Your search keyword '"Decsi B"' showing total 47 results

1. Climate change and modernization drive structural realignments in European grain production

Author

Pinke, Z., Decsi, B., Jámbor, A., Kardos, M. K., Kern, Z., Kozma, Z., and Ács, T.

Published

2022

2. High-Throughput Drug Stability Assessment via Biomimetic Metalloporphyrin-Catalyzed Reactions Using Laser-Assisted Rapid Evaporative Ionization Mass Spectrometry (LA-REIMS).

Author

Marton A, Mohácsi Z, Decsi B, Csillag B, Balog J, Schäffer R, Karancsi T, and Balogh GT

Abstract

Background: Building extensive drug candidate libraries as early in the development pipeline as possible, with high-throughput in vitro absorption, distribution, metabolism, and excretion (ADME) profiling, is crucial for the selection of lead compounds to guide subsequent research and production phases. Traditionally, the analysis of metabolic stability assays heavily relies on high-throughput LC-MS/MS (liquid chromatography tandem mass spectrometry) techniques to meet with the lead profiling demands. Laser-assisted rapid evaporative ionization mass spectrometry (LA-REIMS) is a quick and efficient technique for characterizing complex biological samples without laborious sample preparation. Objective: In this study, using an automated LA-REIMS well plate reader, achieving an 8 s per sample measurement time, the oxidative metabolic stability of active drug agents was assessed using biomimetic metalloporphyrin-based oxidative model reactions. Results: The results obtained using the novel LA-REIMS-based protocol were compared to and corroborated by those obtained using conventional HPLC-UV-MS (high performance liquid chromatography with ultra-violet detection coupled with mass spectrometry) measurements. Conclusions: LA-REIMS emerges as a promising technique, demonstrating potential suitability for semi-quantitative high-throughput metabolic stability in an optimized solvent environment.

Published

2024

3. Changing patterns of soil water content and relationship with national wheat and maize production in Europe

Author

Pinke, Z., Decsi, B., Kardos, M.K., Kern, Z., Kozma, Z., Pásztor, L., and Ács, T.

Subjects

Soil Science, Plant Science, Agronomy and Crop Science

Abstract

The warming of the climate and shrinking freshwater resources pose serious challenges to European agriculture. Meeting these challenges demands a thorough knowledge of the major trends in soil moisture patterns across the continent over time. Charting the available soil water (ASW) content (m3 m-3) derived from the ERA5 Land dataset in grid cells of 0.1° × 0.1°, the highest values occurred in the Alpine, Baltic and West Balkan countries, as well as in North Western Europe. However, a major part of the Mediterranean and the Carpathian-Balkan regions and Eastern Europe recorded the driest soils over recent decades. The annual average ASW decreased over almost the entire continent from 1981 to 2007, but to the greatest degree in Eastern Europe, while Northern Europe suffered least of all. For the summer half of the year, the available water content of the top 28 cm soil significantly decreased in 45.5 % of European croplands, while only 1.0% showed a significant moisture increase. Summer half-year moisture declined across almost the entirety of Eastern Europe, threatening the reproductive stage of wheat and maize vegetation period. Soil water content had a significant positive impact on wheat yields in an estimated 64.3 % of European wheat fields, and a negative one in 5.7 %. In the case of maize yields the positive impact of ASW was present in an estimated 89.4 % of maize-growing areas, explaining an estimated 46–72 % of maize yield variances in the majority of top European maize-producing countries. In contrast to wheat, negative soil water content impact for maize in the continent was not observed. Significant ASW - wheat and ASW - maize yield relationships were found with decreasing summer half year ASW in 32.0 % and 35.2 % of European croplands, respectively. The coexistence of the crop yield dependence on soil moisture and the decrease in available soil water content pose a considerable threat to grain production stability over extensive regions of Eastern and Western Europe. These warning signs call for an effective intervention on behalf of soil water conservation in European croplands.

Published

2022

4. Combined Nanofibrous Face Mask: Co-Formulation of Lipases and Antibiotic Agent by Electrospinning Technique.

Author

Balogh-Weiser D, Molnár A, Tóth GD, Koplányi G, Szemes J, Decsi B, Katona G, Salamah M, Ender F, Kovács A, Berkó S, Budai-Szűcs M, and Balogh GT

Abstract

The application of enzyme-based therapies has received significant attention in modern drug development. Lipases are one of the most versatile enzymes that can be used as therapeutic agents in basic skin care and medical treatment related to excessive sebum production, acne, and inflammation. The traditional formulations available for skin treatment, such as creams, ointments or gels, are widely applied; however, their use is not always accompanied by good drug penetration properties, stability, or patient adherence. Nanoformulated drugs offer the possibility of combining enzymatic and small molecule formulations, making them a new and exciting alternative in this field. In this study polymeric nanofibrous matrices made of polyvinylpyrrolidone and polylactic acid were developed, entrapping lipases from Candida rugosa and Rizomucor miehei and antibiotic compound nadifloxacin. The effect of the type of polymers and lipases were investigated, and the nanofiber formation process was optimized to provide a promising alternative in topical treatment. Our experiments have shown that entrapment by electrospinning induced two orders of magnitude increase in the specific enzyme activity of lipases. Permeability investigations indicated that all lipase-loaded nanofibrous masks were capable of delivering nadifloxacin to the human epidermis, confirming the viability of electrospinning as a formulation method for topical skin medications.

Published

2023

5. Effect of Binding Linkers on the Efficiency and Metabolite Profile of Biomimetic Reactions Catalyzed by Immobilized Metalloporphyrin.

Author

Balogh GT, Decsi B, Krammer R, Kenéz B, Ender F, Hergert T, and Balogh-Weiser D

Abstract

The investigation of liver-related metabolic stability of a drug candidate is a widely used key strategy in early-stage drug discovery. Metalloporphyrin-based biomimetic catalysts are good and well-described models of the function of CyP450 in hepatocytes. In this research, the immobilization of an iron porphyrin was performed on nanoporous silica particles via ionic interactions. The effect of the metalloporphyrin binding linkers was investigated on the catalytic efficiency and the metabolic profile of chloroquine as a model drug. The length of the amino-substituted linkers affects the chloroquine conversion as well as the ratio of human major and minor metabolites. While testing the immobilized catalysts in the continuous-flow reactor, results showed that the presented biomimetic system could be a promising alternative for the early-stage investigation of drug metabolites regarding analytical or synthetic goals as well.

Published

2022

6. Disentangling the ecosystem service 'flood regulation': Mechanisms and relevant ecosystem condition characteristics.

Author

Vári Á, Kozma Z, Pataki B, Jolánkai Z, Kardos M, Decsi B, Pinke Z, Jolánkai G, Pásztor L, Condé S, Sonderegger G, and Czúcz B

Subjects

Forests, Humans, Rivers, Water, Ecosystem, Floods

Abstract

Riverine floods cause increasingly severe damages to human settlements and infrastructure. Ecosystems have a natural capacity to decrease both severity and frequency of floods. Natural flood regulation processes along freshwaters can be attributed to two different mechanisms: flood prevention that takes place in the whole catchment and flood mitigation once the water has accumulated in the stream. These flood regulating mechanisms are not consistently recognized in major ecosystem service (ES) classifications. For a balanced landscape management, it is important to assess the ES flood regulation so that it can account for the different processes at the relevant sites. We reviewed literature, classified them according to these mechanisms, and analysed the influencing ecosystem characteristics. For prevention, vegetation biomass and forest extent were predominant, while for mitigation, the available space for water was decisive. We add some aspects on assessing flood regulation as ES, and suggest also to include flood hazard into calculations., (© 2022. The Author(s).)

