Linking land-use and land-cover transitions to their ecological impact in the Amazon

The forest ecosystem of Indian Himalayan Region offers various ecosystem services (ESs) that are crucial for the sustenance of human beings. However, the rapid expansion of human activities (HA) poses a significant threat to the provision of the forest ecosystem services (FES). For simple and definitive assessments of FES and HA, the use of indicators has become an indispensable approach. In the present study, we performed: (i) indicator-based mapping of FES and HA, and (ii) evaluated the impact of HA on FES with the aid of geospatial techniques. Village-level analysis was conducted for FES and HA in the Aglar watershed of Uttarakhand, India for 2015. Four dominant forest types in the watershed-Quercus mixed, Pinus roxburghii, Cedrus deodara, and mixed forest were considered. For spatial characterization of FES, indicators such as forest carbon stock, net primary productivity, total water retention, and sediment yield were assessed, whereas human activity index (HAI) was evaluated using indicators of HAs, namely population density, road density, farmland, and habitation ratio. The integration of normalized values of FES indicators generated multiple ecosystem services indicator (MESI), and HAI was contructed using analytical hierarchical process based assignment of weights to HA indicators. Spatial analysis techniques such as ordinary least-square regression (OLS) and geographically weighted regression (GWR) models were used to derive the spatial relationship between them. The adjusted R2 and AIC were utilized to evaluate the effectiveness of the model. The GWR model had a better fit with an adjusted R2 of 0.68 and a lower AIC of 42.940, compared to the OLS model with an adjusted R2 of 0.21 and an AIC of 60.52. The statistics showed that GWR performed better than OLS and ably captured the heteroscedasticity of the phenomena. An inverse relation was observed between MESI and HAI. The findings of the study highlight the close link between the supply of FES and the impact of human-induced disturbances over the provision of FES, which has the potential to increase over time. The study provides a scientific basis for structuring policy dialogues to coordinate the long-term regional sustainability of FES provisioned from the Himalayan regions.

Spatial congruence and divergence between ecosystem services and biodiversity in a tropical forested landscape

As the major component of terrestrial ecosystems, forests play an irreplaceable role in providing ecosystem services and products (e.g. biodiversity, carbon sequestration, water yield and timber). Spatially quantifying ecosystem services and interactions will shed light on sustainable forest management. Main forest ecosystem services including carbon storage, water yield, soil retention and wood volume in the Ganjiang River Basin (GRB) were evaluated and mapped through the integrated use of InVEST3.1.0, CASA modeling and ArcGIS10.2, and relationships between forest ecosystem services and natural or social-economic factors were quantified and discussed based on ArcGIS10.2 and SPSS19.0. Results showed that the spatial pattern of the four ecosystem services is heterogeneous. Forests dominated by broad-leaved forest and bamboo forest in mountainous regions around the GRB provided the largest carbon storage and wood volume services, while forests dominated by Masson pine plantations or Chinese fir plantations in the northeast provided the largest water yield service. The spatial pattern of the soil retention service is more discrete than others, and forests in the southwestern regions showed larger soil erosion modulus than in the northeastern regions. Ecosystem services are closely related to the environmental process and human activities. With altitude or slope increases, the carbon storage and wood volume of forests increased and water yield depth and soil retention decreased. When the regional total population decreased or GDP per capita increased, carbon storage and wood volume increased. Further research into the interactions between environmental factors and ecosystem services is needed in order to understand environmental constraints when dealing with ecological problems.

