Protection Of Ecosystem Services Research Articles

Use of process-based coupled ecological-hydrodynamic models to support lake water ecosystem service protection planning at the regional scale

Protection plans of lake waters are based on ecological and/or chemical targets, often simplified in terms of total phosphorus (TP) concentrations, customarily the depth-averaged ones at spring mixing for temperate environments. These target lake TP concentrations are then commonly employed to determine target external loading through reverse use of Vollenweider-OECD-type steady-state empirical models. Such models are also adopted in their direct form to estimate lake TP concentrations following hypothetical external load reductions. However, such approaches suffer from extreme parameterisation and often give inaccurate results. Process-based coupled ecological-hydrodynamic models offer a much wider flexibility and produce an extensive set of information, solving many of the issues of Vollenweider-OECD-type models. However, their application has been up to now restricted to single lakes due to calibration effort and data availability burdens. To overcome these obstacles, in this study we developed a simplified application of the process-based coupled model QWET over 9 lakes in Northern Italy, making use of the ParSAC automatic calibration tool and feeding the models only with general data available from public monitoring. QWET models were calibrated over past observations, simulating nutrient reduction scenarios for the near-future decades. The advantages over traditionally employed models for lake water protection planning at the regional scale were hence identified through a practical application, determining the strengths and limits of the herein-adopted simplified process-based approach over lakes with different features. Obtained results were also analysed considering the specific case study.

Ecological redline policy strengthens sustainable development goals through the strict protection of multiple ecosystem services

China’s stringent ecological redline (ERL) policy, which delineates minimum areas for strict protection, aims to safeguard crucial ecosystem services (ES) and advance sustainable development goals (SDGs). However, the relationship between ERL policy and SDGs remains unclear. Using a land use/land cover (LULC)-ES-SDGs analysis, this study explored the impact of ERL on SDGs in Baisha Li Autonomous County, a tropical mountainous region in Hainan, China, under ERL and business-as-usual (BAU) scenarios. Our findings reveal that under the BAU scenario, rubber plantation expansion at the expense of natural forests leads to a trade-off between product production and regulating services. This results in positive contributions to SDGs related to poverty and hunger and negative impacts on goals such as clean water and sanitation, and biodiversity conservation. However, the ERL scenario effectively reduces natural forest loss and rubber plantation expansion, leading to a decrease in product provisioning services and a substantial increase in regulating services. Consequently, the ERL scenario demonstrates decreased positive contributions to poverty and hunger-related SDGs while mitigating negative impacts on goals related to environmental sustainability. These results highlight the importance of ERL policies in balancing conservation and development, providing valuable insights for other regions seeking to achieve SDGs while safeguarding natural resources.

Similarities and Dichotomies Between Nature-Based Solutions and Green Infrastructure: a Systematic Literature Review

Objective: The study seeks to address the following question: What are the similarities and dichotomies between green infrastructure (GI) and nature-based solutions (NBS) from the perspective of Brazilian researchers, and how do the identified solutions mitigate the depletion of urban ecosystem services? Method: A Systematic Literature Review (SLR) was conducted using the PRISMA protocol in research within the CAPES Journal database. The inclusion and exclusion criteria were original texts, peer-reviewed, published in national and international journals in Portuguese, covering the themes of NBS, GI, informal settlements, and public open space. After reviewing the 90 identified texts, a final selection of 41 texts was made for the SLR. Originality/Value: These texts were analyzed from a novel perspective, bringing together the themes of GI, NBS, ecosystem services protection, and urban land use. Results and Discussion: The study identified the authors’ views on the pressures of urbanization on ecosystem services and the solutions for their protection. It was concluded that the concepts of NBS and GI are often conflated in most approaches and that adopting urbanization associated with nature faces conceptual, operational, and managerial challenges. Research Implications: The research provides insights into the integration of GI and NBS in urban planning to address the challenges of uncontrolled urbanization and the degradation of ecosystem services.

Deconstructing the IOBC tiered method: Are we overestimating the compatibility of pesticides and natural enemies?

