Deterioration Of Biodiversity Research Articles

Review article: Biodegradation of Pharmaceutical Pollutants: Challenges, Mechanisms, and Environmental Implications

The emergence of such widespread pharmaceuticals as a pollutant has become one of the world's critical environmental problems that may lead to both the public's health and biodiversity deterioration. This article provides an exhaustive account of the current understanding of the environmental persistence of pharmaceutical contaminants following in-depth analysis of the additive effects of existing natural biodegradation pathways on the human health impact of these drugs. Paying special attention to biodegradation decomposing agents such as bacteria, fungi, and algae the paper estimates their ability to convert drug ingredients to compound that is eventually less toxic. Although these biologic systems contain an enormous potential for killing the unwanted pollutants, the variability in the complexity and endurance of the pharmaceutical substances overburden the degradation capabilities of these organisms thus necessitating improved biodegradation methods. Addressing the above-mentioned environmental factors, which include temperature, pH, and the occurrence of other contaminants, play a crucial role and have a direct impact that on the process of biodegradation, enhancing pollutants removal rate. To sum up, this paper enables the environmental science, microbiology and bioengineering enables creating progressively more functional and sustainable techniques of neutralizing these long-standing toxins; thus, protecting ecosystems, as well as human health.

Land use change and Ecological Network in rapid urban growth region in Selangor region, Malaysia

Rapid urbanization will cause various land use changes and the vast occupation of green spaces, a critical factor in the deterioration of biodiversity in urbanized areas. Some species of wildlife are endangered due to habitat shrunk and fragmentation. However, Malaysia's current biodiversity protection range is still limited. The Ecological Network (EN) refers to a framework of ecological components, which can be obtained by geographical and technical approaches to support more ecological diversity ranges. Furthermore, little research has been found on EN in Malaysia and the impact of land use change on EN. Therefore, the Selangor region is selected as the study area. This paper quantifies land use change and measures the extent of land use change to obtain the EN’s change. The result has shown that forestland has decreased, explored by people for housing and agriculture from 2000 to 2020. The EN has a trend of fragmentation. Overall, this study's results imply that the land use change led to EN's worsened performance from 2000 to 2020 in the study area. This paper hopes that this research could help supply information on conserving biodiversity in future development and urban sustainable planning in Malaysia.

The role of agroforestry in solving the agricultural landscapes vulnerabilities in the Po Plain district

The current trend of biodiversity deterioration in rural systems is a complex issue that operates across multiple spatial scales. Agroforestry practices have the potential to positively contribute towards addressing these trends by shaping the structure of agricultural landscapes and their underlying ecological functions. This study aims to test a multi-scale analytical approach to understand and account for these processes. Specifically, the study seeks to assess the contributions that agroforestry practices at the farm scale can make towards supporting biodiversity, in response to the wider-scale landscape eco-mosaic structural and functional challenges and requirements (both at the local and extra-local landscape systems). To achieve this, a series of landscape ecology analyses are conducted on an agroforestry-based rice farm located in the western Po Plain region of Northern Italy. These analyses examine various landscape structural traits (such as matrix composition, patch size, shape complexity, and diversity indices) and functional traits (including connectivity and bionomic indices), with different levels of detail for each scale of analysis. This allows for the evaluation of the current ecological status of both the extra-local and local scale landscape systems (including drivers of vulnerability and resilience) and the assessment of the farm's current contributions to biodiversity support. Based on these findings, strategic agroforestry interventions are identified at the farm scale to enhance its capacity to address the wider-scale ecological gaps. Two design scenarios are assessed, wherein functional ecological traits such as landscape diversity, connectivity, and ecological stability are improved. The results confirm the role of farm scale agroforestry management as a buffering tool, demonstrating how it contributes to the restoration of broader-scale landscape vulnerabilities. The applied approach provides cost-effective assessments of biodiversity-related ecological processes, with the accuracy of the findings dependent on the comprehensive multi-scale analysis conducted.