Published

2022

7. The Climatic Energy Balance Diagram (CEBD) highlights changes in the hydrological cycle of the Danube River basin.

Author

Báder, László

Abstract

Abstract: The impacts of global warming are the subject of intense research. However, it is difficult to agree on ways to prevent and mitigate adverse changes until the root causes of the problem can be formulated in simple and understandable terms. The aim of this study is to highlight changes in the hydrological cycle using a new graphical method, the Climatic Energy Balance Diagram (CEBD), or climate diagram for short. The key terms of the energy balance equation determine the annual operating points or working points of the climatic energy distribution process. The easy-to-use visualization tool promotes evaporative fraction (EF) as a key metrics, expressing the efficiency of the climatic energy distribution process. Analysis has shown that keeping it at around 0.7 in the Danube basin requires increased evaporation. The 30-year average value of evaporation has increased by 29 mm (from 482 mm to 507 mm) while that of sensible heat by 23 mm (from 196 mm to 219 mm) between 1961–1990 and 1991–2020, both expressed in water-depth equivalents. A normalised version of the CEBD can be used to compare areas in different climatic conditions. The diagram highlights the key role of water and evaporation in the process of distributing climatic energy to ensure environmental sustainability and can facilitate better communications between different research areas and stakeholders (farmers, regulators, investors, policy makers) while maintaining a multidisciplinary approach. [ABSTRACT FROM AUTHOR]

Published

2025

8. Enhanced Stability of Lactobacillus paracasei Aspartate Ammonia-Lyase via Electrospinning for Enzyme Immobilization.

Author

Hsieh, Chun-Yen, Huang, Yi-Hao, Yu, Yu-Ting, Chang, Kai-Wei, Chen, Yung-Ju, and Hsieh, Lu-Sheng

Subjects

ENZYME stability, IMMOBILIZED enzymes, POLYVINYL alcohol, LACTOBACILLUS, INDUSTRIAL applications, DEXTRAN

Abstract

This study investigates the immobilization of Lactobacillus paracasei AAL (LpAAL) protein onto polyvinyl alcohol/nylon 6/chitosan nanofiber membranes using dextran polyaldehyde as a biodegradable cross-linker. Immobilization enhanced the enzyme's stability, shifting its optimal reaction conditions from 40 °C to 45 °C and pH from 8.0 to 8.5. While immobilization slightly reduced its catalytic efficiency, it significantly improved enzyme stability and reusability. The immobilized enzyme retained 85% of its initial activity after 7 days of storage at room temperature, compared to 55% for the free enzyme. Reusability tests demonstrated that immobilized LpAAL protein maintained approximately 50% of its activity after six consecutive reaction cycles, highlighting its robustness over repeated use. These results underscore the advantages of nanofiber-based immobilization in enhancing enzyme stability and utility for industrial applications, offering a practical approach to overcoming the limitations associated with free enzyme systems. [ABSTRACT FROM AUTHOR]

Published

2025

9. Agro-Climatic Zoning of the Territory of Northern Kazakhstan for Zoning of Agricultural Crops Under Conditions of Climate Change.

Author

Baisholanov, Saken, Akshalov, Kanat, Mukanov, Yerbolat, Zhumabek, Bakytbek, and Karakulov, Ergali

Subjects

FARM management, CROPS, INFORMATION professionals, GROWING season, FOOD security

Abstract

Assessments of the agro-climatic resources of Northern Kazakhstan are urgently needed in the face of climate change and increasing threats to food security in the world, and they can provide valuable information for specialists in the field of agriculture. To assess the agro-climatic conditions of Northern Kazakhstan, the following agro-climatic indices were used: heat availability, moisture availability, and aridity of the growing season for the period 1991–2023. The research results rendered it possible to build maps of the spatial distribution of agro-climatic indicators, and five agro-climatic zones, ranging from "moderately humid moderately warm" in the north to "very arid moderately hot" in the south of Northern Kazakhstan, were identified. Recommendations were developed with respect to the agro-climatic zoning of main crops, taking into account the climatic resources of Northern Kazakhstan. The data obtained will be used for the strategic planning of the agricultural crop industry in Northern Kazakhstan. [ABSTRACT FROM AUTHOR]

Published

2025

10. Impact of Nature Conservation Resources of Agroecology: Insights from Hungarian Farmers and Consumer Perspectives.

Author

Harkányi, Annamária and Ujj, Apolka

Subjects

AGRICULTURAL exhibitions, SUSTAINABLE development, AGRICULTURE, SUSTAINABILITY, ORGANIC farming, BIODIVERSITY conservation

Abstract

This study investigated the implementation of agroecological principles on three organic farms in Hungary, focusing on four resource-focused, nature conservation-related agroecological basic elements identified by the FAO: biodiversity, interactions, recycling, and resilience. This research employed a mixed-methods approach, utilising in-depth interviews as a technique to explore farmers' practices and a questionnaire survey as a tool to assess consumer perspectives (with 63 respondents). The interviews facilitated a qualitative exploration of how agroecological practices are applied on farms, providing rich insights into the farmers' experiences. Meanwhile, the questionnaire survey served as a structured instrument to measure consumer awareness and motivations concerning environmentally friendly farming methods. NVivo 12 software was employed for qualitative data analysis, assisting in coding and organizing responses to better understand recurring themes and patterns. The researchers found that all farms exhibited high biodiversity levels, facilitated through practices such as companion planting, crop rotation, and maintaining natural habitat patches. Agroecological farmers focus on practices suited to the landscape, fostering beneficial organisms and enhancing interactions between nature and agriculture. Integrating farm components (e.g., crops, livestock, water) promotes synergies that improve productivity and reduce reliance on external inputs. Recycling resources (like organic waste) within the farm increases efficiency, while resilience is strengthened through biodiversity, allowing farms to better withstand environmental stress. Direct marketing builds connections between producers and consumers, raising awareness of conservation practices. Consumer awareness regarding environmentally friendly agricultural practices was notably high, with findings indicating that health and ecological conservation motivations drive their purchasing decisions. This study highlights the context-dependent nature of agroecological practices, revealing that while implementation is robust, economic sustainability constraints may limit the extent to which all elements can be effectively applied. Since this research has certain limitations due to the limited sample size, expanding the study to include more farms would strengthen the findings. Nonetheless, these findings underscore the importance of integrating agroecological principles in organic farming to enhance biodiversity and foster sustainable agricultural practices. [ABSTRACT FROM AUTHOR]

Published

2024

11. Unveiling the Intra-Annual and Inter-Annual Spatio-Temporal Dynamics of Sediment Inflow to Rivers and Driving Factors in Cloud-Prone Regions: A Case Study in Minjiang River Basin, China.