Accurately estimating the risk of sensitive populations subjected to toxicant disturbances is central to our ability to protect ecosystem services. While the gold standard for assessing risk historically involves static measures such as the LD50 or LC50, more sophisticated approaches have been developed in an attempt to capture more nuanced outcomes. In the 1980s the International Organization for Biological Control (IOBC) developed a tiered approach to determine the compatibility of pesticides and natural enemies in the context of integrated pest management (IPM). We analyzed the IOBC approach using stage-based matrix models to project population outcomes for four parasitoid species, Diaeretiella rapae, McIntosh, Fopius arisanus, (Sonan), Diachasmimorpha longicaudata Ashmead, Psyttalia fletcheri (Silvestri) and the predator, Coccinella septempunctata L. By imposing mortality levels in matrix models equivalent to those outlined in the IOBC Tier 1 Class 1 (29 %) (harmless) and Class 2 (79 %) (slightly harmful) mortality classes, we explored discrepancies between the IOBC approach and population outcomes generated by these models. Our results highlight that the IOBC Class 1 and 2 levels of mortality are too high to protect many natural enemies from pesticides, setting the stage for unrealistically optimistic views of pesticide compatibility in many cases. Furthermore, a one size fits all approach to protect natural enemies from pesticides does not work because of differences in demographic rates among species which will be less negatively affected by Tier 1 levels of mortality and those that do not reproduce quickly and will thus be more vulnerable to pesticides. Therefore, the IOBC method should be used cautiously if at all, and results should be interpreted with the caveats and pitfalls highlighted here. Results of this study indicate that it is time to reevaluate how we estimate pesticide compatibility with natural enemies and adjust the methods and mortality thresholds based on more realistic measures of toxicity.

The Role of Biodiversity in Agricultural Resilience: Protecting Ecosystem Services for Sustainable Food Production

The Role of Biodiversity in Agricultural Resilience: Protecting Ecosystem Services for Sustainable Food Production

Strengthening public health system resilience to disasters in Türkiye: Insights from a scorecard methodology

BackgroundTürkiye is a country that faces many disasters, especially earthquakes and floods, which have serious short- and long-term consequences for public health. The importance of disaster risk reduction activities in building resilience before a disaster strikes is increasingly recognized. Furthermore, resilience assessment is considered to be the starting point for these activities. However, there is a substantial gap in the scientific evidence on systematic assessments of the resilience of the public health system and also a serious lack of activities to strengthen the system against disasters in Türkiye. AimUsing a Scorecard methodology, the study aimed to systematically assess the resilience of the public health system in Türkiye by examining key indicators related to disaster risk management and preparedness, and subsequently to recommend priority actions. A systematic assessment of resilience can provide the scientific evidence needed to identify weaknesses in the system. Furthermore, identifying priority actions based on this evidence allows progress to be made towards strengthening the system. MethodsThis mixed-methods study was conducted in two separate regions of Türkiye with the highest earthquake (Esenler/Istanbul) and flood risk (Ortahisar/Trabzon). Based on the Scorecard methodology, two-stage workshops (online and face-to-face) were held. During the online stage, qualitative data were collected by interviewing participants about their evaluation of the situation in the counties regarding the Scorecard indicators, and quantitative data were collected through scoring. In the face-to-face stage, strategies were developed to improve the resilience of the public health system. Quantitative data were expressed with numbers and percentages, and thematic analysis was utilized for qualitative data analysis. ResultsThe lowest scoring indicators were as follows (Esenler and Ortahisar, respectively): addressing mental health needs associated with disasters (2.17 ± 1.29; 2.27 ± 1.16), resilience of key healthcare facilities (2.22 ± 0.55; 2.91 ± 1.08), and protection and identification of ecosystem services (2.39 ± 1.04; 2.13 ± 1.49). In this study, participants recommended increasing the resilience of the public health infrastructure and improving human resources and ecosystem services to ensure the resilience of the public health system. ConclusionsThe study found that the weakest areas in terms of public health system resilience were the seismic safety and infrastructure of health facilities, the capacity of disaster-related mental health services, and disaster-related ecosystem services. To improve the resilience of public health systems, it is essential to strengthen these areas of weakness and ensure collaboration between all stakeholders in the system. The identification of weaknesses in the study has guided the determination of priority actions to build a baseline of resilience. In addition, the results of the study have highlighted priority areas for investment to improve disaster response and the overall health of the population in the context of disasters.