Evaluation of the Indoor Efficacy of Various Foliar-Applied Herbicides on Sicyos angulatus Seedlings

Sicyos angulatus is an increasingly pervasive alien species, has been identified as a significant contributor to the deterioration of biodiversity within the northern quadrant of the china. The objective of this investigation was to assess the efficacy of seven herbicides in suppressing the growth of S. angulatus seedlings, specifically targeting the early developmental phase. The application of the herbicides took place during the trileaf stage, a critical growth period. The herbicides under scrutiny included Prometryn, Thifensulfuron methyl, Nicosulfuron, Mesotrione, Bentazone, Imazethapyr, and a composite of Dicamba-Glyphosate-Triclopyr, with water serving as the control. To ensure consistent application and growth conditions, calibrated sprayers and standardized soil conditions were utilized. Data collection encompassed observations of toxicity, measurements of fresh weight, assessment of fresh weight effect, and the implementation of ANOVA to discern treatment variances, facilitating graphical comparison. The results indicated that all evaluated agents exhibited inhibitory effects on the seedlings. The Bentazone treatment exhibited an excellent control effect, with a fresh weight inhibition rate exceeding 95% on S. angulatus seedlings. Similarly, the Mesotrione and Dicamba-Glyphosate-Triclopy treatments demonstrated a good control effect, resulting in a fresh weight inhibition rate of over 85%. When treated with Prometryn, the S. angulatus seedlings displayed a moderate control effect, as indicated by a fresh weightinhibition rate exceeding 55%. However, Thifensulfuron methyl, Nicosulfuron, andImazethapyr showed poor control effects with a fresh weight inhibition rate below 55%. In light of these findings, it is posited that Mesotrione, Bentazone, and the Dicamba-Glyphosate-Triclopyr blend manifest as viable candidates for the prophylaxis and remediation of the early-stage growth of S. angulatus. Paramount to the study's conclusions is the lack of statistically significant disparity in the suppression outcomes across the concentration spectrum of the aforementioned efficacious agents. Hence, when juxtaposing ecotoxicological ramifications and economic considerations, the adoption of a concentration commensurate with the standard unitary dosage is proposed.

Molecular identification and in vitro propagation of the endangered medicinal Cleome droserifolia plant of Saint Katherine

The protectorate of Saint Katherine considers one of the biggest protected areas in Egypt characterized by a unique location and environment. It supports a high number of rare and endangered species. Cleome droserifolia (Rorida droserifolia) is an endangered plant found in Saint Katherine, Sinai, Egypt. It has been known for its medicinal uses so it becomes rare due to over-grazing and over-collection for use in traditional medicine, research and trade home use. DNA barcoding analysis and in vitro culture tools were conducted for saving the plant. This research supports the goal number 15 of the United Nations Sustainable Development (SDGs); aimed at preserving, restore and reinstate sustainable usage of terrestrial ecosystems and halting biodiversity deterioration. Two pairs primers of three DNA markers: [ribulose-1, 5-bisphosphate carboxylase/oxygenase large subunit (rbcL), maturase K (matK) and trnH-psbA] were used for PCR amplification and sequencing. BLAST results and phylogenetic analysis proved a correct authentication of Cleome droserifolia on both; species and genus levels and confirms the involvement of Cleome droserifolia in Cleome genus. For in vitro propagation, cotyledonary node explants of germinated seedlings were cultured on Murashige and Skoog (MS) medium fortified with 0.27 µM α-naphthaleneacetic acid (NAA), and 2.32 µM of kinetin (Kin). The highest mean number of axillary shoots was 8.16 shoots/explant. 85% of multiple shoots were successfully rooted on ¼ MS medium fortified with 7.42 µM indole-3-butyric acid (IBA). The successfully rooted plants were transferred to a mixture of sand, soil, and peat moss (1: 1: 1) and efficiently acclimatized in the greenhouse.