Linking forest ecosystem processes, functions and services under integrative social–ecological research agenda: current knowledge and perspectives

The Mediterranean Basin covers more than 2 million square kilometres and is surrounded by three continents: Africa, Asia, and Europe. It is home to more than 500 million people and is projected to reach 670 million by 2050. The basin is rich in species diversity, with a great wealth of endemism. The supply of ecosystem services is greatly challenged due to the trend of land use and land cover (LULC) change coupled with other global change drivers. The current study thoroughly reviewed the existing body of knowledge on the impacts of LULC change on forest ecosystem services. The LULC change is driven by synergetic factor combinations of urbanization, population increase, agricultural land abandonment and deforestation putting additional strain on forest ecosystem services. The review shows the potential impacts on biodiversity as well as ecosystem services such as wood and non-wood forest products, water resources, and carbon stock. Moreover, there is evidence showing the threats of LULC change to saproxylic beetle species, a key agent in the nutrient cycling process, posing a significant risk to a nutrient-deficient ecosystem. Therefore, there is a need to mitigate the challenges posed by LULC change and adapt forest management practices to impending changes to sustain the provision of ecosystem goods and services.

Research that connects the effects of urbanization on biodiversity and ecosystem services is lacking. Ants perform multifarious ecological functions that stabilize ecosystems and contribute to a number of ecosystem services. We studied responses of ant communities to urbanization in the Lake Tahoe basin by sampling sites along a gradient of urban land development. We sampled ant communities, measured vegetation characteristics, quantified human activities, and evaluated ant-community responses by grouping ants into service-providing units (SPUs), defined as a group of organisms and their populations that perform specific ecosystem services, to provide an understanding of urbanization impacts on biodiversity and their delivery of ecosystem services. Species richness and abundance peaked at intermediate levels of urban development, as did the richness of 3 types of ant SPUs (aerators, decomposers, and compilers). With increasing land development aerator and decomposer ants significantly declined in abundance, whereas compiler ants significantly increased in abundance. Competing models demonstrated that precipitation was frequently among the strongest influences on ant community structure; however, urban development and human activities also had a strong, negative influence on ants, appearing in most models with DeltaAIC(c) < 2 for species richness and abundance patterns of SPUs and generalists. Response diversity was observed within SPUs, which suggests that the corresponding ecosystem services were maintained until development reached 30-40%. Our data provide evidence that ecosystem functions, such as water infiltration and soil productivity, may be diminished at sites subject to greater levels of urbanization and that conserving ant communities and the ecosystem services they provide could be an important target in land-use planning and conservation efforts.

Pine wilt disease (PWD) severely damages the health, stability, and functions of pine forests. However, empirical evidence regarding the impact of PWD on multiple ecosystem services in these forest ecosystems remains limited. This study investigated five ecosystem services, namely carbon sequestration, water conservation, soil nutrient accumulation, biomass nutrient accumulation and understory plant diversity in subtropical Masson pine (Pinus massoniana) forests, and quantified their trade-offs along varying ages of PWD infection (uninfected (0 years), 6, 10, and 16 years). The results showed that PWD infection significantly affected ecosystem services in Masson pine forests, with decreased carbon sequestration, water conservation, and biomass nutrient accumulation in 6 years of PWD infection forests. As the duration of PWD infection increased, the composite score of ecosystem services initially decreased, then increased, and finally decreased again. In contrast, soil conservation and understory plant diversity showed an initial increase, followed by a decline. Moreover, PWD infection increased the trade-offs among ecosystem services, with the highest trade-offs for 10 years of infected forests. PWD infection altered the trade-offs between understory plant diversity and other ecosystem services from low to high levels. Our results suggest that forest management should be strengthened to accelerate the recovery of ecosystem services while controlling PWD infection in these disturbed forests.

In recent decades, Mediterranean landscapes have been affected by human-induced drivers, such as land use and climate change. Forest ecosystems and landscapes have been particularly affected in mountainous regions due to limited management and stewardship, especially in remote areas. Therefore, there is a need to set up new strategies to enhance ecosystem services in forested areas which, in turn, will benefit local communities and economies. In this study, we implemented a new approach—Multiscale Mapping of Ecosystem Services (MIMOSE)—to assess ecosystem services in Mediterranean forests located in a mountainous region of Italy. We spatially assessed timber provision and carbon sequestration according to three forest management strategies: business-as-usual, maximizing economic values, and prioritizing conservation. Sustainable strategies for forest planning were identified at the landscape scale. We found that (i) timber provision is a conflicting service, especially when adaptation strategies are promoted; (ii) the most balanced set of forest ecosystem services is achieved through prioritizing conservation; and (iii) the ecosystem services availability is enhanced by optimizing the spatial allocation of different management strategies. Our approach is suitable to support landscape planning for balancing forest ecosystem potentialities while respecting local community needs and promoting sustainable development goals in the Mediterranean area.