Linkages between Soil Security and One Health: implications for the 2030 Sustainable Development Goals.

Soil provides multiple and diverse functions (e.g., the provision of food and the regulation of carbon), which underpin the health of animals, humans, the environment and the planet. However, the world's soils face existential challenges. To this end, the concept of Soil Security was developed, compelled to: "maintain and improve soils worldwide so that they can continue to provide food, fiber and fresh water, contribute to energy and climate sustainability and help to maintain biodiversity and the overall protection of ecosystem goods and services." In parallel, the concept of One Health likewise works across the human-animal-environment interface, highly relevant for the goals of Soil Security. In this review, we evaluated the roles which both the Soil Security and One Health concepts have served in the literature between 2012 and 2023 and explore the potential linkages between both concepts. We outline that both concepts are used in disparate fields, despite considerable overlap in aims and objectives. We highlight the Soil Health concept as a potential connector between Soil Security and One Health. Overall, we argue that both Soil Security and One Health are highly complementary fields of scientific inquiry with solid leverage for translation into policy and practice. However, there is a need to define One Health dimensions, as has been done for Soil Security. As such, we proffer five measurable dimensions for One Health, the "5Cs"-Capacity, Condition, Capital, Connectivity and Codification-to allow for an overall measure of One Health. Finally, we advocate for a biosphere-focused framework to collectively make progress toward the 2030 Sustainable Development Goals and other global existential challenges.

Analysis of Spatial Distribution of Ecosystem Services and Driving Factors in Northeast China

Northeast China is an important ecological barrier in China, and an in-depth understanding of the spatial distribution in ecosystem services （ESs）, and the driving factors is crucial for realizing the subsequent management and protection of ESs. In the study, we quantitatively assessed the characteristics of spatial distribution in ESs in Northeastern China using the InVEST, RWEQ, and RUSLE models and identified the driving factors of ESs spatial distribution in conjunction with the geodetector based on meteorological data, remote sensing data, and socio-economic data. The results showed that the spatial distribution of ESs in Northeast China had obvious spatial heterogeneity. The high values of habitat quality （HQ）, carbon sequestration （CS） services, and soil conservation （SC） services were mainly distributed in the northern part of the four eastern leagues of the Inner Mongolia Autonomous Region, the northern part of Heilongjiang Province, and the eastern part of Northeast China, which were high in fraction vegetation cover, and low values were mainly found in southwestern and eastern Heilongjiang Province, western Jilin Province, and western Liaoning Province. The high values of the water yield （WY） service and wind prevention and sand fixation （WPSF） service were distributed in the east of the Inner Mongolia Autonomous Region and the east of Liaoning Province. The high values of WY services and WPSF services were distributed in the eastern part of Northeast China and the four eastern provinces of the Inner Mongolia Autonomous Region. According to the geodetector results, slope had the strongest explanatory power for the spatial distribution of SC services with a q-value of 0.31, land use/cover change had the strongest explanatory power for the spatial distribution of HQ and CS services with q-values of 0.64 and 0.52, respectively, and fraction vegetation coverage and annual precipitation had the strongest explanatory power for the spatial distribution of WPSF and WY services with q-values of 0.24 and 0.64, respectively, and there were interactions among all the driving factors. The spatial distribution of ESs in Northeast China was mainly influenced by natural factors. The results will provide a scientific basis for subsequent management and enhancement of ESs in Northeast China.

Assessing reproductive effects and epigenetic responses in Austrolebias charrua exposed to Roundup Transorb®: Insights from miRNA profiling and molecular interaction analysis