RECOGNIZING ROLE OF INDIGENOUS COMMUNITIES IN BIODIVERSITY CONSERVATION IN INDIA: AN ANALYSIS

The indigenous communities and biodiversity conservation are very closely inter-related and complementary to each other. Since ages, these communities have helped to evolve, nurture and protect the ecosystems in a sustainable manner. In India, since the ancient times, the indigenous communities have lived in harmony with nature and have played a vital role in protecting and conserving the forests and biodiversity. However, with passage of time and due to the socio-economic-political changes, the forests have become the property of the State and the indigenous communities have slowly been marginalised and separated from their traditional land and livelihood due to the developmental projects. This separation of the indigenous communities from land, forests and biodiversity has resulted in the destruction and deterioration of biodiversity. Thus, despite their critical role in conservation of biodiversity and ensuring resilient and healthy planet for people, the indigenous communities are often neglected and marginalized in environmental and developmental policies. In contemporary times, as the legal discourses focus on biodiversity conservation and protection it is essential to recognise the role played by indigenous communities in biodiversity conservation. In this context, this article examines the various ways in which biodiversity was conserved and the role of indigenous communities in biodiversity conservation in India. It tries to identify the reasons for exclusion of indigenous communities and its impact on biodiversity. Further, it attempts to analyse whether the Indian legal framework, particularly the environmental legislations contain any provisions recognizing role of indigenous communities in biodiversity conservation. Lastly the article attempts to give pragmatic solutions to include indigenous communities in biodiversity conservation in India.

Land Use-Based Participatory Assessment of Ecosystem Services for Ecological Restoration in Village Tank Cascade Systems of Sri Lanka

Village Tank Cascade System (VTCS) landscapes in the dry zone of Sri Lanka provide multiple ecosystem services (ESs) and benefits to local communities, sustaining the productivity of their land use systems (LUSs). However, there is a lack of adequate scientific research on the ESs of LUSs, despite the recent land use changes that have greatly impacted the provisioning of ESs. Collection of baseline ESs data is a pre-requisite for decision making on ESs-based ecological restoration and management of the VTCS. Thus, this study aimed at assessing ESs of the Mahakanumulla VTCS (MVTCS) located in the Anuradhapura district of Sri Lanka by using a participatory approach involving the integration of local knowledge, expert judgements and LUSs attribute data to assess the ESs. The methodology was designed to integrate the biodiversity and land degradation status of LUSs in a way that is directly linked with the supply of ESs. The study identified twenty-four ESs of the MVTCS based on community perceptions. The identified ESs were assessed as a function of LUSs to develop an ecosystem service supply (ESS) and demand (ESD) matrix model. The results reveal that the current overall ESD for regulating and supporting ESs is higher than the ESS capacity of MVTCS. The assessment also revealed that land degradation and biodiversity deterioration reduce the capacity to provide ESs. Downstream LUSs of the meso-catchment were found to be more vulnerable to degradation and insufficient to provide ESs. Further, the study established that ESs in the MVTCS are generated through direct species-based and biophysical-based providers. In addition, it emerged that social and cultural engagements also played an important role in association with both providers to generate certain types of ESs. Therefore, it can be concluded that VTCS ecological restoration depends on the extent to which integrated effort addresses the levels of ecological complexity, as well as the social engagement of communities and stakeholders. The results of this study provide a scientific basis that can inform future land use decision making and practices that are applicable to successful ESs-based ecological restoration and management of the VTCSs in the dry zone of Sri Lanka.

Harnessing the microbiome to prevent global biodiversity loss.