Problem. Forests are the most important natural resource that has shaped the history and culture of each region. The economic assessment of forest ecosystem services is essential for improving the environmental situation, and acts as the basis for making informed management decisions. The economic assessment of ecosystem services is a complex scientific and methodological problem and is characterized by certain contradictions. One of these problems is the diversity and specificity of individual ecosystem services, in connection with which it greatly complicates the process of formation of standardized scientific and methodological approaches to the assessment of ecosystem services. Goal. The aim is to analyze methodological approaches to the cost assessment of forest ecosystem services and give an economic assessment of forest ecosystem services on the example of SE "Vovchanske forestry" of Kharkiv region. Methodology. Analytical research methods were used to determine standardized scientific and methodological approaches to the economic evaluation of ecosystem services and to identify forest ecosystem services for which there is sufficient source information for calculating the cost. The calculation method was used for the economic assessment of certain categories of forest ecosystem services and for the consolidated assessment of the cost of providing and regulating forest services of SE "Vovchanske forestry". Results. The result is a number of key principles of best practice for the cost assessment of ecosystem services “The Economics of Ecosystems and Biodiversity” (ТЕЕВ). Analysis of the main approaches to the commodification of ecosystem services made it possible to determine the established practice of their cost assessment on the basis of the Belarusian methodology "The procedure for carrying out a cost assessment of ecosystem services". The paper considers the main ecosystem services of the forest, identifies services for which there is enough initial information to calculate the cost. This is the characteristic of forestry SE "Vovchansky forestry". Of all the ecosystem services, forests are currently involved in market turnover and have an established cost of direct actual use services – providing services, and of the latter – the provision of wood. To calculate the cost of harvested wood, the average price was taken (taking into account the price of wood – firewood) per 1 m3 – 857 UAH/m3. The calculated cost of wood resources with a specific volume of felling 28.9 m3/ha is 24767 UAH/ha. In addition to wood, the forest also supplies the so-called non-wood resources, food resources and medicinal plants. The cost of wood and non-wood-providing forest services is 55297 UAH/ha. At the same time, the cost of non-wood resources exceeds the cost of harvested wood. Among the regulating ecosystem services of the forest, carbon dioxide assimilation is most often considered, which is an economically important factor in light of the problem of climate change and the Paris Agreement. In this paper, the estimate of the average annual absorption of carbon dioxide is carried out for the generalized age of plantings due to the inability to obtain data on the age indicators of certain areas of forestry and their growth areas. The calculation of the amount of carbon dioxide absorbed determines the assimilation capacity of the forest at 13.48 t/ha. At the existing rate per ton of $ 15 US (~ 420 UAH), the price of assimilation service is 5660 UAH/ha. Directly related to the assimilation of carbon dioxide, another regulatory service is the production of oxygen. At the cost of industrial oxygen production of 110.00 UAH/m3, the cost of the service is 55000 UAH/ha. Forests act as a filter, purify atmospheric air from various kinds of harmful impurities. The object of economic assessment of the assimilation potential of forest vegetation is the limiting content of pollutants in the phyto mass of the main forest-forming rocks. At the rates of environmental tax on substances emitted into the air, the cost of assimilation of pollutants is calculated, which is 17412 UAH/ha. The total cost of regulating ecosystem services of the forest is 81767,00 UAH/ha. Thus, the consolidated assessment of the cost of providing and regulating services of the forest SE "Vovchanske forestry" is 137054 UAH/ha. Originality. An economic assessment of the ecosystem services of the Volchanske forestry was carried out, the excess of the cost of regulatory services over services for the harvesting and delivery of timber and other “gifts” of the forest was determined. Practical value. The assessment of forest ecosystem services shows that the main value of the forest is not the provision of wood, but in the assimilation potential of the forest, its ability to maintain the cycle of substances and biodiversity. This must be taken into account when making environmental decisions and in order to develop paid nature management.