This study examines the effects of Roundup Transorb® (RDT) exposure on reproductive functions and ovarian miRNA expression in Austrolebias charrua. Exposure to RDT (at 0.065 or 5 mg. L−1 for 96 h) significantly disrupts fertility, evidenced by changes in fertilization rates and egg diameter. Profiling of ovarian miRNAs identified a total 205 miRNAs in A. charrua. Among these, three miRNAs were upregulated (miR-10b-5p, miR-132–3p, miR-100–5p), while ten miRNAs were downregulated (miR-499–5p, miR-375, miR-205–5p, miR-206–3p, miR-203a-3p, miR-133b-3p, miR-203b-5p, miR-184, miR-133a-3p, miR-2188–5p) compared to non-exposed fish. This study reveals that differentially expressed miRNAs are linked to molecular pathways such as steroid hormone biosynthesis, lipid and carbohydrate metabolism, bioenergetics, and antioxidant defense. It also analyzes molecular interactions between miRNAs and target genes during RDT exposure in annual killifish, providing insights into biomarkers in ecotoxicology. Moreover, it provides scope for developing environmental health assessment models based on epigenomic endpoints, supporting the protection of biodiversity and ecosystem services through the quantification of stress responses in living organisms exposed to pesticides.

Integrating policy, data and technology in pursuing effective management of ecosystem services

With the growing concerns about the protection of ecosystem functions and services, governments have developed public policies and organizations have produced an awesome volume of digital data freely available through their websites. On the other hand, advances in data acquisition through remote sensed sources and processing through geographic information systems (GIS) and statistical tools, allowed an unprecedent capacity to manage ecosystems efficiently. However, the real-world scenario in that regard remains paradoxically challenging. The reasons can be many and diverse, but a strong candidate relates with the limited engagement among the interest parties that hampers bringing all these assets into action. The aim of the study is to demonstrate that management of ecosystem services can be significantly improved by integrating existing environmental policies with environmental big data and low-cost GIS and data processing tools. Using the Upper Rio das Velhas hydrographic basin located in the state of Minas Gerais (Brazil) as example, the study demonstrated how Principal Components Analysis based on a diversity of environmental variables assembled sub-basins into urban, agriculture, mining and heterogeneous profiles, directing management of ecosystem services to the most appropriate officially established conservation plans. The use of GIS tools, on the other hand, allowed narrowing the implementation of each plan to specific sub-basins. This optimized allocation of preferential management plans to priority areas was discussed for a number of conservation plans. A paradigmatic example was the so-called Conservation Use Potential (CUP) devoted to the protection of aquifer recharge (provision service) and control of water erosion (regulation service), as well as to the allocation of uses as function of soil capability (support service). In all cases, the efficiency gains in readiness for plans’ implementation and economy of resources were prognosed as noteworthy.

Problems of optimizing the production and export of environmentally friendly consumer products in Azerbaijan

State of the problem. In the article, it is justified that the provision of a green economy based on environmentalization, modernization, innovation and new technologies in the production and processing of agricultural products leads to a radical improvement of production, protection of natural capital and ecosystem services, and reduction of pollution and greenhouse gas emissions. It was noted that the regulation of agricultural production systems in the country requires the expansion of agricultural practices that increase productivity and production, contribute to the protection of ecosystems, adaptation to climate change, extreme weather events, droughts, and floods. Research object. It is the production, processing, consumption and export of agricultural products of Azerbaijan. The purpose of the study is to promote the production of ecologically clean and export-important consumer products in Azerbaijan and the stimulation of its export. Introducing the country to the world with branded products, attracting foreign investments to this field, increasing the population's interest in the agricultural field, and attracting innovative technology to the field are also considered important. It is the determination of the damage caused by the impact on the agricultural sector and nature due to the degradation of the growing environmental components. Minimizing losses at this stage and optimizing the development of the agro-industrial complex is one of the main factors. Methodology. Generalization, historical, statistical, systematic analysis and comparison methods were used in the preparation of the article. Scientific novelty of the research. Implementation of the production and processing of ecologically clean agro-industrial products that do not harm human health and the environment, regular monitoring of the ecological condition of the soil, and the provision of increasing the production and assortment of ecologically clean export-oriented food and light industrial products. Research results. In the article, it is explained that the development of the green economy in Azerbaijan is an integral part of the state policy, and it occupies an important place in the state administration, on the example of export-oriented food and light industrial products. It is noted that the sustainability of the development of the green economy acts as a criterion for the production of competitive products of the state, which contributes positively to the provision of people's vital needs.