Global biodiversity loss and mass extinction of species are two of the most critical environmental issues the world is currently facing, resulting in the disruption of various ecosystems central to environmental functions and human health. Microbiome-targeted interventions, such as probiotics and microbiome transplants, are emerging as potential options to reverse deterioration of biodiversity and increase the resilience of wildlife and ecosystems. However, the implementation of these interventions is urgently needed. We summarize the current concepts, bottlenecks and ethical aspects encompassing the careful and responsible management of ecosystem resources using the microbiome (termed microbiome stewardship) to rehabilitate organisms and ecosystem functions. We propose a real-world application framework to guide environmental and wildlife probiotic applications. This framework details steps that must be taken in the upscaling process while weighing risks against the high toll of inaction. In doing so, we draw parallels with other aspects of contemporary science moving swiftly in the face of urgent global challenges.

Geoinformation system approach to the analysis of the impact of armed conflicts on the ecological condition of the environment

The article considers the experience of solving problems in assessing the impact of armed conflict on the environment. An analysis of international approaches implemented in the framework of relevant UN resolutions to prevent critical changes in environmental parameters caused by direct and indirect effects of armed conflict. The analysis showed that in the conditions of the armed conflict on the territory of Donbass unbalanced military natural-technogenic geosystem MNTGS was formed, which is characterized by destruction and pollution of soils, deterioration of biodiversity, destruction of potentially dangerous objects due to fires and active hostilities. In addition, the decommissioning and flooding of a large number of coal mines increases the environmental and man-made impact of MNTGS on the natural environment and safety of life. Taking into account the above, the article presents the main results of the development of a generalized model for assessing the impact of factors of armed conflict on all components of the environment. Suggested to intensify environmental monitoring of the areas of the armed conflict and increase its information content through the use of GIS, remote sensing and mathematical modeling technologies; organize measures to increase the resilience and accelerate the restoration of critical infrastructure networks in Donbass; to begin research of the newest ecological-technogenic and ecological-resource factors of military-technogenic threats in Europe's largest man-made coal region.

Enhancing whole-of-river conservation

We argue for improved conservation of freshwater ecosystems at catchment or eco-regional scales by explicit assignment of values to all river sections and wetlands, recognising current disturbance, and aiming for ‘no further harm’ to the commons. The need is indicated by the global deterioration of biodiversity and ecosystem services of rivers and wetlands, increasing demands on water and land resources, and climate change. Regional pressures include multiple jurisdictions, competing demands, piecemeal management, pollution and habitat impacts. Effective resource and conservation management needs to integrate multiple uses via governance of activities of stakeholders, recognising hydrogeomorphic, water quality and ecological properties of ecosystems. Complete ecological protection is impractical amidst water-resource and land-use development, but we suggest that all river reaches and wetlands be given a conservation rating based on habitat, biodiversity and connectivity values. We present a straightforward approach to spatial conservation rating of freshwaters, using hydrogeomorphic typology and assignment of conservation values on the basis of available information and expert elicitation. We illustrate the approach by using the large Burdekin River catchment in north-eastern Australia. This approach is complementary to more spatially focused conservation prioritisation and could greatly improve management for sustainability, reduce further decline in conservation values, and facilitate rehabilitation.

Understanding mechanisms that agricultural producers apply in response to evolving social pressures

Globally, the agricultural sector is linked to negative environmental outcomes, such as water quality and biodiversity deterioration. Consequently, agriculture faces increasing scrutiny by external stakeholders, such as the public and the media. The increasing environmental concerns and public scrutiny present challenges for agricultural producers to maintain stakeholder support, particularly in light-touch regulation countries such as New Zealand (NZ), where governmental intervention is low and stakeholders are able to influence the overall perception of farming. The theoretical concept of ‘organisational legitimacy’ has previously been used to study evolving social pressures, and refers to the informal approval or acceptance that stakeholders, such as the public, scientists, policy-makers, and local communities, grant to an individual business or sector. To identify how an agricultural sector copes with stakeholder acceptance, our study focuses on identifying strategies NZ dairy farmers adopt to retain stakeholder approval. Twenty-six dairy farmers were interviewed about changes they had made over the last five years, the motivation behind that change, and how stakeholder perceptions played a role in their businesses. Interviewees applied a combination of immediate responses to negative environmental contributions, and long-term responses to anticipate or avoid further challenging events. The study contributes to literature by introducing a theoretical lens novel to the study of stakeholder pressure on agricultural practices: organisational legitimacy. Furthermore, the study provides insights regarding the influence of stakeholder perspectives on farmer behaviour in a light-touch policy environment.

