to highlight its relevance on filling knowledge gaps across different areas. This experiment involves professionals from diverse fields working together to generate knowledge for sustainable agriculture. The focus is on understanding long-term interactions in SPS, emphasizing native ecosystem conservation and increased agricultural productivity. Covering 30.24 ha, this experimental platform incorporates three treatments, implemented in a randomized complete block design with three replications: (1) a natural grassland without trees, (2) a two-row SPS with 160 tree/ha, and (3) a four-row SPS with 240 trees/ha. The platform's design involves the exploration of variables such as aboveground biomass and botanical composition, microclimate, silviculture, livestock performance, soil carbon dynamics, ecosystem integrity index, monitoring ecological indicators such as amphibian and spiders' diversity, optimizing modeling and economic benefit and social aspects. This platform will enable the analysis of changes resulting from the incorporation of trees at two different densities into livestock systems. Additionally, we aim to identify the best combination of activities to optimize the farmers income, considering the relevance of a positive impact on social aspects, such as increased demand of employment, adoption by farmers, and the interest of new generations. [ABSTRACT FROM AUTHOR]

Published

2024

7. An operational methodology to identify Critical Ecosystem Areas to help nations achieve the Kunming–Montreal Global Biodiversity Framework.

Author

Venegas‐Li, Ruben, Grantham, Hedley S., Rainey, Hugo, Diment, Alex, Tizard, Robert, and Watson, James E. M.

Subjects

*ECOLOGICAL integrity, *BIODIVERSITY conservation, *PROTECTED areas, *ECOSYSTEMS, *BIODIVERSITY

Abstract

The Kunming–Montreal Global Biodiversity Framework (GBF) will become the most important multilateral agreement to guide biodiversity conservation actions globally over the coming decades. An ecosystem goal and various targets for maintaining integrity, restoring degraded ecosystems, and achieving representation in conservation areas feature throughout the GBF. Here, we provide an operational framework that combines disparate information on ecosystem type, extent, integrity, protection levels, and risk of collapse to support identifying irreplaceable "Critical Ecosystem Areas" (CEAs), to help implement these ecosystem targets. The framework classifies each component ecosystem based on its integrity, importance in ensuring no ecosystem collapse, and relative value in achieving ecosystem‐specific representation targets. These CEAs are immediate conservation opportunities given that they achieve multiple ecosystem GBF goals and targets, and we showcase its application using Myanmar's forested ecosystems as a case study. [ABSTRACT FROM AUTHOR]

Published

2024

8. A systematic review of the role of terrestrial vertebrates in ecological integrity assessment

Author

Karen Lorena Velásquez-C, Octavio Pérez-Maqueo, Roger Guevara, Luis D. Verde Arregoitia, and Mariana Munguía-Carrara

Subjects

Ecosystem state, Faunistic indicator, Ecosystem health, Ecosystem integrity, Integrity index, Environmental sciences, GE1-350

Abstract

Natural systems face human pressures, demanding urgently Ecological Integrity (EI) assessments. EI assessments identify the state of an ecosystem through biotic and abiotic indicators. Fauna is a key element in the functioning of ecosystems, and therefore, their inclusion in the indicator stock may enhance EI evaluations. We conducted a systematic literature review to evaluate the use of terrestrial vertebrate-derived information as indicators of EI. Fifty-eight publications used information on terrestrial vertebrates as EI. Birds (39) were the group most frequently used as an indicator, followed by mammals (16), amphibians (5), and reptiles (3). Species composition was the most frequently evaluated element of EI, and community metrics such as richness, diversity, indicator species, and abundance stand out as the most frequently used for evaluating the relation of the EI to a terrestrial vertebrate group. The Index of Biological Integrity (IBI) and indices derived from it were the most frequently used to identify the state of integrity of an ecosystem using vertebrates. Few studies have developed a conceptual model that explains the causal relationship between EI and metrics associated with terrestrial vertebrates. EI assessments are a valuable tool for identifying the state of a system. However, it is necessary to complement them with faunal indicators that include various taxonomic groups. The inclusion of more than one taxonomic group would allow for the identification of changes at different levels and generate biological hypotheses of relationships between measurable variables at the faunal level and their incorporation into IE analysis.

Published

2024

9. Ecosystem Integrity Remote Sensing—Modelling and Service Tool—ESIS/Imalys.

Author

Selsam, Peter, Bumberger, Jan, Wellmann, Thilo, Pause, Marion, Gey, Ronny, Borg, Erik, and Lausch, Angela

Subjects

*ECOLOGICAL integrity, *REMOTE sensing, *LANDSCAPE assessment, *FRAGMENTED landscapes, *ZONE melting, *ENVIRONMENTAL indicators, *ECOSYSTEM services, *ECOSYSTEMS

Abstract

One of the greatest challenges of our time is monitoring the rapid environmental changes taking place worldwide at both local and global scales. This requires easy-to-use and ready-to-implement tools and services to monitor and quantify aspects of bio- and geodiversity change and the impact of land use intensification using freely available and global remotely sensed data, and to derive remotely sensed indicators. Currently, there are no services for quantifying both raster- and vector-based indicators in a "compact tool". Therefore, the main innovation of ESIS/Imalys is having a remote sensing (RS) tool that allows for RS data processing, data management, and continuous and discrete quantification and derivation of RS indicators in one tool. With the ESIS/Imalys project (Ecosystem Integrity Remote Sensing—Modelling and Service Tool), we try to present environmental indicators on a clearly defined and reproducible basis. The Imalys software library generates the RS indicators and remote sensing products defined for ESIS. This paper provides an overview of the functionality of the Imalys software library. An overview of the technical background of the implementation of the Imalys library, data formats and the user interfaces is given. Examples of RS-based indicators derived using the Imalys tool at pixel level and at zone level (vector level) are presented. Furthermore, the advantages and disadvantages of the Imalys tool are discussed in detail in order to better assess the value of Imalys for users and developers. The applicability of the indicators will be demonstrated through three ecological applications, namely: (1) monitoring landscape diversity, (2) monitoring landscape structure and landscape fragmentation, and (3) monitoring land use intensity and its impact on ecosystem functions. Despite the integration of large amounts of data, Imalys can run on any PC, as the processing and derivation of indicators has been greatly optimised. The Imalys source code is freely available and is hosted and maintained under an open source license. Complete documentation of all methods, functions and derived indicators can be found in the freely available Imalys manual. The user-friendliness of Imalys, despite the integration of a large amount of RS data, makes it another important tool for ecological research, modelling and application for the monitoring and derivation of ecosystem indicators from local to global scale. [ABSTRACT FROM AUTHOR]

Published

2024

10. Applying landscape-level principles to koala management in Australia: a comparative analysis.

Author

Schlagloth, Rolf, A. Morgan, Edward, Cadman, Timothy, Santamaria, Flavia, McGinnis, Gabrielle, Thomson, Hedley, Kerlin, Douglas H., Maraseni, Tek Narayan, Cahir, Fred, D. Clark, Ian, Clode, Danielle, and Mcewan, Alexandra

Subjects

*KOALA, *LANDSCAPE assessment, *COMPARATIVE studies, *POPULATION policy, *ECOLOGICAL integrity

Abstract

We provide a comparative analysis of two koala management plans for populations in two Australian municipalities, based on principles of landscape management: Ballarat (Victoria) and Bellingen (New South Wales). A landscape-based approach is required to protect the species, but evaluation of landscape management is limited. We present an assessment framework for evaluating local koala management plans. The plans are evaluated against a common set of principles and criteria, despite very different approaches stemming from context-specific factors. Interestingly, despite a variation in the number of indicators in the plans, the overall results of the evaluation demonstrate a similar level of performance against the criteria, and common strengths and weaknesses. In the absence of consistent standards for the protection of the koala across Australia, the species will continue to decline, and management practices will fail to protect the koala from extinction, as is currently predicted. [ABSTRACT FROM AUTHOR]

Published

2024

11. Evaluating forest landscape management for ecosystem integrity.

Author

Mackey, Brendan, Morgan, Edward, and Keith, Heather

Subjects

ECOLOGICAL integrity, FOREST management, CLIMATE change, LANDSCAPE assessment, ECOSYSTEMS