ABSTRACTWe identify, describe qualitatively, quantify biophysically and, if possible, monetarily valuate the most important ecosystem services in Swedish forests. Existing Swedish and Nordic research and statistics within this area are reviewed and used to develop a first framework for the valuation of ecosystem services in Swedish forests. We base our analysis on the CICES framework and the Cascade-model. Despite the rather long occurrence and use of the concept of ecosystem services, we do not yet have enough information on the status and economic value of services in Swedish forests. The value of the forest ecosystem services is at best an indication of the different multifunctional objectives that should be met in the management of the Swedish forests. The five most central ecosystem services in Swedish forests according to annual flow are timber and pulpwood, bioenergy, game, climate regulation and recreation and training, each estimated to have a monetary value of several billion SEK. The different ecosystem services in multipurpose forests interact with each other and may lead to conflicts between use and conservation. We identified a number of trade-offs and synergies between services focusing on the five above ecosystem services.

Mountain forest ecosystems provide a wide range of direct and indirect contributions to the people who live in the mountains and surrounding areas. Occupying steep slopes at high elevation, these ecosystems provide services such as stabilizing slopes, regulating hydrological cycles, maintaining rich biodiversity and supporting the livelihoods of those who are diverse in culture but vulnerable to poverty and food security. This paper (i) reviews several tools for assessing the sociocultural, economic and ecological values of mountain forest ecosystem services, (ii) demonstrates case studies of tool applications from several countries namely, Bhutan, India, Indonesia, Iran and Nepal, and (iii) discusses assessment challenges that should be considered in the application of these tools.In Bhutan, an application of benefit transfer showed that the average total value of forest ecosystem services was over USD 14.5 billion per year. In India, an application of stakeholder and household analyses indicated that a total of 29 different ecosystem services are available and sustain livelihoods of local communities near the Maguri Mottapung wetland. In Indonesia, an application of Q methodology identified anticipated benefits and concerns of forest watershed stakeholders related to certification applications for a payment for ecosystem services. In Iran, an application of the Integrated Valuation of Ecosystem Services and Trade-offs Tool showed that the regulation of ecosystem services has been declining in Hyrcanian forests despite the forests’ critical roles in the region. In Nepal, an application of a spatial analytical approach and participatory assessment techniques identified key mountain ecosystem services for community forests at the Charnawolti sub-watershed of Dolakha, and demonstrated forest restoration on degraded lands over the last two decades. Several challenges exist for the assessment of mountain forest ecosystem services and these must be reflected in assessment design. These challenges include the complexity of defining and classifying ecosystem services; limited availability of data on ecosystem services; uncertainties associated with climate change; complex relationships among services including trade-offs and synergies; and limitation of assessments to build successful payments for ecosystem services.Mountain forest ecosystems provide a wide range of direct and indirect contributions to the people who live in the mountains and surrounding areas. Occupying steep slopes at high elevation, these ecosystems provide services such as stabilizing slopes, regulating hydrological cycles, maintaining rich biodiversity and supporting the livelihoods of those who are diverse in culture but vulnerable to poverty and food security. This paper (i) reviews several tools for assessing the sociocultural, economic and ecological values of mountain forest ecosystem services, (ii) demonstrates case studies of tool applications from several countries namely, Bhutan, India, Indonesia, Iran and Nepal, and (iii) discusses assessment challenges that should be considered in the application of these tools. In Bhutan, an application of benefit transfer showed that the average total value of forest ecosystem services was over USD 14.5 billion per year. In India, an application of stakeholder and household analyses indicated that a total of 29 different ecosystem services are available and sustain livelihoods of local communities near the Maguri Mottapung wetland. In Indonesia, an application of Q methodology identified anticipated benefits and concerns of forest watershed stakeholders related to certification applications for a payment for ecosystem services. In Iran, an application of the Integrated Valuation of Ecosystem Services and Trade-offs Tool showed that the regulation of ecosystem services has been declining in Hyrcanian forests despite the forests’ critical roles in the region. In Nepal, an application of a spatial analytical approach and participatory assessment techniques identified key mountain ecosystem services for community forests at the Charnawolti sub-watershed of Dolakha, and demonstrated forest restoration on degraded lands over the last two decades. Several challenges exist for the assessment of mountain forest ecosystem services and these must be reflected in assessment design. These challenges include the complexity of defining and classifying ecosystem services; limited availability of data on ecosystem services; uncertainties associated with climate change; complex relationships among services including trade-offs and synergies; and limitation of assessments to build successful payments for ecosystem services.