Author

Wang, Xiaoqin, Yu, Zhichao, Li, Lin, Li, Mengmeng, Lin, Jinglan, Tang, Lifang, Chen, Jianhui, Lin, Haihan, Chen, Miao, Jin, Shilai, Chen, Yunzhi, and Zhou, Xiaocheng

Subjects

LEAF area index, SOIL erosion, REMOTE sensing, SEDIMENT transport, WATERSHEDS, RIVER sediments

Abstract

Accurately delineating sediment export dynamics using high-quality vegetation factors remains challenging due to the spatio-temporal resolution imbalance of single remote sensing data and persistent cloud contamination. To address these challenges, this study proposed a new framework for estimating and analyzing monthly sediment inflow to rivers in the cloud-prone Minjiang River Basin. We leveraged multi-source remote sensing data and the Continuous Change Detection and Classification model to reconstruct monthly vegetation factors at 30 m resolution. Then, we integrated the Chinese Soil Loss Equation model and the Sediment Delivery Ratio module to estimate monthly sediment inflow to rivers. Lastly, the Optimal Parameters-based Geographical Detector model was harnessed to identify factors affecting sediment export. The results indicated that: (1) The simulated sediment transport modulus showed a strong Coefficient of Determination (R2 = 0.73) and a satisfactory Nash–Sutcliffe Efficiency coefficient (0.53) compared to observed values. (2) The annual sediment inflow to rivers exhibited a spatial distribution characterized by lower levels in the west and higher in the east. The monthly average sediment value from 2016 to 2021 was notably high from March to July, while relatively low from October to January. (3) Erosive rainfall was a decisive factor contributing to increased sediment entering the rivers. Vegetation factors, manifested via the quantity (Fractional Vegetation Cover) and quality (Leaf Area Index and Net Primary Productivity) of vegetation, exert a pivotal influence on diminishing sediment export. [ABSTRACT FROM AUTHOR]

Published

2024

12. مدل سازی و برآورد اقتصادی خسارت تغییر اقلیم بر خدمت اکوسیستمی کنترل رواناب در گون زارهای زاگرس مرکزی.

Author

محمد جواد آقاسی, سید علیرضا موسوی, مصطفی ترکش اصفها, and سعید سلطانی

Subjects

CLIMATE change, WATER currents, SOIL depth, ECOSYSTEM services, DAMAGES (Law), LAND cover, WATERSHED management

Abstract

Astragalus is the vegetation of many mountains of Iran's plateau and plays a major role in providing ecosystem services due to its pillow shape and deep rooting system, they facilitate the control and penetration of precipitation into the soil. The correlation of Astragalus ecosystems with arid and semi-arid climates has made them vulnerable to climate change. In this study, a runoff yield map based on the Budyco curve under current and future conditions of climate change (2050) was prepared using climate and temperature data from the Chelsea site (CanESM2 GCM) in TerrSet software and by using maps of sub-watersheds, annual precipitation, annual potential evapotranspiration, soil depth, plant accessible water and the current and future "Land Cover - Land Use" map, with a combination of field methods and species distribution models at the local scale of the Shur River watershed of Dehaghan (Central Zagros). Finally, the excess runoff damage produced due to climate change was estimated using the replacement cost method. The results indicated an increase in the annual runoff volume of the watershed from 70 million cubic meters to 105 million cubic meters under climate change conditions for the RCP26 scenario in 2050. Taking into account the cost of 10 million Rials for controlling 530 cubic meters of runoff through various watershed management projects, preventing the damages of excess runoff produced requires a credit amounting to 660 billion Rials based on the present value. This study proved the ability of TerrSet software to predict and produce an ecosystem service map of runoff yield under climate changes or land use changes and with the purpose of valuation on a local scale. Also, the above valuation can be the basis for planning and providing credit for the study and implementation of watershed management projects to deal with the threats of climate change. [ABSTRACT FROM AUTHOR]

Published

2024

13. NATURE'S CONTRIBUTIONS TO PEOPLE: SYSTEMATIC MAPPING OF STUDIES AND INVENTORY OF METHODOLOGIES AND INDICATORS FOR QUANTIFYING HYDROLOGICAL ECOSYSTEM SERVICES.

Author

de Araujo Fonseca, Fernanda Nunes, da Cunha Bustamante, Mercedes Maria, and Nazareno dos Anjos, Sérgio Saraiva

Subjects

BIBLIOMETRICS, HYDROLOGIC cycle, ECOSYSTEM services, SCIENCE databases, WATERSHEDS, BIBLIOGRAPHIC databases

Abstract

Copyright of Environmental & Social Management Journal / Revista de Gestão Social e Ambiental is the property of Environmental & Social Management Journal and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

14. Identifying Conservation Priority Areas of Hydrological Ecosystem Service Using Hot and Cold Spot Analysis at Watershed Scale.

Author

Gwal, Srishti, Sena, Dipaka Ranjan, Srivastava, Prashant K., and Srivastava, Sanjeev K.

Subjects

CROP yields, GROUNDWATER flow, SUSTAINABILITY, PROTECTED areas, AGRICULTURE, ECOSYSTEM services

Abstract

Hydrological Ecosystem Services (HES) are crucial components of environmental sustainability and provide indispensable benefits. The present study identifies critical hot and cold spots areas of HES in the Aglar watershed of the Indian Himalayan Region using six HES descriptors, namely water yield (WYLD), crop yield factor (CYF), sediment yield (SYLD), base flow (LATQ), surface runoff (SURFQ), and total water retention (TWR). The analysis was conducted using weightage-based approaches under two methods: (1) evaluating six HES descriptors individually and (2) grouping them into broad ecosystem service categories. Furthermore, the study assessed pixel-level uncertainties that arose because of the distinctive methods used in the identification of hot and cold spots. The associated synergies and trade-offs among HES descriptors were examined too. From method 1, 0.26% area of the watershed was classified as cold spots and 3.18% as hot spots, whereas method 2 classified 2.42% area as cold spots and 2.36% as hot spots. Pixel-level uncertainties showed that 0.57 km2 and 6.86 km2 of the watershed were consistently under cold and hot spots, respectively, using method 1, whereas method 2 identified 2.30 km2 and 6.97 km2 as cold spots and hot spots, respectively. The spatial analysis of hot spots showed consistent patterns in certain parts of the watershed, primarily in the south to southwest region, while cold spots were mainly found on the eastern side. Upon analyzing HES descriptors within broad ecosystem service categories, hot spots were mainly in the southern part, and cold spots were scattered throughout the watershed, especially in agricultural and scrubland areas. The significant synergistic relation between LATQ and WYLD, and sediment retention and WYLD and trade-offs between SURFQ and HES descriptors like WYLD, LATQ, sediment retention, and TWR was attributed to varying factors such as land use and topography impacting the water balance components in the watershed. The findings underscore the critical need for targeted conservation efforts to maintain the ecologically sensitive regions at watershed scale. [ABSTRACT FROM AUTHOR]