Abstract

Protecting forest ecosystems is a critical action for addressing both the climate and biodiversity crises. Effective long-term management of forests requires landscape approaches, but evaluating the management actions is a key challenge. Previous research has suggested evaluation should focus on three interrelated pillars: ecosystem integrity, effective planning, and strong governance. This paper presents a framework for evaluating ecosystem integrity based on the 'Principle, Criteria, Indicator and Verifier' (PCIV) method. The key principle used is ecosystem autopoiesis – the ability of a system for self-generation and maintenance by creating its own parts. Four key criteria are applied, accompanied by a set of nine indicators. Verifiers for each indicator are suggested for which feasible data sources are likely available. The use of the three-pillar framework, including ecosystem integrity, is illustrated using three hypothetical cases representing different forest landscape contexts. Such evaluation can provide practical, consistent, repeatable, and comparable information for stakeholders and decision makers. [ABSTRACT FROM AUTHOR]

Published

2024

12. Identifying the priority areas for ecological protection considering ecological connectivity and ecosystem integrity: A case study of Xianyang City, China

Author

Tong Gu, Yawen Tong, Shiyu Wang, Zheng You, Dingyi Li, Yun Jiang, Atiyyah Rafaqat, Cheng Wang, and Qingfeng Zhang

Subjects

Ecological protection, Ecological importance, Ecological networks, Ecosystem integrity, Medium-sized cities, Ecology, QH540-549.5

Abstract

Identifying ecological protection priority areas (EPPAs) in municipal areas is essential for accurate ecological restoration and ensuring sustainable regional development. Xianyang represents a typical medium-sized city that is currently grappling with the dual challenges of ecological restoration and urban development. This study employed a multi-criteria method to evaluate ecological importance, considering both ecosystem services and ecological vulnerability. Based on this, ecological corridors and pinch points that enhance ecological connectivity were delineated using the circuit theory. Subsequently, the integrity of ecosystems is assessed from structural and functional perspectives to ensure their health and stability. With the support of Geographic Information System (GIS) technology, the three important areas for ecological protection were integrated to designate EPPAs. The results showed that: (1) the extremely important area spans 1956.44 km2, primarily made up of forests and grasslands. (2) There were found to be 19 ecological sources, 26 ecological corridors, and 23 ecological pinch points. (3) With excellent ecosystem integrity, the region was dominated by eco-lands, which accounted for 2692.71 km2. (4) In the end, this study identified 3328.83 km2 of EPPAs, 32.65 % of the study area. These are primarily located in the northern mountains and major watersheds. Human activities are found as the most important factor for the overall spatial variations in the area. A multi-level framework was developed to establish a continuous, comprehensive, and systematic method for identifying EPPAs, thereby enhancing ecological restoration, protection, and the sustainable use of regional ecosystems.

Published

2024

13. Integrating ecosystem integrity and ES supply–demand process to explore ecological connectivity in Wuhan metropolitan area, China

Author

Yu Zhang, Weiyan Hu, Tian Liu, Fan Liu, Shixiang Li, and Siyu Zhang

Subjects

Ecosystem integrity, ES supply–demand process, Ecological connectivity, Wuhan Metropolitan area, Ecology, QH540-549.5

Abstract

Protecting ecosystem integrity and maintaining ecosystem service (ES) supply–demand process through ecological connectivity (EC) is crucial for achieving sustainable development of metropolitan area. Currently, EC research focuses more on the combination of protecting the ES supply and maintaining ecosystem integrity, and less on effectively meeting human needs. To bridge this gap, we integrated the theory of ES supply–demand process, connectivity research methods to form a demand-oriented EC research framework, and conducted empirical research on the Wuhan metropolitan area (WHA). Firstly, we evaluated the supply–demand matches status of the key four ESs; And then, from the aspects of flow quantity, flow direction, flow boundary, and allocation principles, the spatial process of ESs flow were decomposed, and the ecological sources that meet demand while supporting the ESs supply–demand process were identified; Finally, based on the comprehensive resistance surface, connected corridors and important strategic points that are crucial for ecological protection were extracted, and an EC network was constructed. The results were the following:(1) the supply and demand of the key ESs in the study area showed a significant spatial mismatch, especially for water conservation (WC) and carbon sequestration (CS); (2)55 ecological sources, 84 ecological corridors and 25 strategic points were identified, and a stable structurally EC network was constructed; (3) The ecological sources were also crucial for ESs supply while meeting human demand and supporting the spatial process of ESs supply–demand. This research is beneficial for deepening the understanding of the supply–demand status of ESs, and providing a support for ecological lands protection planning.

Published

2024

14. Forest ecosystem on the edge: Mapping forest fragmentation susceptibility in Tuchola Forest, Poland

Author

Sanjana Dutt, Amit Kumar Batar, Sławomir Sulik, and Mieczysław Kunz

Subjects

Forest fragmentation, Ecosystem integrity, Remote sensing, Susceptibility mapping, Wind storm, Ecology, QH540-549.5

Abstract

Forest ecosystems, vital for maintaining global biodiversity and ecological balance, are increasingly threatened by fragmentation. This study addresses the critical issue in the Tuchola Forest of Poland, examining the effects of natural and human factors on forest fragmentation. Our objective was to identify the most suitable dataset for monitoring forest fragmentation from 2015 to 2020, ascertain the primary drivers of fragmentation, and map the areas at high risk. Utilizing the PALSAR (25 m resolution) and Dynamic World (10 m resolution) datasets, we discovered PALSAR's enhanced ability to detect changes in forest structure, particularly evident after a significant windstorm in 2017. This dataset proved crucial in highlighting the escalating trend of forest fragmentation, reinforcing its importance for environmental monitoring and policy formulation. Our analysis identified key factors influencing fragmentation, such as proximity to croplands, tree height and age, wind speed, and vegetation water content, with areas near croplands and having younger, shorter trees being most susceptible. Employing a Weight-of-Evidence (WOE) Bayesian modeling technique, we mapped forest fragmentation susceptibility, demonstrating our methodology's effectiveness through high accuracy validation (AUC of 0.82 and Kappa Index of 0.68). Our innovative approach in mapping susceptibility to fragmentation, especially after extreme weather events, marks a pioneering contribution in Poland. This research advances the understanding of forest fragmentation dynamics and offers a scalable model for global application, emphasizing the urgent need for targeted conservation strategies to preserve the integrity of forest ecosystems amidst climatic risk and anthropogenic pressures.

Published

2024

15. Assessments and diagnoses of aquatic ecosystem integrity based on integrity requirements of ecosystem service targets.

Author

Hong-Zhu Wang

Subjects

*ECOLOGICAL integrity, *BODIES of water, *RESTORATION ecology, *POLYWATER, *ECOSYSTEM services, *ECOSYSTEM health

Abstract

This paper critically reviews the progress in ecosystem integrity (health) assessment of inland waters and provides future directions for assessment. Current biotic integrity assessments mainly use multimetric indices and predictive models to evaluate overall health status; the criteria largely rely on pristine reference sites, but such an approach is not applicable to unique natural waters and irreversibly modified waters. Biotic diagnostic assessments are still in the exploratory stage and can only diagnose possible stressor types and wide-ranges of their intensities through empirical models linking stressors and species-trait-indices. Current chemical integrity assessments mainly use criteria determined by small-scale ecotoxicity tests, rather than quantitative relationships developed between chemical factors and biotic effects in real ecosystems, thus potentially under or overestimating pollutant toxicity. Current physical integrity assessments focus on overall habitat quality, rather than quantitative habitat requirements, and thus cannot provide quantitative support for ecological restoration and conservation. Current hydrological integrity (environment flow) assessments largely depend on quantitative relationships between hydrological regimes with a few species and single groups, rather than with whole communities, and fail to comprehensively diagnose hydrological causes of biotic resource decline. In the future, integrity assessments need to be based on ecosystem integrity requirements of ecosystem service targets: first, there is a need to build quantitative relationships between biotic integrity and ecosystem services, assess requirements of community structure and function for service goals, and establish biotic integrity assessment methods; second, we must build quantitative relationships between biotic integrity and abiotic integrity in real ecosystems, assess chemical, physical, and hydrological integrity requirements of biotic needs, and establish diagnostic assessment methods. [ABSTRACT FROM AUTHOR]

Published

2024

16. Unraveling the potential of environmental DNA for deciphering recent advances in plant–animal interactions: a systematic review.