Conservation, Restoration, and Sustainable Use of Biodiversity Based on Habitat Quality Monitoring: A Case Study on Jeju Island, South Korea (1989–2019)

Biodiversity loss is progressing despite biodiversity being essential for human survival, prosperity, and well-being. Conservation, restoration, and sustainable use of the habitat, given that its change is the most prominent factor causing the deterioration of biodiversity, represents a highly effective way of securing biodiversity. Therefore, we assessed and monitored habitat quality as a proxy for biodiversity with habitat quantity in Jeju Island, South Korea. We used an InVEST model with data on the habitat type, suitability, sensitivity, accessibility, and threat factors. Natural habitats throughout Jeju had rapidly decreased in area by 24.9% from 1989 to 2019, and this change contributed to the degradation of habitat quality by 15.8%. We provided significant evidence on the critical degradation of habitat for a long period of over 30 years and highlighted the urgent need for policies and behaviors that enhance biodiversity. We proposed appropriate strategies to prompt people to conserve better, restore effectively, and use biodiversity sustainably. We expect that our findings will provide scientific and evidence-based guidance for policy-making on biodiversity enhancement and will further support achievement of the Sustainable Development Goals and Aichi Biodiversity Targets, in addition to compliance with the New Deal for Nature and People.

Riparian Area Changes in Greenness and Water Use on the Lower Colorado River in the USA from 2000 to 2020

Declines in riparian ecosystem greenness and water use have been observed in the delta of the Lower Colorado River (LCR) since 2000. The purpose of our case study was to measure these metrics on the U.S. side of the border between Hoover and Morelos Dams to see if declining greenness was unique to the portion of the river in Mexico. In this case study, five riparian reaches of the LCR from Hoover to Morelos Dam since 2000 were studied to evaluate trends in riparian ecosystem health. We measure these riparian woodlands using remotely sensed measurements of the two-band Enhanced Vegetation Index (EVI2; a proxy for greenness); daily evapotranspiration (ET; mmd−1) using EVI2 (ET(EVI2)); and an annualized ET based on EVI2, the Phenology Assessment Metric (PAM ET), an annualized ET using Landsat time-series. A key finding is that riparian health and its water use has been in decline since 2000 on the U.S. portion of the LCR, depicting a loss of green vegetation over the last two decades. EVI2 results show a decline of −13.83%, while average daily ET(EVI2) between the first and last decade had a decrease of over 1 mmd−1 (−27.30%) and the respective average PAM ET losses were 170.91 mmyr−1 (−17.95%). The difference between the first and last five-year periods, 2000–2005 and 2016–2020, showed the largest decrease in daily ET(EVI) of 1.24 mmd−1 (−32.61%). These declines come from a loss in healthy, green, riparian plant-cover, not a change in plant water use efficiency nor efficient use of managed water resources. Our results suggest further deterioration of biodiversity, wildlife habitat and other key ecosystem services on the U.S. portion of the LCR.

Ecohydrological responses to surface flow across borders: Two decades of changes in vegetation greenness and water use in the riparian corridor of the Colorado River delta