Published

2024

15. Evaluation of Climate Suitability for Maize Production in Poland under Climate Change.

Author

Król-Badziak, Aleksandra, Kozyra, Jerzy, and Rozakis, Stelios

Abstract

Climatic conditions are the main factor influencing the suitability of agricultural land for crop production. Therefore, the evaluation of climate change impact on crop suitability using the best possible methods and data is needed for successful agricultural climate change adaptation. This study presents the application of a multi-criteria evaluation approach to assess climate suitability for maize production in Poland, for a baseline period (BL, 1981–2010) and two future periods 2041–2070 (2050s) and 2071–2100 (2080s) under two RCP (Representative Concentration Pathways) scenarios: RCP4.5 and RCP8.5. The analyses incorporated expert knowledge using the Analytical Hierarchy Process (AHP) into the evaluation of criteria weights. The results showed that maturity and frost stress were the most limiting factors in assessing the climatic suitability of maize cultivation in Poland, with 30% and 11% of Poland classified as marginally suitable or not suitable for maize cultivation, respectively. In the future climate, the area limited by maturity and frost stress factors is projected to decrease, while the area of water stress and heat stress is projected to increase. For 2050 climate projections, water stress limitation areas occupy 7% and 8% of Poland for RCP4.5 and RCP8.5, respectively, while for 2080 projections, the same areas occupy 12% and 32% of the country, respectively. By 2080, heat stress will become a limiting factor for maize cultivation; according to our analysis, 3% of the Polish area under RCP8.5 will be marginally suitable for maize cultivation because of heat stress. The overall analyses showed that most of Poland in the BL climate is in the high suitability class (62%) and 38% is moderately suitable for maize cultivation. This situation will improves until 2050, but will worsen in the 2080s under the RCP8.5 scenario. Under RCP8.5, by the end of the century (2080s), the highly suitable area will decrease to 47% and the moderately suitable area will increase to 53%. [ABSTRACT FROM AUTHOR]

Published

2024

16. Evaluation of the Long-Term Water Balance in Selected Crop Rotations with Alfalfa in a Soil-Heterogeneous Lowland Region of the Czech Republic.

Author

Placatová, Renata, Papaj, Vladimír, Fučík, Petr, Brázda, Jiří, Pacek, Lukáš, and Tlustoš, Pavel

Subjects

SUSTAINABLE agriculture, ROOT crops, AGRICULTURE, WATER requirements for crops, AGRICULTURAL water supply, CROP rotation, SORGHUM

Abstract

The Czech Republic has diverse soil conditions, which cause notable differences in crop water balance (WB). To assess the long-term crop WB and crop water stress (CWS) intensity in rainfed conditions, four conventional eight- and ten-year crop rotations (CRs) with perennial forage (alfalfa), cereals, oilseeds, root crops and legumes were proposed for a heterogeneous lowland soil region (six texture classes) in eastern Bohemia. Two of the CRs were selected irrespective of the WB (eight-year, C-8; ten-year, C-10), and the other two were designated according to soil water resources and crop water requirements (CWRs) as water-saving (W-S) and water-demanding (W-D) for this region. All CRs had a negative WB on average (i.e., CWRs exceeded the available water resources), with varying degrees of CWS (categories 1 (low) to 4 (high)). The W-S CR reduced the WB deficit relative to the other CRs by omitting maize, sunflower and sugar beet and including sorghum, and expanded the proportion of the area not affected by CWS (categories 1–2) to 33% for predominantly loamy soils. In contrast, categories 1–2 in the C-8, C-10 and W-D CRs represented only 15%, 14% and 7% of the area, respectively. Other areas were significantly affected by CWS (categories 3–4) and showed a high risk of yield reduction. These results may help in implementing sustainable farming systems that consider environmental perspectives related to agricultural water use in Central Europe. [ABSTRACT FROM AUTHOR]

Published

2024

17. Genome-wide association study reveals 18 QTL for major agronomic traits in a Nordic-Baltic spring wheat germplasm.

Author

Aleliūnas, Andrius, Gorash, Andrii, Armonienė, Rita, Tamm, Ilmar, Ingver, Anne, Bleidere, Māra, Fetere, Valentīna, Kollist, Hannes, Mroz, Tomasz, Lillemo, Morten, and Brazauskas, Gintaras

Subjects

GENOME-wide association studies, WINTER wheat, LOCUS (Genetics), WHEAT, SINGLE nucleotide polymorphisms, GERMPLASM, PRINCIPAL components analysis

Abstract

Spring wheat (Triticum aestivum L.) remains an important alternative to winter wheat cultivation at Northern latitudes due to high risk of overwintering or delayed sowing of winter wheat. We studied nine major agronomic traits in a set of 299 spring wheat genotypes in trials across 12-year-site combinations in Lithuania, Latvia, Estonia, and Norway for three consecutive years. The dataset analyzed here consisted of previously published phenotypic data collected in 2021 and 2022, supplemented with additional phenotypic data from the 2023 field season collected in this study. We combined these phenotypic datasets with previously published genotypic data generated using a 25K single nucleotide polymorphism (SNP) array that yielded 18,467 markers with a minor allele frequency above 0.05. Analysis of these datasets via genome-wide association study revealed 18 consistent quantitative trait loci (QTL) replicated in two or more trials that explained more than 5% of phenotypic variance for plant height, grain protein content, thousand kernel weight, or heading date. The most consistent markers across the tested environments were detected for plant height, thousand kernel weight, and days to heading in eight, five, and six trials, respectively. No beneficial effect of the semi-dwarfing alleles Rht-B1b and Rht-D1b on grain yield performance was observed across the 12 tested trials. Moreover, the cultivars carrying these alleles were low yielding in general. Based on principal component analysis, wheat genotypes developed in the Northern European region clustered separately from those developed at the southern latitudes, and markers associated with the clustering were identified. Important phenotypic traits, such as grain yield, days to heading, grain protein content, and thousand kernel weight were associated with this clustering of the genotype sets. Interestingly, despite being adapted to the Nordic environment, genotypes in the Northern set demonstrated lower grain yield performance across all tested environments. The results indicate that spring wheat germplasm harbors valuable QTL/alleles, and the identified traitmarker associations might be useful in improving Nordic-Baltic spring wheat germplasm under global warming conditions. [ABSTRACT FROM AUTHOR]

Published

2024

18. Biodiversity and Climate Extremes: Known Interactions and Research Gaps.

Author

Mahecha, M. D., Bastos, A., Bohn, F. J., Eisenhauer, N., Feilhauer, H., Hickler, T., Kalesse‐Los, H., Migliavacca, M., Otto, F. E. L., Peng, J., Sippel, S., Tegen, I., Weigelt, A., Wendisch, M., Wirth, C., Al‐Halbouni, D., Deneke, H., Doktor, D., Dunker, S., and Duveiller, G.

Subjects

CLIMATE extremes, EVIDENCE gaps, EXTREME weather, ECOSYSTEMS, BIODIVERSITY, ATMOSPHERIC sciences

Abstract

Climate extremes are on the rise. Impacts of extreme climate and weather events on ecosystem services and ultimately human well‐being can be partially attenuated by the organismic, structural, and functional diversity of the affected land surface. However, the ongoing transformation of terrestrial ecosystems through intensified exploitation and management may put this buffering capacity at risk. Here, we summarize the evidence that reductions in biodiversity can destabilize the functioning of ecosystems facing climate extremes. We then explore if impaired ecosystem functioning could, in turn, exacerbate climate extremes. We argue that only a comprehensive approach, incorporating both ecological and hydrometeorological perspectives, enables us to understand and predict the entire feedback system between altered biodiversity and climate extremes. This ambition, however, requires a reformulation of current research priorities to emphasize the bidirectional effects that link ecology and atmospheric processes. Plain Language Summary: Climate extremes are increasing and impacting both nature and people. We hypothesize that intact ecosystems, particularly via their biodiversity, can mitigate the impacts of climate extremes. What happens when biodiversity decreases? Could this loss make the effects of climate extremes even worse or change how these events occur? We explore these two questions and summarize the current state of knowledge. We conclude that targeted research efforts at the interface of ecology and atmospheric sciences are needed to answer these questions conclusively. Key Points: Mounting evidence suggests that an ecosystem's capacity to buffer the impacts of climate extremes depends on its biodiversityNumerous mechanisms suggest that a reduction in biodiversity could exacerbate climate extremesA series of research gaps need to be addressed to understand the full feedback between biodiversity change and climate extremes [ABSTRACT FROM AUTHOR]