Author

Hassan, Shahnawaz, Sabreena, Ganiee, Shahid Ahmad, Yaseen, Aarif, Zaman, Muzafar, Shah, Abdul Jalil, and Ganai, Bashir Ahmad

Abstract

Main conclusion: Environmental DNA-based monitoring provides critical insights for enhancing our understanding of plant–animal interactions in the context of worldwide biodiversity decrease for developing a global framework for effective plant biodiversity conservation. To understand the ecology and evolutionary patterns of plant–animal interactions (PAI) and their pivotal roles in ecosystem functioning advances in molecular ecology tools such as Environmental DNA (eDNA) provide unprecedented research avenues. These methods being non-destructive in comparison to traditional biodiversity monitoring methods, enhance the discernment of ecosystem health, integrity, and complex interactions. This review intends to offer a systematic and critical appraisal of the prospective of eDNA for investigating PAI. The review thoroughly discusses and analyzes the recent reports (2015–2022) employing preferred reporting items for systematic reviews and meta-analyses (PRISMA) to outline the recent progression in eDNA approaches for elucidating PAI. The current review envisages that eDNA has a significant potential to monitor both plants and associated cohort of prospective pollinators (avian species and flowering plants, bees and plants, arthropods and plants, bats and plants, etc.). Furthermore, a brief description of the factors that influence the utility and interpretation of PAI eDNA is also presented. The review establishes that factors such as biotic and abiotic, primer selection and taxonomic resolution, and indeterminate spatio-temporal scales impact the availability and longevity of eDNA. The study also identified the limitations that influence PAI detection and suggested possible solutions for better execution of these molecular approaches. Overcoming these research caveats will augment the assortment of PAI analysis through eDNA that could be vital for ecosystem health and integrity. This review forms a critical guide and offers prominent insights for ecologists, environmental managers and researchers to assess and evaluate plant–animal interaction through environmental DNA. [ABSTRACT FROM AUTHOR]

Published

2023

17. Marine Mammals and Seabirds of Chilean Patagonia: Focal Species for the Conservation of Marine Ecosystems

Author

Hucke-Gaete, Rodrigo, Viddi, Francisco A., Simeone, Alejandro, Rezaei, Nima, Editor-in-Chief, Castilla, Juan Carlos, editor, Armesto Zamudio, Juan J., editor, Martínez-Harms, María José, editor, and Tecklin, David, editor

Published

2023

18. Do ecosystems have functions?

Author

Krohs, Ulrich and Zimmer, Martin

Subjects

*PHILOSOPHY of science, *ECOLOGICAL integrity, *ECOSYSTEMS

Abstract

'Ecosystem function' and 'ecosystem functioning' became core keywords in the ecological literature on ecosystems, their structure, development and integrity. We investigate functions from the perspective of causal contributions to higher capacities, as selected effects, as contributions to the stability and self‐maintenance of organisms and as type‐fixed effects. Based on an in‐depth discourse in philosophy of science, we conclude that ecosystems do not have functions in any sense that goes beyond a mere description of a causal contribution. We recommend the terms 'ecosystem function' and 'ecosystem functioning' be avoided in the ecological literature (and beyond). [ABSTRACT FROM AUTHOR]

Published

2023

19. Translocation of the epiphytic bromeliad Vriesea incurvata: an efficient tool for biodiversity restoration in the Atlantic Forest

Author

Márcio Hisayuki Sasamori, Delio Endres Júnior, Silvana Vargas do Amaral, and Annette Droste

Subjects

bromeliaceae, conservation, ecosystem integrity, population reinforcement, tropical rainforest., Environmental sciences, GE1-350

Abstract

Micropropagation of epiphytic bromeliads associated to translocation may act as an important tool for conservation, restauration or mitigation initiatives. Vriesea incurvata is an epiphytic tank-forming bromeliad endemic to the Atlantic Forest, being an important species in gallery forest environments. Seeds of V. incurvata were germinated in vitro, and plants were acclimatized and translocated to each of two microhabitats (gallery forest and forest interior) of an Atlantic Forest fragment in South Brazil that harbors few individuals of the species. The 152 plants (76 per microhabitat) were monitored for survival and development, and abiotic data were recorded. There was increased development of morphometric parameters of the plants in the gallery forest, and survival rate ensured an 800% increase in the original population of V. incurvata in the study area. Plant survival and development parameters were positively related to light and relative air humidity. In gallery forest, plants flowered and set fruit, indicating their relationship with pollinators, since V. incurvata provides food for fauna. Further, the establishment of the individuals increased the availability of water in the canopy by accumulation in the rosettes, as well as the complexity of the canopy structure, providing a site for the occurrence of detritivorous, predatory and herbivorous arthropods. Thus, based on the method applied to V. incurvata, inserting epiphytic species into forest environments can be an efficient tool for artificial habitat regeneration, incrementing functional diversity and improving environmental quality.

Published

2023

20. Ecosystem Services at the Farm Level—Overview, Synergies, Trade‐Offs, and Stakeholder Analysis.

Author

Morizet‐Davis, Jonathan, Marting Vidaurre, Nirvana A., Reinmuth, Evelyn, Rezaei‐Chiyaneh, Esmaeil, Schlecht, Valentin, Schmidt, Susanne, Singh, Kripal, Vargas‐Carpintero, Ricardo, Wagner, Moritz, and von Cossel, Moritz

Subjects

AGRICULTURE, AGRICULTURAL technology, ECOLOGICAL integrity, CROPS, SUSTAINABLE agriculture, INTERCROPPING, PRECISION farming

Abstract

The current geological epoch is characterized by anthropogenic activity that greatly impacts on natural ecosystems and their integrity. The complex networks of ecosystem services (ESs) are often ignored because the provision of natural resources, such as food and industrial crops, is mistakenly viewed as an independent process separate from ecosystems and ignoring the impacts on ecosystems. Recently, research has intensified on how to evaluate and manage ES to minimize environmental impacts, but it remains unclear how to balance anthropogenic activity and ecosystem integrity. This paper reviews the main ESs at farm level including provisioning, regulating, habitat, and cultural services. For these ESs, synergies are outlined and evaluated along with the respective practices (e.g., cover‐ and intercropping) and ES suppliers (e.g., pollinators and biocontrol agents). Further, several farm‐level ES trade‐offs are discussed along with a proposal for their evaluation. Finally, a framework for stakeholder approaches specific to farm‐level ES is put forward, along with an outlook on how existing precision agriculture technologies can be adapted for improved assessment of ES bundles. This is believed to provide a useful framework for both decision makers and stakeholders to facilitate the development of more sustainable and resilient farming systems. [ABSTRACT FROM AUTHOR]

Published

2023

21. Ecological integrity of whitebark pine ecosystems in California's national forests.

Author

Meyer, Marc D., Slaton, Michèle R., Gross, Shana E., Butz, Ramona J., and Clark, Carol

Subjects

*ECOLOGICAL integrity, *FOREST reserves, *MOUNTAIN pine beetle, *TREE mortality, *ECOSYSTEMS, *PINE

Abstract

Whitebark pine (Pinus albicaulis) forest ecosystems in California are diverse and unique, yet their current status and condition are uncertain. Using a combination of geospatial and field plot data, we assessed patterns in the structure, composition, and health of whitebark pine ecosystems on national forests throughout the state of California to evaluate potential signs of declining ecosystem integrity. We found whitebark pine ecosystems to be structurally, compositionally, and functionally distinct among subregions of California, and all subregions displayed some evidence of declining ecological integrity. Whitebark pine forests in northern California exhibited signs of greater stand densification (Cascade–Klamath), potential encroachment by shade-tolerant conifer species (Cascade–Klamath and Warner Mountains), and increased tree mortality associated with mountain pine beetle outbreaks (Warner Mountains) than elsewhere in California. Whitebark pine stands in the Sierra Nevada showed signs of stand densification (central Sierra) and localized mountain pine beetle outbreaks (southern Sierra east). Notwithstanding these negative signs, much of the state's whitebark pine ecosystems on national forestlands appear to be relatively healthy and intact compared to more northern latitudes. Active management may be required to restore whitebark pine ecosystems on national forests in California with declining integrity, including stands experiencing substantial stand densification, encroachment by shade-tolerant conifers, and mountain pine beetle outbreaks. [ABSTRACT FROM AUTHOR]

Published

2023

22. Ecosystem Services at the Farm Level—Overview, Synergies, Trade‐Offs, and Stakeholder Analysis

Author

Jonathan Morizet‐Davis, Nirvana A. Marting Vidaurre, Evelyn Reinmuth, Esmaeil Rezaei‐Chiyaneh, Valentin Schlecht, Susanne Schmidt, Kripal Singh, Ricardo Vargas‐Carpintero, Moritz Wagner, and Moritz vonCossel

Subjects

agricultural production, digital farming, ecosystem integrity, resilience, sustainable production and consumption, Technology, Environmental sciences, GE1-350

Abstract

Abstract The current geological epoch is characterized by anthropogenic activity that greatly impacts on natural ecosystems and their integrity. The complex networks of ecosystem services (ESs) are often ignored because the provision of natural resources, such as food and industrial crops, is mistakenly viewed as an independent process separate from ecosystems and ignoring the impacts on ecosystems. Recently, research has intensified on how to evaluate and manage ES to minimize environmental impacts, but it remains unclear how to balance anthropogenic activity and ecosystem integrity. This paper reviews the main ESs at farm level including provisioning, regulating, habitat, and cultural services. For these ESs, synergies are outlined and evaluated along with the respective practices (e.g., cover‐ and intercropping) and ES suppliers (e.g., pollinators and biocontrol agents). Further, several farm‐level ES trade‐offs are discussed along with a proposal for their evaluation. Finally, a framework for stakeholder approaches specific to farm‐level ES is put forward, along with an outlook on how existing precision agriculture technologies can be adapted for improved assessment of ES bundles. This is believed to provide a useful framework for both decision makers and stakeholders to facilitate the development of more sustainable and resilient farming systems.