AbstractHydrological and bioclimatic processes that lead to drought may stress plants and wildlife, restructure plant community type and architecture, increase monotypic stands and bare soils, facilitate the invasion of non‐native plant species and accelerate soil erosion. Our study focuses on the impact of a paucity of Colorado River surface flows from the United States (U.S.) to Mexico. We measured change in riparian plant greenness and water use over the past two decades using remotely sensed measurements of vegetation index (VI), evapotranspiration (ET) and a new annualized phenology assessment metric (PAM) for ET. We measure these long‐term (2000–2019) metrics and their short‐term (2014–2019) response to an environmental pulse flow in 2014, as prescribed under Minute 319 of the 1944 Water Treaty between the two nations. In subsequent years, small‐directed flows were provided to restoration areas under Minute 323. We use 250 m MODIS and 30 m Landsat imagery to evaluate three vegetation indices (NDVI, EVI, EVI2). We select EVI2 to parameterize an optical‐based ET algorithm and test the relationship between ET from Landsat and MODIS by regression approaches. Our analyses show significant decreases in VIs and ET for both the 20‐year and post‐pulse 5‐year periods. Over the last 20 years, EVI Landsat declined 34% (30% by EVIMODIS) and ETLandsat‐EVI declined 38% (27% by ETMODIS‐EVI), overall ca. 1.61 mm/day or 476 mm/year drop in ET; using PAM ETLandsat‐EVI the drop was from 1130 to 654 mm/year. Over the 5 years since the 2014 pulse flow, EVILandsat declined 20% (13% by EVIMODIS) and ETLandsat‐EVI declined 23% (4% by ETMODIS‐EVI) with a 0.77 mm/day or a 209 mm/year 5‐year drop in ET; using PAM ETLandsat‐EVI the drop was from 863 to 654 mm/year. Data and change maps show the pulse flow contributed enough water to slow the rate of loss, but only for the very short‐term (1–2 years). These findings are critically important as they suggest further deterioration of biodiversity, wildlife habitat and key ecosystem services due to anthropogenic diversions of water in the U.S. and Mexico and from land clearing, fires and plant‐related drought which affect hydrological processes.

Adverse Impacts of Unethical Anthropogenic Activities upon the Teknaf Peninsula Ecologically Critical Area, Cox’s Bazar

The coastal zone of Bangladesh is endowed with dynamic ‘Terrestrial’ and ‘Coastal and Marine ecosystem’. The zone confronts with declined environmental quality owing to unethical anthropogenic interventions. Few studies regarding ethical attitudes of local communities to conserve the coast were conducted earlier. Two objectives, such as (i) heavy metal concentration, and (ii) physio-chemical quality of sample soil and water were selected to reveal the environmental state of study area. Five heavy metals like- Cadmium, Copper, Iron, Lead, and Zinc; and four physio-chemical parameters such as, the pH, Electrical Conductivity, Temperature, and Turbidity of sample soil and water were measured. The average concentration of Pb in soil is 10 times higher than world average (0.03 mg/g), while Cd concentration in soil is two times more than world average (0.11 mg/L). The concentration of Fe at Inani beach water is 1.54 mg/g more than world average (3.4 mg/g). The physio-chemical parameters are within standard range. Unethical discharge of toxic effluents from shrimp hatcheries, and municipal garbage are main sources of pollution, which ensue into environmental degradations. Concentration of five heavy metals and Calcium Carbonate (CaCO3) in sample mollusk shells exhibit biodiversity deterioration. The mollusk shells from Inani beach contains 0.04 mg/L Cd,0.08 mg/L Cu, 0.42 mg/L Fe, 0.38 mg/L Pb, and 0.07 mg/L Zn. The CaCO3 content in mollusk shells at Inani beach is 49.5%, which indicates the degradation of the mollusks, as shells normally are made with 95% - 97% Calcium Carbonate. Hence, the Department of Environment (DOE), Bangladesh (GoB) declared the area as an ‘Ecologically Critical Area’ (ECA). The concerned stakeholders, like- CPP volunteers and officials, Forest Division, Fisheries Research Institute, Bangladesh Water Development Board, Union Chairman and Journalists of Cox’s Bazar recommended insertion of moral values among local stakeholders through trainings, motivational lectures, demonstrations and dramas, as well as, incorporation of lessons about consequences of unethical activities upon geo-environment into text books. Though least practice has been found regarding moral values during survey, the present research advocates in developing ‘Knowledge pool’ about coastal environment, creating awareness, and developing moral ethics among the local, regional and national stakeholders.