Published

2024

19. Enhancing Water Ecosystem Services Using Environmental Zoning in Land Use Planning.

Author

Anjinho, Phelipe da Silva, Barbosa, Mariana Abibi Guimarães Araujo, Peponi, Angeliki, Duarte, Gonçalo, Branco, Paulo, Ferreira, Maria Teresa, and Mauad, Frederico Fábio

Abstract

Land use and land cover (LULC) changes alter the structure and functioning of natural ecosystems, impacting the potential and flow of ecosystem services. Ecological restoration projects aiming to enhance native vegetation have proven effective in mitigating the impacts of LULC changes on ecosystem services. A key element in implementing these projects has been identifying priority areas for restoration, considering that resources allocated to such projects are often limited. This study proposes a novel methodological framework to identify priority areas for restoration and guide LULC planning to increase the provision of water ecosystem services (WESs) in a watershed in southeastern Brazil. To do so, we combined biophysical models and multicriteria analysis to identify priority areas for ecological restoration, propose environmental zoning for the study area, and quantify the effects of LULC changes and of a planned LULC scenario (implemented environmental zoning) on WES indicators. Previous LULC changes, from 1985 to 2019, have resulted in a nearly 20% increase in annual surface runoff, a 50% increase in sediment export, a 22% increase in total nitrogen (TN) export, and a 53% increase in total phosphorus (TP) export. Simultaneously, they reduced the provision of WESs (baseflow −27%, TN retention −10%, and TP retention −16%), except for sediment retention, which increased by 35% during the analyzed period. The planned LULC scenario successfully increased the provision of WESs while reducing surface runoff and nutrient and sediment exports. The methodology employed in this study proved to be effective in guiding LULC planning for improving WES. The obtained results provide a scientific foundation for guiding the implementation of WES conservation policies in the studied watershed. This method is perceived to be applicable to other watersheds. [ABSTRACT FROM AUTHOR]

Published

2024

20. Nanotechnology in Lubricants: A Systematic Review of the Use of Nanoparticles to Reduce the Friction Coefficient.

Author

Garcia Tobar, Milton, Contreras Urgiles, Rafael Wilmer, Jimenez Cordero, Bryan, and Guillen Matute, Julio

Abstract

The study of lubricating oil is paramount for the optimal functioning of modern engines, and it has generated intensive research in the automotive industry. The aim is to improve the tribological properties of lubricants by including nanomaterials as additives in base oils. This article presents an exhaustive bibliographic review of the experiments carried out to optimize the tribological properties of nano-lubricants in order to identify the nanoparticles and experimental processes used and analyze the results obtained. The methodology adopted combines inductive and deductive elements. It begins with the formulation of a general theory on the application of nanoparticles in lubricants, followed by the collection of specific data on the conceptualization and preparation of nano-lubricants. A total of 176 articles focused on the application of nanoparticles in lubricants, especially to reduce the coefficient of friction, are reviewed. These works, with impact levels Q1 and Q2, delve into the application and are analyzed to review the obtained results. Most researchers worked with a nanoparticle concentration range of 0% to 1% by volume. [ABSTRACT FROM AUTHOR]

Published

2024

21. Stochastic analysis of plant available water estimates and soil water balance components simulated by a hydrological model.

Author

de Jong van Lier, Quirijn, de Melo, Marina Luciana Abreu, and Pinheiro, Everton Alves Rodrigues

Subjects

HYDROLOGIC models, PLANT-water relationships, STOCHASTIC analysis, SOIL moisture, AQUATIC plants, WATERSHEDS

Abstract

The uncertainty in soil hydraulic parameters is often not taken into account in process‐based hydrological modeling. Performing runs with 104 stochastic parameter realizations, we evaluated the propagation of uncertainty in the Van Genuchten–Mualem (VGM) parameters into estimates of the threshold values of soil water content used to calculate the total and readily available water, and on the long‐term (30 years) simulations of evaporation, transpiration, bottom flux, and runoff by the SWAP hydrological model. The simulated scenarios included weather data from a location in southeast Brazil and seven soils from the same region cropped with maize, comprising a wide range of texture classes. The results showed that uncertainties in VGM parameters affect the estimates of total and readily available water. Water balance components obtained by a deterministic simulation with average VGM parameters did not always agree with the average or median of stochastic simulations, and stochastic simulations including parameter uncertainties should be preferred. Variations in yearly rainfall characteristics were more important for bottom flux and evaporation, while transpiration and runoff were more strongly influenced by the variations in soil hydraulic properties. Core Ideas: Hydraulic parameter uncertainty and correlations can be used in stochastic simulations with a hydrological model.Parameter uncertainty propagates more strongly into estimates of plant available water than in its threshold water contents.Stochastic averages of simulated water balance components may differ from deterministically obtained values.Bottom flux and evaporation respond to rainfall, while transpiration and runoff depend most on soil properties. [ABSTRACT FROM AUTHOR]

Published

2024

22. The Role of Soil Microbial Consortia in Sustainable Cereal Crop Residue Management.

Author

Shamshitov, Arman, Kadžienė, Gražina, and Supronienė, Skaidrė

Subjects

CROP residues, CROP management, CARBON sequestration, AGRICULTURE, MICROBIAL communities

Abstract

The global escalation in cereal production, essential to meet growing population demands, simultaneously augments the generation of cereal crop residues, estimated annually at approximately 3107 × 106 Mg/year. Among different crop residue management approaches, returning them to the soil can be essential for various ecological benefits, including nutrient recycling and soil carbon sequestration. However, the recalcitrant characteristics of cereal crop residues pose significant challenges in their management, particularly in the decomposition rate. Therefore, in this review, we aim to summarize the influence of different agricultural practices on enhancing soil microbial decomposer communities, thereby effectively managing cereal crop residues. Moreover, this manuscript provides indirect estimates of cereal crop residue production in Northern Europe and Lithuania, and highlights the diverse roles of lignocellulolytic microorganisms in the decomposition process, with a particular focus on enzymatic activities. This review bridges the knowledge gap and indicates future research directions concerning the influence of agricultural practices on cereal crop residue-associated microbial consortia. [ABSTRACT FROM AUTHOR]

Published

2024

23. A multi-scenario multi-model analysis of regional climate projections in a Central–Eastern European agricultural region: assessing shallow groundwater table responses using an aggregated vertical hydrological model.