Published

2023

23. Ecosystem integrity of active sand dunes: A case study to implement and test the SEEA-EA global standard, from Aotearoa New Zealand

Author

Cate Ryan, Bradley S. Case, Craig D. Bishop, and Hannah L. Buckley

Subjects

Indicators, Monitoring, Ecosystem integrity, Condition, Extent, Sand dunes, Ecology, QH540-549.5

Abstract

Biodiversity and ecosystem functions are deteriorating worldwide, and there is an urgent need to reverse these declines and set ecosystems on a path to recovery. Effective monitoring, including a fit for purpose indicator framework, is essential to track progress towards targets but, as yet there is no universal framework that delivers timely data on biodiversity and ecosystem change. Ecosystem integrity is a unifying concept that refers to the capacity of an ecosystem to be resilient to natural or anthropogenic perturbations, and to maintain characteristic species composition, structure, functioning and self-organisation over time within a natural range of variability. Using a case study which can be generalised to international contexts, we implement and test a new global standard for the assessment, monitoring and ranking of ecosystem integrity of active sand dunes in Aotearoa New Zealand.

Published

2023

24. Exploring the impact of multiple stressors on cultural and ecological values: A case study from Te Rerenga Parāoa (Whangārei Harbour), Aotearoa New Zealand.

Author

Parsons, D.M., Shirkey, T., Chetham, J., Milner, D., and Bulmer, R.H.

Subjects

CULTURAL values, LAND degradation, ESTUARINE ecology, ECOLOGICAL integrity, ENVIRONMENTAL degradation

Abstract

Estuarine systems often have degraded ecology and functioning due to the multiple interacting stressors that they face. While conventional management might address such a situation with narrow focus, ecosystem based management provides a more holistic and adaptive option allowing for multiple objectives and values. Such an approach has some commonality with that of the Indigenous Māori of New Zealand, who have holistic, interconnected and intergenerational aspirations. In this study we utilised Te-Rerenga-Parāoa, Whangārei Harbour, Aotearoa New Zealand as a case study to explore how ecological and Māori knowledge systems and approaches may align to address complex multi-stressor and multi-value scenarios common to estuarine systems. To achieve this we co-developed a Bayesian network heuristic modelling tool which provided a probabilistic framework to consider the relationship between stressors and the outcome states for ecological function and cultural values. The process of model development itself was a rewarding exercise of joint learning. For example, this process illustrated that while western ecological values can focus on endpoints such as abundance, cultural values were more diverse, experiential in nature, with value often centred on a cultural practise being enabled, not just the ecological component the value was connected to. Once the model was developed we considered three specific scenarios relating to harbour dredging, environmental degradation from land use changes, and fishery extraction. Model predictions for these scenarios generally matched expectations, but were generic in nature and could therefore benefit from more specificity relating to aspects such as spatial scale and context around cultural interpretation. Overall, the model demonstrated generic utility as an interactive educational tool for resource managers considering the broader impacts (on ecology and cultural values) of major societal challenges. [ABSTRACT FROM AUTHOR]

Published

2024

25. Seed Dispersal by an Invasive Exotic Bird in Europe.

Author

Pereira, Pedro Filipe, Godinho, Carlos, Lopes, Cláudia, and Lourenço, Rui

Abstract

Native birds play a critical role in seed dispersal. The introduction of a new species may result in unpredictable effects on an ecosystem, namely in terms of seed dispersal. The Red-billed Leiothrix Leiothrix lutea is a frugivorous species native to Asia, whose potential role as seed disperser has not yet been analysed in its introduced range in Europe. We compared the role of Leiothrix with that of Eurasian Blackcap Sylvia atricapilla and European Robin Erithacus rubecula, which are among the native species with seed dispersal roles in Europe. We compared seed expelling behaviour among species (defecation or regurgitation of seeds), which can potentially shape seed dispersal, depending on whether the seeds germinate following expulsion. Field work was conducted in Central Portugal between November 2014 and January 2015 and included bird captures to collect faecal samples, followed by faecal analysis to check for the presence of seeds. We also surveyed plant species abundance and fruit availability in the study site. The feeding and seed defecation behaviour of Leiothrix closely matched that of Robins, as most individuals of both species consumed fruits without ingesting seeds and their faeces mainly contained plant material and few seeds. On the contrary, more than half of Blackcap faeces contained seeds. All three species ate similar plant species. Although Leiothrix faeces indicate that this species primarily eats fruits without ingesting seeds; a small fraction of faeces samples (c. 13%) contained seeds. Our results suggest that Leiothrix has low potential to be a seed disperser in Central Portugal and probably elsewhere. [ABSTRACT FROM AUTHOR]

Published

2022

26. Setting thresholds of ecosystem structure and function to protect streams of the Brazilian savanna

Author

Camila Aida Campos, Alan M. Tonin, Mark J. Kennard, and José Francisco Gonçalves Júnior

Subjects

ecosystem integrity, boosted regression tree, ecological metrics, freshwater management, monitoring programs, Environmental sciences, GE1-350

Abstract

Freshwater environments are among the most threatened by human activities, consequently, their ecosystem structures and functions are targets of significant transformations. It makes monitoring an essential tool in the management of these environments. Ecological metrics have been proven to be effective in monitoring programs aimed at assessing freshwater ecosystem integrity. Structural and functional aspects of the ecosystem may allow for a comprehensive view of the multiple human impacts that occur at different scales. However, a gap in the effective use of such ecological tools lies in the identification of the relative importance of different mechanisms that cause impacts and the interactions between them. Using Boosted Regression Tree (BRT) models, we evaluated the relative importance of natural and human impact factors, from local to catchment scales, on metrics related to diatom and macroinvertebrate assemblages and ecosystem processes. The study was carried out in 52 stream reaches of the Brazilian savanna in central Brazil. Conductivity was the most relevant factor to explain the variation of ecological metrics. In general, macroinvertebrate metrics and algal biomass production responded to both water quality and land use factors, while metrics of diatoms and microbial biomass responded more strongly to water quality variables. The nonlinear responses allowed the detection of gradual or abrupt-changes curves, indicating potential thresholds of important drivers, like conductivity (100–200 µS cm−1), phosphate (0.5 mg L−1) and catchment-scale urbanization (10–20%). Considering the best performance models and the ability to respond rather to stress than to natural factors, the potential bioindicators identified in the study area were the macroinvertebrates abundance, the percentage of group Ephemeroptera/Plecoptera/Trichoptera abundance, the percentage of group Oligochaeta/Hirudinea abundance, the percentage of genus Eunotia abundance, the Trophic Diatom Index and the algal biomass production. The results reinforced the importance of consider in the national monitoring guidelines validated ecological thresholds. Thus, maintaining the balance of aquatic ecosystems may finally be on the way to being achieved.

Published

2022

27. Climate Change and Ecosystem Services in Bulgaria, or What We Lose When We Win

Author

Bratanova-Doncheva, Svetla, Gocheva, Kremena, Koutsopoulos, Kostis, Series Editor, Miguel González, Rafael de, Series Editor, Schmeinck, Daniela, Series Editor, Nedkov, Stoyan, editor, Zhelezov, Georgi, editor, Ilieva, Nadezhda, editor, Nikolova, Mariyana, editor, Koulov, Boian, editor, Naydenov, Kliment, editor, and Dimitrov, Steliyan, editor

Published

2020

28. Poverty and Its Relation to Crime and the Environment: Applying Spatial Data Mining to Enhance Evidence-Based Policy

Author

Stephens, Christopher R., López-Corona, Oliver, Ruíz, Ricardo David, Santana, Walter Martínez, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Hassanien, Aboul Ella, editor, Azar, Ahmad Taher, editor, Gaber, Tarek, editor, Bhatnagar, Roheet, editor, and F. Tolba, Mohamed, editor

Published

2020

29. Remote Sensing of Geomorphodiversity Linked to Biodiversity—Part III: Traits, Processes and Remote Sensing Characteristics.