Historia verde: 10 años de conservación, restauración, educación ambiental e investigación en la Pontificia Universidad Javeriana (Bogotá, Colombia)

La expansión acelerada de las ciudades ha propiciado el deterioro de la biodiversidad y los servicios ecosistémicos. Dado este contexto, es crucial establecer una infraestructura ecológica en las ciudades que, basada en el uso de especies de plantas nativas, soporte elementos naturales que mejoren la calidad de vida de las personas. En este sentido, la Pontificia Universidad Javeriana (PUJ) de Bogotá (Colombia) desde el año 2008, ha venido realizando esfuerzos orientados hacia la rehabilitación ecológica del campus, a través del proyecto Historia Verde. Este responde a objetivos en investigación, docencia y servicio, confirmando compromisos misionales de la PUJ y destacando aspectos de ornamentación, restauración ecológica y educación ambiental. El Jardín Botánico Javeriano establecido, cuenta con aproximadamente 2700 árboles de más de 150 especies, incluyendo algunas endémicas y otras en peligro de extinción. De manera complementaria, se han iniciado proyectos de techos productivos, sistemas de humedales artificiales y un apiario, así como la rehabilitación de espacios para la presencia de fauna silvestre. Futuros proyectos incluyen la generación de inventarios de otros grupos animales silvestres, el mejoramiento del sistema actual de registro de especies vegetales, y el fortalecimiento de vínculos con entidades ambientales y educativas a nivel nacional e internacional.

Changes in invertebrate community composition allow for consistent interpretation of biodiversity loss in ecological status assessment.

Biological communities change in response to human alteration. The response of individual taxa and the community can be used to establish preventive criteria to halt further biodiversity deterioration. Here we explore how consistent are the boundaries between Good and Moderate ecological status derived from classification systems used in North-NW Spain: NORThern Spain Indicators system (NORTI), River type specific multimetric (METI) and Iberian Bio-monitoring Working Party (IBMWP), by using common interpretation of normative definitions of Water Framework Directive. We applied the three classifications to a monitoring dataset of Nalón River basin, comprising samples from different stream types and reference conditions. We applied Threshold Indicator Taxa ANalysis to the invertebrate community along the most relevant environmental pressures and biological impairment gradients represented by the Ecological Quality Ratio (EQR) scores of the classification systems. Only NORTI provided a true community ecological threshold and the change point (cp) 95% quantile (Q95%) range of 0.760 was assumed to be the boundary from Good to Moderate (G/M) status, used to standardize the number of taxa loss in all systems. Since the average number of taxa at reference sites was 34, the estimated loss of sensitive taxa was up to 97.1% in IBMWP, 73.5% in METI and 52.9% in NORTI when passing from Good to Moderate status, revealing very permissive boundaries. The loss of common sensitive taxa in NORTI at Q95% was used as G/M threshold and applied to the other classifications, resulting all in a common biodiversity loss of 21% of sensitive taxa richness at values of NORTI-EQR = 0.760, METI-EQR = 0.818 and IBMWP-EQR = 0.753. Results indicate that significant community changes along pressure gradients allow for establishing quantitative criteria consistent with normative definitions. This understanding derived from Directive monitoring programs can assess the risk that invertebrate communities face in terms of species loss derived from anthropogenic pressures.