Author

Koncsos, László and Murányi, Gábor

Subjects

WATER management, HYDROLOGIC models, AGRICULTURE, CLIMATE change models, METEOROLOGICAL databases, CLIMATE change forecasts, WATER levels

Abstract

The 2022 drought highlighted Hungary's vulnerability to climate change, especially the Great Hungarian Plain. Soil moisture, which is crucial for agriculture, depends on the position of the shallow groundwater table. This study investigated the effects of climate change on groundwater table fluctuations in more than 500 wells on the plain. An integrated vertical hydrological model, assuming negligible horizontal subsurface flows, employed the Dunay–Varga-Haszonits methodology for evaporation and Kovács approach for the water retention curve. Verified with two meteorological databases, the model was accepted for 463 wells based on NSE > 0.4 and RMSE < 0.5 m criteria. The FORESEE HUN v1.0 dataset proved suitable after spatial consistency tests. Examining 28 bias- and discontinuity-corrected climate model projections on these wells revealed a general decline in the groundwater table. Differences between trends to 2050 and 2100 suggested lower groundwater levels by mid-century. This research highlights climate change impacts in a crucial Central-European agricultural region in the Carpathian Basin and emphasizes the importance of modeling climate change-induced changes in shallow groundwater levels in water resources management. [ABSTRACT FROM AUTHOR]

Published

2024

24. A Step from Vulnerability to Resilience: Restoring the Landscape Water-Storage Capacity of the Great Hungarian Plain—An Assessment and a Proposal.

Author

Timár, Gábor, Jakab, Gusztáv, and Székely, Balázs

Subjects

FRONTS (Meteorology), THUNDERSTORMS, DROUGHTS, WATER storage, SOIL infiltration, SOIL structure, TILLAGE

Abstract

The extreme drought in Europe in 2022 also hit hard the Great Hungarian Plain. In this short overview article, we summarize the natural environmental conditions of the region and the impact of river control works on the water-retention capacity of the landscape. In this respect, we also review the impact of intensive agricultural cultivation on soil structure and on soil moisture in light of the meteorological elements of the 2022 drought. The most important change is that the soil stores much less moisture than in the natural state; therefore, under the meteorological conditions of summer 2022, the evapotranspiration capacity was reduced. As a result, the low humidity in the air layers above the ground is not sufficient to trigger summer showers and thunderstorms associated with weather fronts and local heat convection anymore. Our proposed solution is to restore about one-fifth of the area to the original land types and usage before large-field agriculture. Low-lying areas should be transformed into a mosaic-like landscape with good water supply and evapotranspiration capacity to humidify the lower air layers. Furthermore, the unfavorable soil structure that has resulted from intensive agriculture should also be converted into more permeable soil to enhance infiltration. [ABSTRACT FROM AUTHOR]

Published

2024

25. Climate Proofing Cities by Navigating Nature-Based Solutions in a Multi-Scale, Social–Ecological Urban Planning Context: A Case Study of Flood Protection in the City of Gothenburg, Sweden.

Author

Egegård, Colin Hultgren, Lindborg, Maja, Gren, Åsa, Marcus, Lars, Pont, Meta Berghauser, and Colding, Johan

Subjects

FLOOD control, CITIES & towns, URBAN planning, URBAN ecology, ECOSYSTEM services, PUBLIC spaces

Abstract

Due to unsustainable land management and climate change, floods have become more frequent and severe over the past few decades and the problem is exacerbated in urban environments. In the context of climate-proofing cities, the importance of nature-based solutions (NBSs), obtaining relevant outcomes in the form of ecosystem services, has been highlighted. Although the role of ecosystem services in building resilience against negative climate change effects is widely recognized and there is an identified need to better integrate ecosystem services into urban planning and design, this has proven difficult to operationalize. A critical limitation is that modeling is a time-consuming and costly exercise. The purpose is to roughly estimate the ecosystem service of water run-off mitigation through simplified, cost-effective, and user-friendly modelling at three nested biophysical scales, under four climate change scenarios. Using the Swedish city of Gothenburg as an example, we propose an approach for navigating NBS-oriented flooding adaptation strategies, by quantifying the ecosystem service of water run-off mitigation at three nested biophysical scales, under four climate change scenarios, hence, proposing an approach for how to navigate nature-based solutions in a multi-scale, social–ecological urban planning context against present and future flooding events. Our findings validate the effectiveness of employing an ecosystem service approach to better comprehend the significant climate change issue of flooding through user-friendly and cost-efficient modeling. [ABSTRACT FROM AUTHOR]

Published

2024

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

Author

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

Subjects

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

Abstract

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

Published

2024

27. Assessment of Ecosystem Services at Different Scales.

Author

Tormáné Kovács, Eszter and Centeri, Csaba

Abstract

This document is a summary of a special issue of the journal Sustainability titled "Assessment of Ecosystem Services at Different Scales." The issue includes nine articles that focus on the assessment of ecosystem services (ESs) using various methodologies at different spatial scales. The articles cover topics such as the assessment of ESs at national and regional scales, the use of economic valuation methods, participatory mapping of ESs, and the integration of ESs in environmental impact assessments. The papers highlight the importance of ES assessment for informing decision-making and advancing sustainable land use and habitat conservation. The authors acknowledge the challenges and limitations of ES assessments but emphasize the value of using primary data, secondary data, and expert judgments to inform policy-making. [Extracted from the article]

Published

2023

28. Ecosystem Service Value Changes in Response to Land Use Dynamics in Lithuania.

Author

Sujetovienė, Gintarė and Dabašinskas, Giedrius

Subjects

LAND use, LAND cover, ECOSYSTEM management, CULTURAL values, LANDSCAPE changes

Abstract

Changes in land cover affect ecosystems and the services they provide. The aim of this study was to assess the spatial changes in land use from 1990 to 2018 and analyze the changes in ecosystem service value (ESV) in response to the changes in landscape structure in Lithuania. Croplands provided the majority of the ESV, followed by forests, grasslands, and wetlands. The total ESV in Lithuania was USD 29 billion year−1 in 2018, and land use had a significant impact on ESV, with a total decrease of USD 438 million year−1 between 1990 and 2018. The total ESV change was mainly influenced by the decrease in provisioning (USD 426 million year−1) and regulating (USD 208 million year−1) services. The reduction in cropland area was a major factor in the loss of ESV. The increase in the value of habitat and cultural services was not large enough to offset the reduction of the ESV. The highest elasticities were in the urban municipalities, indicating a significant change in ESV due to land use change. The results of this study provide valuable insight into the potential of the sustainable management and regeneration of ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

29. Gross ecosystem product (GEP): Quantifying nature for environmental and economic policy innovation.

Author

Zheng, Hua, Wu, Tong, Ouyang, Zhiyun, Polasky, Stephen, Ruckelshaus, Mary, Wang, Lijuan, Xiao, Yi, Gao, Xiaolong, Li, Cong, and Daily, Gretchen C.

Subjects

ECONOMIC policy, ENVIRONMENTAL policy, MONEY supply, ECOSYSTEMS, ECOSYSTEM services, TECHNOLOGICAL innovations

Abstract

The large-scale loss of ecosystem assets around the world, and the resultant reduction in the provision of nature's benefits to people, underscores the urgent need for better metrics of ecological performance as well as their integration into decision-making. Gross ecosystem product (GEP) is a measure of the aggregate monetary value of final ecosystem-related goods and services in a specific area and for a given accounting period. GEP accounting captures the use of many ecosystem services in production processes across the economy, which are then valued in terms of their benefits to society. GEP has five key elements that make it transparent, trackable, and readily understandable: (1) a focus on nature's contributions to people; (2) the measurement of ecosystem assets as stocks and ecosystem services as flows; (3) the quantification of ecosystem service use; (4) an understanding of ecosystem service supply chains through value realization; and (5) the disaggregation of benefits across groups. Correspondingly, a series of innovative policies based on GEP have been designed and implemented in China. The theoretical and practical lessons provided by these experiences can support continued policy innovation for green and inclusive development around the world. [ABSTRACT FROM AUTHOR]

Published

2023

30. Ecological Status of Floodplains and their Potential to Carbon Storage: Case Study From Three Watersheds in the South Moravian Region, Czech Republic.