Author

Lausch, Angela, Schaepman, Michael E., Skidmore, Andrew K., Catana, Eusebiu, Bannehr, Lutz, Bastian, Olaf, Borg, Erik, Bumberger, Jan, Dietrich, Peter, Glässer, Cornelia, Hacker, Jorg M., Höfer, Rene, Jagdhuber, Thomas, Jany, Sven, Jung, András, Karnieli, Arnon, Klenke, Reinhard, Kirsten, Toralf, Ködel, Uta, and Kresse, Wolfgang

Subjects

*REMOTE sensing, *ECOLOGICAL integrity, *SCIENTIFIC computing, *BIODIVERSITY

Abstract

Remote sensing (RS) enables a cost-effective, extensive, continuous and standardized monitoring of traits and trait variations of geomorphology and its processes, from the local to the continental scale. To implement and better understand RS techniques and the spectral indicators derived from them in the monitoring of geomorphology, this paper presents a new perspective for the definition and recording of five characteristics of geomorphodiversity with RS, namely: geomorphic genesis diversity, geomorphic trait diversity, geomorphic structural diversity, geomorphic taxonomic diversity, and geomorphic functional diversity. In this respect, geomorphic trait diversity is the cornerstone and is essential for recording the other four characteristics using RS technologies. All five characteristics are discussed in detail in this paper and reinforced with numerous examples from various RS technologies. Methods for classifying the five characteristics of geomorphodiversity using RS, as well as the constraints of monitoring the diversity of geomorphology using RS, are discussed. RS-aided techniques that can be used for monitoring geomorphodiversity in regimes with changing land-use intensity are presented. Further, new approaches of geomorphic traits that enable the monitoring of geomorphodiversity through the valorisation of RS data from multiple missions are discussed as well as the ecosystem integrity approach. Likewise, the approach of monitoring the five characteristics of geomorphodiversity recording with RS is discussed, as are existing approaches for recording spectral geomorhic traits/ trait variation approach and indicators, along with approaches for assessing geomorphodiversity. It is shown that there is no comparable approach with which to define and record the five characteristics of geomorphodiversity using only RS data in the literature. Finally, the importance of the digitization process and the use of data science for research in the field of geomorphology in the 21st century is elucidated and discussed. [ABSTRACT FROM AUTHOR]

Published

2022

30. Ecosystem Integrity Remote Sensing—Modelling and Service Tool—ESIS/Imalys

Author

Guo, Qinghua, Selsam, Peter, Bumberger, Jan, Wellmann, Thilo, Pause, Marion, Gey, Ronny, Borg, Erik, Lausch, Angela, Guo, Qinghua, Selsam, Peter, Bumberger, Jan, Wellmann, Thilo, Pause, Marion, Gey, Ronny, Borg, Erik, and Lausch, Angela

Abstract

One of the greatest challenges of our time is monitoring the rapid environmental changes taking place worldwide at both local and global scales. This requires easy-to-use and ready-to-implement tools and services to monitor and quantify aspects of bio- and geodiversity change and the impact of land use intensification using freely available and global remotely sensed data, and to derive remotely sensed indicators. Currently, there are no services for quantifying both raster- and vector-based indicators in a “compact tool”. Therefore, the main innovation of ESIS/Imalys is having a remote sensing (RS) tool that allows for RS data processing, data management, and continuous and discrete quantification and derivation of RS indicators in one tool. With the ESIS/Imalys project (Ecosystem Integrity Remote Sensing—Modelling and Service Tool), we try to present environmental indicators on a clearly defined and reproducible basis. The Imalys software library generates the RS indicators and remote sensing products defined for ESIS. This paper provides an overview of the functionality of the Imalys software library. An overview of the technical background of the implementation of the Imalys library, data formats and the user interfaces is given. Examples of RS-based indicators derived using the Imalys tool at pixel level and at zone level (vector level) are presented. Furthermore, the advantages and disadvantages of the Imalys tool are discussed in detail in order to better assess the value of Imalys for users and developers. The applicability of the indicators will be demonstrated through three ecological applications, namely: (1) monitoring landscape diversity, (2) monitoring landscape structure and landscape fragmentation, and (3) monitoring land use intensity and its impact on ecosystem functions. Despite the integration of large amounts of data, Imalys can run on any PC, as the processing and derivation of indicators has been greatly optimised. The Imalys source code is fr, Peer Reviewed

Published

2024

31. Effect of Prescribed Fire on Soil Permeability in a Neotropical Savanna

Author

de Souza Almeida, Frederico Piontkowski and Salemi, Luiz Felippe

Published

2023

32. Risk assessment for marine ecosystem‐based management (EBM).

Author

Clark, Dana E., Gladstone‐Gallagher, Rebecca V., Hewitt, Judi E., Stephenson, Fabrice, and Ellis, Joanne I.

Subjects

*RISK assessment, *ECOLOGICAL integrity, *BAYESIAN analysis, *TRADITIONAL knowledge

Abstract

Ecosystem‐based management (EBM) is a holistic way to manage the marine environment, involving partnerships between people and the recognition of ecological complexity. As we progress towards EBM, risk assessments must move beyond an evaluation of the direct impacts of a single stressor on a species or habitat. Here, we propose 12 risk assessment criteria that explicitly reflect the principles of EBM. These criteria include the need to assess risk to multiple ecosystem components and values, evaluate place and time‐specific ecological complexity, evaluate recovery, accommodate different knowledge types and communicate uncertainty. Contemporary risk assessment approaches rarely meet all 12 criteria and whilst many approaches could be adapted to do so, some are more easily modified than others. Risk assessment approaches that meet our criteria have the greatest potential to support decision‐making in an EBM context and thereby safeguard our marine environments and their values for future generations. [ABSTRACT FROM AUTHOR]

Published

2022

33. Indicator Framework for Monitoring Ecosystem Integrity of Coral Reefs in the Western Caribbean.

Author

Carrillo-García, Diana Margarita and Kolb, Melanie

Abstract

Ecosystem monitoring is a key priority for evaluating ecosystem conditions, but high costs, especially with regard to marine ecosystems, hamper its large-scale implementation. Despite a wide range of monitoring programs for tropical coral reefs, it has not been possible to establish a minimum set of the most relevant metrics. This leads to heterogeneous methods, the collection of different metrics that are difficult to compare and lengthy, time- and money-consuming surveys. In the present study, we use ecosystem integrity as an underlying conceptual framework to establish a minimum set of metrics for evaluating the ecosystem condition of Caribbean coral reefs. We reviewed ten existing monitoring protocols for their conceptual framework, metrics used, their reference ranges and sampling methods and documented the ecological relevance of indicators, as reported in the literature. Of the 64 in situ metrics, 15 with high ecological relevance were selected as a minimum set, covering aspects of composition (Hill numbers for corals and fish), structure (coral, red algae, macroalgae and filamentous algae cover, topographic complexity, and habitat extent) and function (recruit density, disease and bleaching incidence, fish biomass, and filamentous and macroalgae height) of coral reefs across a range of ecological scales. Besides the lack of underlying conceptual frameworks and reference levels for specific regions in existing monitoring protocols, landscape scale and connectivity metrics are also missing, producing negative impacts on indicator interpretation. The presented indicator framework constitutes a valuable guideline, as it documents the most relevant metrics for ecosystem condition, considering composition, structure, and function. [ABSTRACT FROM AUTHOR]

Published

2022

34. ASSESSING GALLERY FOREST ECOSYSTEMS - CASE STUDY OF THE PAJEÚ GALLERY FOREST

Author

Jarcilene Silva de Almeida, Juan Pablo Martínez Zavaleta, Samantha Dávalos Segura, Sabrina Côté, Constance Marty, and Lígia Gomes Ferreira de Souza

Subjects

soil seed bank, tropical dry forest, seedlings recruitment, ecosystem integrity, gallery forest quality index, Environmental sciences, GE1-350

Abstract

There is a lack of basic information about the Caatinga gallery forests. The aim of the study was to obtain basic information of the Pajeú gallery forest (Pernambuco, Brazil) and offer different ways to restore and conserve it. A characterization of the conservation status and its seed bank was made. The characterization was done using a quality index (QBR index) and an evaluation of land use through satellite images. Research was then conducted on the native plants of the Caatinga riparian forests in order to test active restoration methods in the field. To do so, a multi-criterion analysis was constructed and included all tree and shrub species based on previous local researches and found in literature. After this analysis, some species were grown in a plant nursery to test their germination, survival and growth rates for different soils and irrigation frequencies. Finally, transplantation in the gallery forest was evaluated by observing survival and growth rates of different native species that were directly planted in the forest. Our results show that the global QBR was 43.73 and that 73% of lands had either an insufficient (64%) or bad (9%) quality. However, some areas maintained a high biodiversity. We observed 23,651 seed germinations from the seed bank, where most germinations (53%) came from preserved site. Soils collected during the dry season also offered more seedlings (60%) than their rainy season counterparts (40%). As for active restoration, it was observed that some plants are better suited for tree nurseries and transplantation such as Sapindus saponaria, Vitex gardneriana, Celtis iguanaea and that by selecting the correct plants and techniques, the ecosystem can be restored. There is still a long way to restore Pajeú’s gallery forest. But studies like this are essential to increase knowledge of the ecosystem. This study could serve as a reference to design anagement/restoration strategies, prioritize actions and develop public policies that ensure integrity and long-term conservation of the ecosystem and their functions.