As one of the last agricultural frontiers of the humid tropics, Amazonia is the largest area of the world currently undergoing frontier settlement. Although the earliest intrusions of foreign populations into Amazonia date from pre-Hispanic times, the large-scale entrance of peasant colonists into the vast region is a recent phenomenon. Much of this movement represents the spontaneous migration of peoples, but governments in the region have also become increasingly interested in opening up and integrating Amazonia to national and international economies. These actions are frequently seen as potential solutions to a number of national problems, including the need to increase agricultural production, correct spatial imbalances in the distribution of population, exploit frontier lands for reasons of national security, and defuse potentially serious political problems resulting from the existing agrarian structure, landlessness, and unemployment. The upper basin of the Amazon in Ecuador, bordering on the eastern slopes of the Andes, is one such area of frontier settlement. Recent decades have witnessed the rapid conversion of these Amazonian forests to agricultural uses through a series of schemes bearing such labels as land development and colonization. Most forest intervention in the region has come at the hands of colonist farmers attempting to establish land claims along transport routes originally constructed to aid in petroleum exploration and exploitation. These are farmers who formerly have made a living in long-established farmlands and who, for various reasons (population pressures, pervasive poverty, maldistribution of farmland, lack of inputs for intensive cultivation, lack of nonagrarian livelihood opportunities, and generally inadequate rural development) have been increasingly squeezed out of their homelands. A marginal person by virtue of his low socioeconomic and political status, the farmer often perceives

The capacity of ecosystems to supply ecosystem services is decreasing. Sustaining this supply requires an understanding of the links between the impacts of pressures introduced by human activities and how this can lead to changes in the supply of services. Here, we apply a novel approach, assessing ‘risk to ecosystem service supply’ (RESS), across a range of aquatic ecosystems in seven case studies. We link aggregate impact risk from human activities on ecosystem components, with a relative score of their potential to supply services. The greatest RESS is found where an ecosystem component with a high potential to supply services is subject to high impact risk. In this context, we explore variability in RESS across 99 types of aquatic ecosystem component from 11 realms, ranging from oceanic to wetlands. We explore some causes of variability in the RESS observed, including assessment area, Gross Domestic Product (GDP) and population density. We found that Lakes, Rivers, Inlets and Coastal realms had some of the highest RESS, though this was highly dependent on location. We found a positive relationship between impact risk and service supply potential, indicating the ecosystem components we rely on most for services, are also those most at risk. However, variability in this relationship indicates that protecting the supply of ecosystem services alone will not protect all parts of the ecosystem at high risk. Broad socio-economic factors explained some of the variability found in RESS. For example, RESS was positively associated with GDP and artificial and agricultural land use in most realms, highlighting the need to achieve balance between increasing GDP and sustaining ecosystem health and human wellbeing more broadly. This approach can be used for sustainable management of ecosystem service use, to highlight the ecosystem components most critical to supplying services, and those most at risk.

Understanding ecosystem services of detailed forest and wetland types using remote sensing and deep learning techniques in Northern China

Economic Valuation of Biological Diversity