Author

Krásná, Kateřina, Štěrbová, Lenka, Prokopová, Marcela, Jakubínský, Jiří, Vyvlečka, Pavel, and Pechanec, Vilém

Subjects

AGRICULTURAL intensification, FOREST management, FLOODPLAIN forests, ECOSYSTEM services, BIOMASS, WATERSHEDS, FLOODPLAINS

Abstract

Floodplains are important ecosystems that contribute to the ecological stability of the landscape. A number of ecosystem functions and services are significantly influenced by ecological aspects of floodplain habitats. This article focuses on the ecological quality and estimated amount of carbon stored in the biomass of habitats located in the studied watersheds, with an emphasis on floodplains. The habitats and their ecological quality were determined and assessed using the Biotope Valuation Method (BVM), an expert method for evaluating habitat (biotope) types based on eight ecological characteristics, mainly concerning various aspects of their biodiversity and vulnerability. The objective of this study is to compare the resulting assessments of habitats located in floodplains with assessments of habitats situated in the surrounding landscape. The study was carried out on three selected small stream watersheds in the South Moravian Region of the Czech Republic, which differ from each other in terms of the predominant land use and the overall level of anthropogenic pressure on the landscape. The results indicate that floodplains have a higher ecological value compared to the surrounding landscape, except for floodplains in areas with intensive agriculture. The ability of floodplains to store carbon in biomass turned out to be higher in the watershed with a higher percentage of tree stands, where woody plants store significantly more carbon in the biomass compared to other types of vegetation. It has been shown that human pressure on floodplains and land use significantly affects ecosystem functions and services. In addition to the intensity of agriculture, these were, in particular, pressures from an expansion of built-up areas and infrastructure developments, and forest management. In this study, forest stands in floodplain were more stable and had a more beneficial species composition than forests in the surrounding landscape. [ABSTRACT FROM AUTHOR]

Published

2023

31. Ecological Risks Arising in the Regional Water Resources in Inner Mongolia Due to a Large-Scale Afforestation Project.

Author

Chen, Peng, Ma, Rong, Shi, Jiansheng, Si, Letian, Zhao, Lefan, and Wu, Jun

Abstract

In recent years, a large-scale afforestation campaign has been implemented in Inner Mongolia, China, to control desertification and soil erosion. However, the water consumption associated with large-scale afforestation significantly impacts the water resources in Inner Mongolia, resulting in a major ecological risk. This study aimed to evaluate the ecological risk of water resources caused by afforestation in the region. In this study, using land cover data, normalized difference vegetation index (NDVI) data, and meteorological data, we performed trend analysis and used the water balance equation and water security index (WSI) to analyze the ecological risks of water resources caused by afforestation in Inner Mongolia from 2000 to 2020. The results show that (1) the afforestation area in Inner Mongolia was 5.37 × 104 km2 in 2000–2020; (2) afforestation in arid and semi-arid areas led to a reduction in water resources; (3) afforestation reduced water resources in the study area by 62 million cubic meters (MCM) per year; and (4) ~76% of afforestation regions faced ecological risks related to water resources. This study provides scientific suggestions for the sustainable development of regional water resources and afforestation. [ABSTRACT FROM AUTHOR]

Published

2023

32. Nanoformulation of Therapeutic Enzymes: A Short Review.

Author

Tóth, Gergő Dániel, Koplányi, Gábor, Kenéz, Balázs, and Balogh-Weiser, Diána

Subjects

LYSOSOMAL storage diseases, ENZYME replacement therapy, GLYCOGEN storage disease type II, ENZYME deficiency, ANGIOKERATOMA corporis diffusum

Abstract

Enzyme replacement therapy (ERT) is a therapeutic approach that involves the administration of specific enzymes to the patient in order to correct metabolic defects caused by enzyme deficiency. The formulation of ERTs involves the production, purification, and formulation of the enzyme into a stable and biologically active drug product, often using recombinant DNA technology. Non-systemic ERTs often involve the immobilization of the enzyme on a carrier, such as hydrogels, liposomes, or nanoparticles. ERT holds great promise for the treatment of a wide range of genetic disorders, and its success regarding lysosomal storage diseases, such as Fabry disease, Gaucher disease, and Pompe disease has paved the way for the development of similar therapies for other genetic disorders too. [ABSTRACT FROM AUTHOR]

Published

2023

33. Supposed Effects of Wetland Restoration on Hydrological Conditions and the Provisioning Ecosystem Services—A Model-Based Case Study at a Hungarian Lowland Catchment.

Author

Kozma, Zsolt, Decsi, Bence, Ács, Tamás, Kardos, Máté Krisztián, Hidy, Dóra, Árvai, Mátyás, Kalicz, Péter, Kern, Zoltán, and Pinke, Zsolt

Abstract

Climate change and water scarcity increase the vulnerability of crop production and other ecosystem services (ES) in flood-protected lowlands under a continental climate. Restoration of wetlands leads to a higher water-buffering capacity of the landscape, strengthening various ecosystem services, and fostering adaptation to climatic, ecological, and agricultural challenges. Such restoration efforts require extensive land-use change, leading to trade-offs in provisioning and regulating ES. However, knowledge is limited about these situations, especially in the case of lowland areas. Here, we introduce a hydrological analysis in a 243 km2 flood-protected catchment in the Great Hungarian Plain, mapping the potential hydrological effects of water-retention scenarios on groundwater levels. We point out how the simulated groundwater levels will be used for estimating the changes in crop yields and tree growth (provisioning services). The introduced hydrological analysis and preliminary results for crop-yield estimates suggest a significant and scalable capacity for a nature-based hydrological adaptation: the extent of inundated areas could be increased stepwise and water retention could locally compensate dry periods due to the buffering effect of inundated meanders. [ABSTRACT FROM AUTHOR]

Published

2023

34. Importance and review of drug metabolite synthesis.

Author

Sahin, Zafer, Omurtag Ozgen, Pınar Sinem, and Rollas, Sevim

Subjects

METABOLITE synthesis, PHARMACOKINETICS, DRUG administration, PHARMACODYNAMICS, DRUG side effects

Abstract

Phase I and Phase II metabolic reactions are involved in the pharmacokinetic properties of drugs after administration. These reactions mainly aim to make drugs more polar and eliminate them safely. However, some of these metabolites have the potential to exhibit a toxicological effect. Industry and/or academia have to consider these metabolites in terms of their pharmacodynamic and pharmacokinetic properties. These metabolites are not only residual intermediates from the synthetic process of the main drug but also unique structures produced by metabolic enzymes in the human organism. Thus, metabolite synthesis by synthetic or semi-synthetic methods is a key feature in the pharmaceutical industry. In this review, synthetic methods of the metabolites from all known metabolic pathways are reviewed from the literature. It was observed that both synthetic and semi-synthetic methods require more attention as they are as important and complex as drug synthesis. Moreover, it showed that there was much more research available for Phase I than Phase II in the literature. [ABSTRACT FROM AUTHOR]

Published

2023

35. Immobilization of Lipase B from Candida antarctica on Magnetic Nanoparticles Enhances Its Selectivity in Kinetic Resolutions of Chiral Amines with Several Acylating Agents.