Conservation Planning of Multiple Ecosystem Services in the Yangtze River Basin by Quantifying Trade-Offs and Synergies

The importance of protecting ecosystem services has been increasingly recognized due to their substantial benefits for human beings. Traditional conservation planning methods for locating and designing prioritized areas focus on high-value areas. However, ecosystem services have an intrinsic correlation of trade-offs and synergies among them; thus, solely selecting high-value areas cannot ensure efficiency in the conservation of multiple ecosystem services. Pursuing the protection of one ecosystem service may compromise the effectiveness of conserving others. Therefore, this study aims to develop a method for identifying the optimal ecosystem service protected areas in more efficient ways by quantifying the spatial relationships of ecosystem services on a local scale. We examined the correlations between all possible paired combinations of four ecosystem services using the Local Moran’s I and classified them into five cluster types in the Yangtze River Basin. To address conflicting solutions for multiple ecosystem service goals, we employed systematic conservation planning to identify priority areas for ecosystem service protection, following the principles of representativeness, complementarity, and persistence. By establishing scenarios that optimize each and all ecosystem services at target levels of 20%, 40%, 60%, and 80%, we observed that any two of the four services were positively correlated, occupying vast areas in the Yangtze River Basin. However, the high-value areas of each ecosystem service did not coincide in their spatial distributions. Under the same target, more high-value areas could be selected as the best solutions by only optimizing a single ecosystem service. The degree of overlap between priority areas varied considerably across optimizations for individual ecosystem services, particularly when setting lower targets. Our findings suggest that integrated conservation planning for all ecosystem services is more efficient than layering multiple single plans. Understanding the correlations between ecosystem services can lead to more effective management and sustainable decision making.

The trends of major issues connecting climate change and the sustainable development goals

This study aims to explore the research trends and patterns of major issues connecting climate change and the Sustainable Development Goals (SDGs) by employing a bibliometric analysis. The study has found that there is an increasing number of research and policies in various countries committed to finding and implementing strategies to solve climate change issues. The countries with the most research in this field are China, India, the United States, the United Kingdom, and Australia, with Environmental Sciences & Ecology being the most published domain. The study has identified 19 clusters intersecting with climate change and SDGs, with the top five clusters in terms of proportion related to agricultural and food systems, water and soil resources, energy, economy, ecosystem, and sustainable management. This study also presents the trend changes of research topics intersecting climate change and SDGs every 2–3 years. Especially in the recent two years, with the convening of COP26 and COP27 and the advocacy of Net Zero and CBAM (Carbon Border Adjustment Mechanism) of the EU, important topics include renewable energy, protection of ecosystem services, life cycle assessment, food security, agriculture in Africa, sustainable management, synergies of various policies, remote sensing technology, and desertification among others. This shows an increasingly diversified range of important topics being discussed in relation to climate change and sustainable development goals.

Climate Change Mitigation Potential of Forestry Sector for Sustainability of Agro-Ecosystem: A Review

Ecosystems that are currently struggling are likely faring and pathetic conditions because of climate change. The most pressing problems facing people in the world's developing parts of the world are water scarcity, dwindling biodiversity, and stagnant agricultural output. According to the majority of scientists, global warming can be stopped before it becomes irreversible if temperatures are kept within a range of 1.5 to 2 degrees Celsius. Greenhouse gases, sometimes known as GHGs, are the burning causes of climate change impacts. Accelerated emissions of GHGs could be dependent on the rate of social, economic, and technological development. Forest systems have a crucial impact in mitigating global warming. Clearing forests, setting them on fire, or otherwise destroying those releases massive amounts of other greenhouse gases (GHGs), even if the forests are the planet's greatest terrestrial carbon sink. Forests' source-sink dynamics and the total quantity of carbon they store are profoundly impacted by regional differences in human land use, anthropogenic climate change, and disturbance. Constantly expanding conservation, restoration, reforestation, and afforestation operations will be necessary to keep global warming under control and stop it from exceeding the crucial threshold. Forests are currently being employed as a potential tool for combating climate change, which has been demonstrated to be an effective and long-term strategy. However, the impact of climate change on forests is largely negative. The negative effects of climate change on forests are becoming more pronounced, as evidenced by an increase in the forest fire events and results in a shift in species distribution at higher altitudes, an increase in dieback, an increase in the number of insect and pathogen infestations, drought and flood conditions, and a decrease in the ecosystem services provided by forests. The IPCC has predicted that changes to ecosystems, arctic ice melting, rising sea levels, decreased grain yields, declining fisheries, and the loss of coral reefs will all have significant consequences. Therefore, protecting ecosystem services and biodiversity is crucial to ensuring humanity's survival.