Published

2020

35. Modeling of Forest Ecosystem Degradation Due to Anthropogenic Stress: The Case of Rohingya Influx into the Cox's Bazar--Teknaf Peninsula of Bangladesh.

Author

Hasan, Mohammad Emran, Li Zhang, Mahmood, Riffat, Huadong Guo, and Guoqing Li

Subjects

FOREST degradation, FORESTS & forestry, ECOSYSTEMS, ECOLOGICAL integrity, REMOTE sensing, ROHINGYA (Burmese people)

Abstract

Overdependence and cumulative anthropogenic stresses have caused world forests to decrease at an unprecedented rate, especially in Southeast Asia. The Cox's Bazar--Teknaf Peninsula of Bangladesh is not an exception and follows the global deforestation trend. Despite being one of the country's richest forest ecosystems with multiple wildlife sanctuaries, reserve forests, and influential wildlife habitats, the peninsula is now providing shelter for nearly one million Rohingya refugees. With the global deforestation trend coupled with excessive anthropogenic stresses from the Rohingya population, the forests in the peninsula are continuously deteriorating in terms of quality and integrity. In response to deforestation, the government invested in conservation efforts through afforestation and restoration programs, although the peninsula faced a refugee crisis in August 2017. The impact of this sudden increase in population on the forest ecosystem is large and has raised questions and contradictions between the government's conservation efforts and the humanitarian response. Relocation of the refugees seems to be a lengthy process and the forest ecosystem integrity needs to be preserved; therefore, the degree of stresses, level of impacts, and pattern of deforestation are crucial information for forest conservation and protection strategies. However, there are a lack of quantitative analyses on how the forest ecosystem is deteriorating and what future results would be in both space and time. In this study, the impact of the sudden humanitarian crisis (i.e., Rohingya refugees) as anthropogenic stress in Cox's Bazar--Teknaf peninsula has been spatiotemporally modeled and assessed using Sentinel-2 satellite imagery and other collateral data. Using the density and accessibility of the Rohingya population along with the land cover and other physiographic data, a multi-criteria evaluation (MCE) technique was applied through the Markov cellular automata technique to model the forest vegetation status. The impact of deforestation differs in cost due to variability of the forest vegetation covers. The study, therefore, developed and adopted three indices for assessment of the forest ecosystem based on the variability and weight of the forest cover loss. The spatial severity of impact (SSI) index revealed that out of 5415 ha of total degraded forest lands, 650 ha area would have the highest cost from 2017 to 2027. In the case of the ecosystem integrity (EI) index, a rapid decline in ecosystem integrity in the peninsula was observed as the integrity value fell to 1190 ha (2019) from 1340 ha (2017). The integrity is expected to further decline to 740 ha by 2027, if the stress persists in a similar fashion. Finally, the findings of ecosystem integrity depletion (EID) elucidated areas of 540 and 544 hectares that had a severe EID score of ( [ABSTRACT FROM AUTHOR]

Published

2021

36. Selection criteria for ecosystem condition indicators

Author

Bálint Czúcz, Heather Keith, Joachim Maes, Amanda Driver, Bethanna Jackson, Emily Nicholson, Márton Kiss, and Carl Obst

Subjects

Ecological state, Ecosystem integrity, Indicator validity, Indicator development, Ecosystem accounting, SEEA EA, Ecology, QH540-549.5

Abstract

The UN System of Environmental-Economic Accounting Ecosystem Accounting (SEEA EA) aims at regular and standardised stocktaking of the extent of ecosystems, their condition, and the services they provide to society. Recording the condition of ecosystems is one of the most complex pieces in this exercise and needs to be supported by consistent guidelines. SEEA EA defines the condition of an ecosystem as its overall quality, measured in terms of quantitative metrics describing its abiotic and biotic characteristics. One of the key challenges lies in identifying the most appropriate metrics for each ecosystem type that capture these essential characteristics.The objective of this paper is to create a well-defined framework for transparent and operative development of ecosystem condition indicators, which can be used in ecosystem accounting and ecosystem assessment studies. Starting from the SEEA EA documentation and a small targeted systematic review, we identified 12 key criteria, which we grouped according to their roles during the indicator development process. Five conceptual criteria (intrinsic relevance, instrumental relevance, sensitivity, directional meaning, and framework conformity) outline the priorities for identifying relevant characteristics of the ecosystems. Five practical criteria (validity, reliability, availability, simplicity, and compatibility) provide guidance on identifying concrete quantitative metrics for the selected characteristics. Finally, two ensemble criteria (comprehensiveness, and parsimony) ensure the completeness and complementarity of the final set of metrics.To tackle the climate and biodiversity crises, the condition of ecosystems needs to be better recognized in national economic planning. The proposed framework supports the selection of a concise set of salient and credible ecosystem condition indicators through a transparent, repeatable and scientific process. This can make the compilation of ecosystem condition accounts more accessible and more standardised on a global level, which is a key prerequisite for the success of SEEA EA. Additionally, the framework presented in this paper may be useful in other contexts where ecological, environmental, or sustainability indicators need to be identified.

Published

2021

37. Integrating forest management across the landscape: a three pillar framework.

Author

Morgan, Edward A., Cadman, Tim, and Mackey, Brendan

Subjects

*FOREST management, *FORESTS & forestry, *ECOLOGICAL integrity, *LANDSCAPES, *LAND use, *ECOSYSTEMS

Abstract

Forests are vital ecosystems on a global, regional and local scale, but are under threat from a variety of competing land uses. Integrated landscape approaches have been proposed as a way to create sustainable land use for forests and forest communities through a more integrated, holistic approach to governing resources. A variety of principles for managing landscapes have been proposed as a framework for implementation, but these landscape approaches suffer from a limited theoretical and conceptual basis. This paper seeks to address such shortcomings by identifying and integrating the theoretical components of landscape approaches into a common framework. The paper analyses landscape disciplines, practices and activities and the implementation of common landscapelevel principles in the context of forest landscapes to identify the underlying key components. The paper argues that management across a forest landscape must be underpinned by three pillars: ecosystem integrity, strong governance systems and effective planning processes. [ABSTRACT FROM AUTHOR]

Published

2021

38. Modelling of soil characteristics as basis for projections of potential future forest ecosystem development under climate change and atmospheric nitrogen deposition.