The Efficacy Analysis of Determining the Wooded and Shrubbed Area Based on Archival Aerial Imagery Using Texture Analysis

Open areas, along with their non-forest vegetation, are often threatened by secondary succession, which causes deterioration of biodiversity and the habitat’s conservation status. The knowledge about characteristics and dynamics of the secondary succession process is very important in the context of management and proper planning of active protection of the Natura 2000 habitats. This paper presents research on the evaluation of the possibility of using selected methods of textural analysis to determine the spatial extent of trees and shrubs based on archival aerial photographs, and consequently on the investigation of the secondary succession process. The research was carried out on imagery from six different dates, from 1971 to 2015. The images differed from each other in spectral resolution (panchromatic, in natural colors, color infrared), in original spatial resolution, as well as in radiometric quality. Two methods of textural analysis were chosen for the analysis: Gray level co-occurrence matrix (GLCM) and granulometric analysis, in a number of variants, depending on the selected parameters of these transformations. The choice of methods has been challenged by their reliability and ease of implementation in practice. The accuracy assessment was carried out using the results of visual photo interpretation of orthophotomaps from particular years as reference data. As a result of the conducted analyses, significant efficacy of the analyzed methods has been proved, with granulometric analysis as the method of generally better suitability and greater stability. The obtained results show the impact of individual image features on the classification efficiency. They also show greater stability and reliability of texture analysis based on granulometric/morphological operations.

Assessing biodiversity impacts in life cycle assessment framework - Comparing approaches based on species richness and ecosystem indicators in the case of Finnish boreal forests

Abstract Impacts of bioeconomy on climate have been much discussed, but less attention has been given to biodiversity deterioration. One approach to assess biodiversity impacts is Life Cycle Assessment (LCA). Finland is a forested country with intensive forest industries, but only coarse biodiversity LCA methods are available. The aim of this study was to further develop and apply approaches to assess the biodiversity impacts of wood use in Finland. With the species richness approach (all taxons included), biodiversity impacts were higher in Southern than in Northern Finland but impacts in Southern and Northern Finland were lower when mammals, birds and molluscs were included. With the ecosystem indicators approach, if the reference situation were forest in its natural state, biodiversity impacts were higher than in the case where the initial state of forest before final felling was used to derive biodiversity loss. In both cases, the biodiversity impacts were higher in Northern Finland. These results were not coherent as the model applying species richness data assesses biodiversity loss based on all species, whereas the ecosystem indicators approach considers vulnerable species. One limitation of the species richness approach was that there were no reliable datasets available. In the ecosystem indicators approach, it was noticed that the biodiversity of managed Finnish forests is substantially lower than in natural forests. Biodiversity LCA approaches are highly sensitive to reference states, applied model and data. It is essential to develop approaches capable of comparing biodiversity impacts of forest management practices, or when looking at multiple environmental impacts simultaneously with the LCA framework.

Scenario analysis of land-use and ecosystem services of social-ecological landscapes: implications of alternative development pathways under declining population in the Noto Peninsula, Japan

Population-decline and subsequent underuse of social-ecological landscapes are increasingly being recognized as one of the crucial drivers behind the loss and deterioration of biodiversity and ecosystem services. In line with this, the study aimed to explore how alternative development pathways influence future land-use patterns, biodiversity and ecosystem services against a rapidly declining population in the Noto peninsula of Japan. By combining land-use simulation and evaluation of ecosystem services, the study formulated four exploratory scenarios for 2050, assuming a contrasting level of the society’s reliance on domestic natural capital and different demographic patterns. At first, we analyzeds historical land-use changes between 1997 and 2007 and thereby simulated four plausible alternative scenarios using the Multi-Layer Perceptron Neural Network model. These scenarios were further used to quantify ecosystem services and landscape heterogeneity (as biodiversity indicator). The scenario analysis demonstrated that future land-use pattern could vary drastically depending on how the society utilize local natural capital even under the severe depopulation trend, whereas demographic patterns, in general, did not make discernible differences in land-use, biodiversity and ecosystem services. Nevertheless, a land-use change made considerable differences in the level of ecosystem services and landscape heterogeneity with varying degrees. Our analysis suggested that ecosystem services such as food production and nitrogen retention as well as landscape heterogeneity would decrease considerably by 2050 under the scenarios where the utilization of local natural capital decline and a significant amount of farmland are abandoned. Our findings highlight the vital role of land-use and agricultural policy in shaping the future availability of ecosystem services and biodiversity in this area.