Ecological security warning in Central Asia: Integrating ecosystem services protection under SSPs-RCPs scenarios

Ecological security patterns (ESPs) are designed to enhance ecosystem structure and functionality while preserving vital ecosystem services (ESs). This study not only integrated the ES trade-offs related to ecological security warning, but also considered the effects of future climate changes and human activities on ESPs. By combining the revised universal soil loss equation (RUSLE), the revised wind erosion equation (RWEQ), the dry sedimentation (DS) model, the recreation opportunity map (ROM) and the integrated valuation of ESs and trade-offs (InVEST) model, this study projected provisioning services, regulation services and cultural services in Central Asia (CA) for historical periods (1995–2014) and future scenarios (2021–2099). An ecological security early-warning (source – corridor – barriers) framework was constructed based on the protection of ESs under the SSP126, SSP245 and SSP585 scenarios. The ordered weighted averaging method (OWA) was applied to this framework to identify ecological sources. The Minimum cumulative resistance model (MCR) and circuit theory were used to construct ecological corridors and barriers. Our results revealed that ES hotspot areas will decrease by 11.75 % to 16.42 % in CA under the SSP126, SSP245, and SSP585 scenarios. Under the ecological warning framework, the ecological source warning area will reach 792 km2–1942 km2 and 6591 km2–17,465 km2 under the SSP126 and SSP585 scenarios, respectively. In particular, in the 2050s under the SSP245 scenario, the number of key ecological corridor warnings will exceed 50 % of the total number of corridors. We found that ecological barrier warnings will mainly be distributed in desert areas with low vegetation coverage in southwestern CA. Building upon the reorganization of ESs within the ESP framework, we propose an ecological early warning strategy referred to as “one axis, two belts, two cores, and three zones”. This novel approach aims to enhance our ability to predict and respond to ecological threats and challenges.

Strengthening Food Systems Resilience Before, During and After Disasters and Other Crises

Abstract School closures during the COVID-19 pandemic compromised access to essential meals for many children. In response, a public/private partnership known as the Emergency Meals-to-You program was established to deliver meals in affected rural areas of the United States. This study builds on this using a scorecard approach adapted from the United Nations Ten Essentials for Making Cities Resilient to identify and prioritize actions for strengthening food system resilience. A pilot food system resilience scorecard facilitated data collection from five workshops with professionals familiar with the program, emergency management, public health, or food systems. Data analysis and interpretation identified nine priority actions. These included integrating the food sector and schools within emergency management, mapping local food sector capacities, working with schools to receive de-identified data about nutritional, allergy and other health needs, developing disaster plans for sustaining food access at the school district level, and protecting ecosystem services and agricultural areas. There is an urgent need to embed the food sector and schools within emergency management. These systems are local, designed to coordinate complicated tasks in crises, multidisciplinary, and are used in many countries. Providing a ready-made framework for locally driven initiatives to strengthen food systems now and into the future.

Regional ecological risk assessment based on multi-scenario simulation of land use changes and ecosystem service values in Inner Mongolia, China