Author

Schlutow, Angela, Schröder, Winfried, Jenssen, Martin, and Nickel, Stefan

Subjects

ATMOSPHERIC deposition, CLIMATE change, ATMOSPHERIC nitrogen, ACID deposition, SOIL biology, FOREST soils, SOILS

Abstract

Background: The EU Biodiversity Strategy to 2020 foresees that Member States assess conditions and potential developments of ecosystems under climate change and atmospheric nitrogen deposition. This combination of environmental impacts has never been modelled for the German territory before. Therefore, the aim of the presented dynamic modelling of soil parameters under the influence of changing atmospheric nitrogen deposition with simultaneous climate change at representative sites in Germany was to derive knowledge about the expected development of ecosystem conditions up to a possible change of the respective site-specific current ecosystem type. The dynamic modelling was performed with the Very Simple Dynamic soil model. The selection of 15 modelling sites regarded the availability of data from environmental monitoring programmes routinely operated by public institutions and the aptitude of data for parametrising the soil model. The most important input data are time series of nitrogen and acid deposition as well as time series of the relevant climatic-ecological parameters. The simulation period covered the years 1920–2070. Results: There are no continuous linear correlations between the level of acidifying or eutrophying inputs and the course of soil parameter values. The step-like courses result from the resilience of the ecosystems within certain parameter ranges. Atmospheric nitrogen deposition has led to nitrogen saturation at 14 of 15 sites selected for modelling. Currently, no linear (negative) correlation between nitrogen deposition and carbon/nitrogen ratio could be established at these sites any more. An increase in the N-content in the soil was only slight, if at all. On the other hand, the nitrate concentration in the leachate increases in correlation to the N deposition. A clear (negative) correlation was found for the dependence of the C/N ratio on the temperature development in connection with climate change. The predicted air temperature rise until 2070 will also cause a decrease of the carbon content in the future, caused by the increasing activity of decomposing soil organisms. Thus, the drastic decrease of the C/N ratio at all of the study sites is due to the significant decrease in the C content. The validation shows that the dynamic modelling of abiotic site parameters has delivered plausible results at the investigated sites. The applicability of the results could be demonstrated. Thus, the evaluation of the time series of soil and climate parameters resulted in forest ecosystem types that are capable of self-regeneration in the future under the conditions of air pollutant inputs and climate change. Conclusions: The dynamic modelling of soil parameters under the influence of atmospheric nitrogen deposition and of climate change enables to transparently rank the potential development of ecosystem conditions up to a possible extinction of the current ecosystem type. Thus, the soil modelling approach presented contributes to the implementation of the European Biodiversity Strategy. [ABSTRACT FROM AUTHOR]

Published

2021

39. To Act or not to Act Białowieża Forest under Conflicting Ecological Paradigms

Author

Klaus von Gadow, Chris J. Cieszewski, and John A. Kershaw Jr.

Subjects

białowieża, ecosystem integrity, bark beetle, nature conservation, landscape model, Forestry, SD1-669.5

Abstract

Białowieża, a national treasure to the people of Poland and a unique ecosystem of historical significance, has become a site of an intense international debate, following a large scale Bark Beetle outbreak. The controversy centers around two opposing ecological paradigms: 1). Ecosystems without human interference would eventually reach a climax state that is self-regulating and in equilibrium (The No Action paradigm); 2). Trees infected by Ips typographus should be salvaged in order to reduce CO2 emissions, lower the fire risk, and prevent the collapse of healthy tree communities (The Adaptive Action paradigm). This contribution analyzes historical evidence and recent issues related to the management of Poland’s Białowieża Forest and presents a proposal towards a negotiated landscape design that allows for small-scale spatial mixing of different land-uses. Białowieża can become a unique example of a continuously evolving forest landscape that is resilient to fluctuating environmental conditions, human values and societal demands.

Published

2019

40. Toward monitoring forest ecosystem integrity within the post‐2020 Global Biodiversity Framework

Author

Andrew J. Hansen, Benjamin P. Noble, Jaris Veneros, Alyson East, Scott J. Goetz, Christina Supples, James E. M. Watson, Patrick A. Jantz, Rajeev Pillay, Walter Jetz, Simon Ferrier, Hedley S. Grantham, Thomas D. Evans, Jamison Ervin, Oscar Venter, and Anne L. S. Virnig

Subjects

biodiversity policy, conservation planning, ecological monitoring, ecosystem integrity, post‐2020 Global Biodiversity Framework, remote sensing, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract Signatory countries to the Convention on Biological Diversity (CBD) are formulating goals and indicators through 2050 under the post‐2020 Global Biodiversity Framework (GBF). Among the goals is increasing the integrity of ecosystems. The CBD is now seeking input toward a quantifiable definition of integrity and methods to track it globally. Here, we offer a schema for using Earth observations (EO) to monitor and evaluate global forest ecosystem integrity (EI). Our approach builds on three topics: the concept of EI, the use of satellite‐based EO, and the use of “essential biodiversity variables” to monitor and report on it. Within this schema, EI is a measure of the structure, function, and composition of an ecosystem relative to the range of variation determined by climatic–geophysical environment. We use evaluation criteria to recommend eight potential indicators of EI that can be monitored around the globe using Earth Observations to support the efforts of nations to monitor and report progress to implement the post‐2020 GBF. If operationalized, this schema should help Parties to the CBD take action and report progress on achieving ecosystem commitments during this decade.

Published

2021

41. Toward monitoring forest ecosystem integrity within the post‐2020 Global Biodiversity Framework.

Author

Hansen, Andrew J., Noble, Benjamin P., Veneros, Jaris, East, Alyson, Goetz, Scott J., Supples, Christina, Watson, James E. M., Jantz, Patrick A., Pillay, Rajeev, Jetz, Walter, Ferrier, Simon, Grantham, Hedley S., Evans, Thomas D., Ervin, Jamison, Venter, Oscar, and Virnig, Anne L. S.

Subjects

ECOLOGICAL integrity, FOREST monitoring, BIODIVERSITY, CANNABIDIOL, ENVIRONMENTAL monitoring

Abstract

Signatory countries to the Convention on Biological Diversity (CBD) are formulating goals and indicators through 2050 under the post‐2020 Global Biodiversity Framework (GBF). Among the goals is increasing the integrity of ecosystems. The CBD is now seeking input toward a quantifiable definition of integrity and methods to track it globally. Here, we offer a schema for using Earth observations (EO) to monitor and evaluate global forest ecosystem integrity (EI). Our approach builds on three topics: the concept of EI, the use of satellite‐based EO, and the use of "essential biodiversity variables" to monitor and report on it. Within this schema, EI is a measure of the structure, function, and composition of an ecosystem relative to the range of variation determined by climatic–geophysical environment. We use evaluation criteria to recommend eight potential indicators of EI that can be monitored around the globe using Earth Observations to support the efforts of nations to monitor and report progress to implement the post‐2020 GBF. If operationalized, this schema should help Parties to the CBD take action and report progress on achieving ecosystem commitments during this decade. [ABSTRACT FROM AUTHOR]

Published

2021

42. Ecosystem integrity is neither real nor valuable

Author

Yasha Rohwer and Emma Marris

Subjects

biodiversity, ecological integrity, ecosystem integrity, ethics, historical range of variation, natural range of variation, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract We argue that “ecological integrity” is a bad fit as a value for conservation biology and restoration ecology. Both fields are organized around shared values, but it is important to be clear about the specific values and reasons motivating protection of or interventions in specific ecosystems. In practice, appeals to ecological integrity often fail to account for losses in value when ecosystems change. Ultimately, we do not believe ecosystems are the kinds of things that have integrity. Ecosystems are simply too dynamic in space and time, their complex interconnections, including coevolved relationships, ultimately fleeting at the geological scale. Any impression of “wholeness” is an artifact of the brevity of human lives and the shallowness of our historical records. We believe “ecological integrity” as it is currently used is typically a proxy for the values of diversity, complexity, and cultural connections with beloved ecosystem states. We should simply say what we mean and retire the concept of “ecological integrity.”

Published

2021

43. Rule-based classification and mapping of ecosystem services with data on the integrity of forest ecosystems.

Author

Schlutow, Angela and Schröder, Winfried

Subjects

DATA integrity, ECOLOGICAL integrity, ECOSYSTEM services, ATMOSPHERIC nitrogen, ATMOSPHERIC deposition

Abstract

Background: The state of ecosystems influences their services for humans. Therefore, the European Union aims to assess and map ecosystem conditions and ecosystem services at the level of the Union and the Member States to implement maintenance or protection measures, if necessary.This paper examines the relationship between forest ecosystem conditions and ecosystem services at the national level, using Germany as an example. The aim is to create a methodology that allows users to understand and predict how the potential supply of selected ecosystem services might change over time under the influence of climate change and atmospheric nitrogen deposition, and that is reproducible, unlike previous approaches. To this end, the methodology was operationalised in a quantitative and rule-based manner. Methods and results: The multitude of forest ecosystem types were grouped into 78 classes according to the degree of similarity of their ecological characteristics that influence the provision of ecosystem services. Thereby, ecoclimatic, soil hydrological and nutrient balance characteristics and 12 potential ecosystem service capacities were taken into account. Three potential ecosystem services were quantified for representatives of the ecosystem type classes. The ecosystem service classification was mapped for all of Germany. Conclusions: The methodology presented enables a transparent and thus a reproducible classification of current and future ecosystem services [ABSTRACT FROM AUTHOR]