Regional ecological risk assessment (ERA) is an important means towards sustainable regional development. Yet, existing ERA approaches often fall short of characterizing ecological processes as dynamic processes involving uncertainty. Using Inner Mongolia, a high ecological risk area in China, this study employed a framework for regional ERA that considers ecosystem service value (ESV) and four scenarios of future land use patterns to understand its regional ecological risk. The spatially explicit risk assessment method was implemented by a model combining multi-criteria evaluation (MCE), cellular automata (CA), and Markov chain to predict future land use/cover of 2030, an adjustment-based equivalence factor method to assess the ESV in each scenario, and Sharpe Index to assess regional ecological risk. The results show the following. First, the overall ESV increases from 2020 to 2030 under all but the socio-economic development (SED) scenarios considered in this study. Second, the overall regional ecological risk of Inner Mongolia is high in the central region and low in the east, north, and west regions. The low ecological risk areas account for the largest areal proportion in the ecosystem services protection (ESP) and natural development (ND) scenarios, while the medium ecological risk areas are the largest under SED. However, some low ecological risk areas are converted into medium ecological risk in ecological and socioeconomic balance scenario (ESB) scenario. Third, NDVI is the driving factor with the strongest explanatory power for the regional ecological risk in Inner Mongolia, followed by mean annual precipitation and temperature. The present study applied a framework for regional ERA that explicitly considers spatial heterogeneity and uncertainty, which can be useful for guiding decision-making for ecological risk control and the planning of the land use of ecosystems.

Virtual built‐up land transfers and induced ecosystem service potential loss embodied in China's inter‐regional trade

AbstractInter‐regional trade can potentially extend the management of resources and induced ecological environmental impacts beyond a region's territory along supply chains. We combined environmental‐extended multi‐regional input–output analysis and ecosystem services value (ESV) assessment, to identify the remote connections of construction land use and the induced ecosystem services potential loss in inter‐provincial trade in China from 2007 to 2017. The findings indicated that the virtual construction land flow increased by 0.774 million ha in the eight regions of China during 2007–2017. The Northeast and the Northwest were net exporters while most of the inflow areas were in the more developed areas such as Beijing–Tianjin–Hebei and the Yangtze River Delta. The net regional flow of ecosystem service potential loss (ESPL) in China increased by 352.64 billion yuan. The spatial heterogeneity of ESV in each province led to differences in the inter‐sectoral or inter‐regional flow characteristics of ESPL from embodied construction land use. The outflow areas of ESPL were mostly located in the old industrial bases of the Northeast and Northern Coast, which sacrificed their local ecological service value to meet the development needs of Southern Coast, Southwest China and Beijing–Tianjin. The research results help to clarify ecological and environmental responsibility, improve ecological compensation mechanisms and formulate scientific policies for coordinated protection of ecosystem services.

Benthic macroinvertebrates as biological indicators of water quality in the Lombaryo River in Ecuador

Macroinvertebrates provide signals about water source conditions and are used for monitoring, as they require water to be in good condition for survival. When water is polluted, slight changes in their habitat conditions can cause them to disappear. This study was conducted on the Lombaryo River, located in the diocese of the same name in Gonzalo Pizarro canton, which is in the province of Sucumbíos, with a total length of 24 kilometers and running through the entire diocese. The purpose of this study is to determine water quality by identifying five points in specific areas where the abundance of each species is collected and counted, using large invertebrates as bioindicators. This study finds strong evidence of the presence of Ephemeroptera, Plecoptera, and Trichoptera in the aquatic ecosystem of the Lombaryo River, and insect diversity indicates a clear connection with the protection of ecosystem services in this water body.

The valuation of gross ecosystem product in the three provinces in northeast of China

AbstractAchieving sustainable development is an issue of global concern. Accounting for the gross ecosystem product (GEP) value can specifically quantify the value of ecosystems for people, which is conducive to the formulation of sustainable management decisions. We have improved the GEP framework accounting method for the first time and evaluated the ecosystem service value of 36 cities in three provinces in the northeast (TPN) of China from 2000 to 2019, which provides decision‐making references for the sustainable development of TPN. The main accounting results and policy recommendations are as follows: (1) The ecological value of Northeast China is in an upward stage—GEP has increased from 3.1 trillion yuan in 2000 to 4.5 trillion yuan in 2019, with climate regulation and water conservation functions being the main driving factors for GEP. (2) Based on the dual analysis of GEP and gross domestic product (GDP), there is still high room for improvement in most cities in the TPN region. While ensuring the protection of ecosystem services, cities can convert ecological value into economic value through carbon trading, water rights trading, ecological compensation, and other methods based on ecological characteristics, which is conducive to the sustainable development of GDP and GEP in the TPN region in the future. (3) The cold and hot spot analysis of GEP also provides decision‐making basis for the planning of future ecosystem service protection areas in the TPN region.