Published

2021

44. Ecosystem integrity is neither real nor valuable.

Author

Rohwer, Yasha and Marris, Emma

Subjects

ECOLOGICAL integrity, CONSERVATION biology, RESTORATION ecology, ECOSYSTEM management, ENVIRONMENTAL protection

Abstract

We argue that "ecological integrity" is a bad fit as a value for conservation biology and restoration ecology. Both fields are organized around shared values, but it is important to be clear about the specific values and reasons motivating protection of or interventions in specific ecosystems. In practice, appeals to ecological integrity often fail to account for losses in value when ecosystems change. Ultimately, we do not believe ecosystems are the kinds of things that have integrity. Ecosystems are simply too dynamic in space and time, their complex interconnections, including coevolved relationships, ultimately fleeting at the geological scale. Any impression of "wholeness" is an artifact of the brevity of human lives and the shallowness of our historical records. We believe "ecological integrity" as it is currently used is typically a proxy for the values of diversity, complexity, and cultural connections with beloved ecosystem states. We should simply say what we mean and retire the concept of "ecological integrity." [ABSTRACT FROM AUTHOR]

Published

2021

45. Ecosystem antifragility: beyond integrity and resilience

Author

Miguel Equihua, Mariana Espinosa Aldama, Carlos Gershenson, Oliver López-Corona, Mariana Munguía, Octavio Pérez-Maqueo, and Elvia Ramírez-Carrillo

Subjects

Antifragility, Ecosystem integrity, Resilience, Complexity, Medicine, Biology (General), QH301-705.5

Abstract

We review the concept of ecosystem resilience in its relation to ecosystem integrity from an information theory approach. We summarize the literature on the subject identifying three main narratives: ecosystem properties that enable them to be more resilient; ecosystem response to perturbations; and complexity. We also include original ideas with theoretical and quantitative developments with application examples. The main contribution is a new way to rethink resilience, that is mathematically formal and easy to evaluate heuristically in real-world applications: ecosystem antifragility. An ecosystem is antifragile if it benefits from environmental variability. Antifragility therefore goes beyond robustness or resilience because while resilient/robust systems are merely perturbation-resistant, antifragile structures not only withstand stress but also benefit from it.

Published

2020

46. Ecosystem antifragility: beyond integrity and resilience.

Author

Equihua, Miguel, Aldama, Mariana Espinosa, Gershenson, Carlos, López-Corona, Oliver, Munguía, Mariana, Pérez-Maqueo, Octavio, and Ramírez-Carrillo, Elvia

Subjects

ECOLOGICAL disturbances, ECOLOGICAL integrity, ECOSYSTEMS, DATA integrity, INTEGRITY, ECOLOGICAL resilience

Abstract

We review the concept of ecosystem resilience in its relation to ecosystem integrity from an information theory approach. We summarize the literature on the subject identifying three main narratives: ecosystem properties that enable them to be more resilient; ecosystem response to perturbations; and complexity. We also include original ideas with theoretical and quantitative developments with application examples. The main contribution is a new way to rethink resilience, that is mathematically formal and easy to evaluate heuristically in real-world applications: ecosystem antifragility. An ecosystem is antifragile if it benefits from environmental variability. Antifragility therefore goes beyond robustness or resilience because while resilient/robust systems are merely perturbation-resistant, antifragile structures not only withstand stress but also benefit from it. [ABSTRACT FROM AUTHOR]

Published

2020

47. Ecosystem Integrity

Author

Leal Filho, Walter, Series Editor, Azul, Anabela Marisa, editor, Brandli, Luciana, editor, Lange Salvia, Amanda, editor, and Wall, Tony, editor

Published

2021

48. Climate change and fires in the Ukrainian Polissia region

Author

Karamushka, Victor, Kuchma, Tetyana, Boychenko, Svitlana, Nazarova, Olga, Karamushka, Victor, Kuchma, Tetyana, Boychenko, Svitlana, and Nazarova, Olga

Abstract

Climate change accompanied by anomalously high temperatures and a decrease in precipitation during the warm season can have serious consequences for Ukrainian Polissia, including an increased risk of forest and peat fires, deterioration of ecosystem integrity, changes of biodiversity patterns, etc. An average temperature increase of 0.60°C per decade was observed in the Ukrainian Polissia region along with an annual precipitation decrease ranging from 2 to 4% over the period from 1990 to 2021. The prevailing weather conditions in 2020 included snowless warm winter, warm arid spring (in particular, in March and April), and certain accompanying synoptic conditions (e.g., high wind speeds up to 15–20 m/s). Such conditions contributed to the forest fires and a powerful dust storms in most regions of the Ukrainian Polissia. During the spring 2020, more than half of the territory of Ukrainian Polissia was exposed to fires. The climatic conditions of spring 2022 were not as dry as in 2020, however, due to the war, fires engulfed a significant part of the territory of Kyiv and Chernihiv Polissia. Analysis of the spatial distribution of the fire frequency in the regions of Ukrainian Polissia in 2020 and 2022 (based on the satellite data) points out the dominance of different fire-promoting factors: in 2020, it was weather anomalies, in 2022 - human activities (armed hostilities).

Published

2023

49. Framework for monitoring shrubland community integrity in California Mediterranean type ecosystems: Information for policy makers and land managers

Author

Dawn M. Lawson and Jon E. Keeley

Subjects

chaparral, coastal sage scrub, ecosystem integrity, monitoring, Mediterranean‐type ecosystem shrublands, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract Shrublands in Mediterranean‐type ecosystems worldwide support important ecosystem services including high levels of biodiversity and are threatened by multiple factors in heavily used landscapes. Use, conservation, and management of these landscapes involve diverse stakeholders, making decision processes complex. To be effective, management and land use decisions should be informed by current information on ecosystem quality and resilience. However, obtaining this information is often a challenge due to the extent of landscapes involved. Here we present a conceptual integrity monitoring framework based on simple easily observable ecosystem components readily understood by nonspecialists. Community integrity is defined by plant functional group based on relative proportion of shrubs and nonnative annual grasses. The ability to use these straightforward metrics results from four factors: relatively good alignment of characteristic bird, mammal, and insect communities with shrub cover, positive feedback between annual grasses and short fire intervals, the inhibitory effect of annual grasses on shrub seedling establishment, and similar functional group response to different disturbances. Two additional metrics, indicator species and shrub species diversity, capture subtle yet persistent signatures of disturbance on integrity not reflected in functional group composition. The framework is designed to: categorize habitats into ecosystem integrity classes, forecast likely integrity class changes caused by threats and environmental conditions, and provide a simple reporting mechanism that can be overlain with data on conservation status and vulnerabilities. The proposed framework includes a pilot phase to validate empirical relationships, thresholds, and sampling efficiency. The accessibility of these metrics to nonspecialists is anticipated to enhance communication among stakeholders and thus facilitate problem solving. Leveraging monitoring and mapping programs driven by other needs (e.g., species conservation and fire management) affords meaningful opportunities to offset program costs.

Published

2019

50. 从生物群落到生态系统综合保护:国家公园生态系统完整性保护的理论演变

Author

魏钰 and 雷光春

Subjects

*ECOSYSTEM management, *ECOLOGICAL integrity, *NATIONAL parks & reserves, *NATURE reserves, *PROTECTED areas

Abstract

The nature conservation has entered a new stage of integratively managing humannature harmonized ecosystems. It has become a consensus to break through the elementary thinking and systematically conserve ecosystem integrity from perspectives of ecological characters, ecosystem health and self- organization ability of ecosystems. After experiencing long-term fragmented management across different sectors, China began to emphasize unified management for ecosystem integrity in the process of establishing a national park system. This study argues that the ecosystem integrity of national park does not only mean an intact internal natural space, but also matters to the national ecological security and thus should be strategically viewed from spatial layout of natural protected areas. The vision of sustainably maintaining ecosystem integrity can only be realized by taking each national park as a node of an eco-geographical area. These nodes should be bridged with surrounding protected areas, and effectively balance the relationship both between administrative areas and between people and nature. From this point of view, existing researches are still insufficient in guiding the macroscale conservation of ecosystem integrity and balancing the relationship between people and nature. Problems also exist in piloting national park systems, such as the lack of managerial technology, the restrictions imposed by administrative boundaries on national park boundaries, the failure to build ecosystem integrity networks with national parks as the core, and the insufficient consideration given to different human-land relations. It is recommended to view the ecosystem at a macro scale and take into account the relations between national parks and surrounding areas, between different administrative regions, and also between human and nature within national parks. This is the best approach for achieving the long- term goal of ecosystem integrity. [ABSTRACT FROM AUTHOR]

Published

2019