Author

Silva, Fausto M. W. G., Szemes, József, Mustashev, Akan, Takács, Orsolya, Imarah, Ali O., and Poppe, László

Subjects

MAGNETIC nanoparticles, KINETIC resolution, RESOLUTION (Chemistry), LIPASES, RACEMIC mixtures, AMINES, CANDIDA

Abstract

In lipase-catalyzed kinetic resolutions (KRs), the choice of immobilization support and acylating agents (AAs) is crucial. Lipase B from Candida antarctica immobilized onto magnetic nanoparticles (CaLB-MNPs) has been successfully used for diverse KRs of racemic compounds, but there is a lack of studies of the utilization of this potent biocatalyst in the KR of chiral amines, important pharmaceutical building blocks. Therefore, in this work, several racemic amines (heptane-2-amine, 1-methoxypropan-2-amine, 1-phenylethan-1-amine, and 4-phenylbutan-2-amine, (±)-1a–d, respectively) were studied in batch and continuous-flow mode utilizing different AAs, such as diisopropyl malonate 2A, isopropyl 2-cyanoacetate 2B, and isopropyl 2-ethoxyacetate 2C. The reactions performed with CaLB-MNPs were compared with Novozym 435 (N435) and the results in the literature. CaLB-MNPs were less active than N435, leading to lower conversion, but demonstrated a higher enantiomer selectivity, proving to be a good alternative to the commercial form. Compound 2C resulted in the best balance between conversion and enantiomer selectivity among the acylating agents. CaLB-MNPs proved to be efficient in the KR of chiral amines, having comparable or superior properties to other CaLB forms utilizing porous matrices for immobilization. An additional advantage of using CaLB-MNPs is that the purification and reuse processes are facilitated via magnetic retention/separation. In the continuous-flow mode, the usability and operational stability of CaLB-MNPs were reaffirmed, corroborating with previous studies, and the results overall improve our understanding of this potent biocatalyst and the convenient U-shape reactor used. [ABSTRACT FROM AUTHOR]

Published

2023

36. External Costs to Agriculture Associated with Further Open Pit Lignite Mining from the Bełchatów Deposit.

Author

Pepliński, Benedykt

Subjects

STRIP mining, AGRICULTURE costs, RENEWABLE energy sources, ENERGY industries, RUSSIAN invasion of Ukraine, 2022-, ENERGY shortages

Abstract

The energy crisis in Europe and Poland caused by the conflict in Ukraine has renewed the debate in some countries about the wisdom of abandoning the use of local fossil fuels. The rise in gas and oil prices with little change in the cost of extracting lignite from open pit mines has led to a renewed consideration of lignite as the cheapest source of energy. This is not entirely true, as the level of costs at power plants ignores many external costs that are not included in the costs of energy producers, but are borne by the general public or other parties. One such cost is the external costs incurred by agriculture as a result of open pit lignite mining and the associated depression funnels. The Bełchatów lignite open pit is the deepest open pit in Europe and is expected to be in operation by 2038. The aim of the study was to assess the external costs that farmers will incur as a result of further open pit mining of brown call from the Bełchatów deposit, i.e., between 2023 and 2038 as well as in the 16-year extended period of restoration of water relations around the open pit. The decrease in crop yields and animal numbers was estimated in a comparative analysis, which compared changes in the yields of selected plants and animals in the area affected by the open pit to those in neighboring areas that were not affected. The analysis showed that the external costs to be borne by agriculture as a result of the further exploitation of the Bełchatów deposit will amount to an average of EUR 2.90 billion, and, depending on the calculation variant, from EUR 2.51 billion to EUR 3.14 billion. Including this amount in the cost of electricity production would result in an increase of EUR 9.11·MWh−1, which is 18.8% of the average wholesale price of electricity in Poland in 2017–2021. On the one hand, the increased consumption of lignite in electricity production, which is currently observed and may last for several years, may shorten the life of the open pit by up to 2 years. Shortening the mining period by one year, assuming that all the coal in the deposit is mined, will reduce the external costs for agriculture by about EUR 185 million, i.e., EUR 0.58·MWh−1. On the other hand, the increase in European Emissions Trading System (ETS) prices, the decrease in gas prices and the increase in energy production from renewable energy source (RES) will make lignite power generation profitable only during the periods with the highest prices, so that by 2038 lignite will not be mined in its entirety. Every 10 Gg of coal that will not be mined by 2038 will result in an increase in external costs in agriculture per MWh of EUR 0.23·MWh−1. [ABSTRACT FROM AUTHOR]

Published

2023

37. Finding the Green Grass in the Haystack? Integrated National Assessment of Ecosystem Services and Condition in Hungary, in Support of Conservation and Planning.

Author

Tanács, Eszter, Vári, Ágnes, Bede-Fazekas, Ákos, Báldi, András, Csákvári, Edina, Endrédi, Anett, Fabók, Veronika, Kisné Fodor, Lívia, Kiss, Márton, Koncz, Péter, Kovács-Hostyánszki, Anikó, Mészáros, János, Pásztor, László, Rezneki, Rita, Standovár, Tibor, Zsembery, Zita, and Török, Katalin

Abstract

Human well-being needs healthy ecosystems, providing multiple ecosystem services. Therefore, the assessment of ecosystems on large scales is a priority action. In Hungary, this work (MAES-HU) took place between 2016 and 2022. Twelve ecosystem services (ES) were mapped and assessed along with several ecosystem condition (EC) indicators. Their integrated spatial analysis aimed to identify patterns of ES multifunctionality, reveal relationships between EC and ES and delineate ES bundles. The results show outstanding multifunctionality of natural ecosystem types compared with the more artificial types, emphasizing the importance of natural areas in order to fulfil human needs. Native forests provide the most varied range of services, which underlines the importance of forest management to consider multiple services. There is a positive correlation between condition and multifunctionality in forests; areas in better condition (in terms of species composition and structure) provide more services at an outstanding level. ES bundles mainly reflect the major ecosystem types, topography and forest condition. Our analysis represents an example of synthesizing national MAES results with a combination of methods. Finding ES hotspots on a national scale and connecting them with an assessment of EC may help in finding optimal strategies to balance conservation targets and competing land uses. [ABSTRACT FROM AUTHOR]

Published

2023

38. Soil habitat condition shapes Tamarix chinensis community diversity in the coastal salinealkali soils.

Author

Qianjun Yu, Lizhu Suo, Ji Qi, Yi Wang, Qiuli Hu, Yan Shan, and Ying Zhao

Subjects

SOIL salinity, TAMARISKS, HABITATS, PLANT diversity, RESTORATION ecology, SOIL texture

Abstract

Introduction: Unfavorable coastal saline-alkali soil habitats degrade plant community diversity and reduce terrestrial ecological functions. Previous studies have been conducted on the mechanisms by which certain salinealkali soil properties determine plant community diversity, however, how those properties synergistically affect plant community diversity remains unclear. Methods: Here, 36 plots of typical Tamarix chinensis communities were investigated for a range of parameters at three different distances (10, 20, and 40 km) from the coastline in the Yellow River Delta between 2020 and 2022, and corresponding soil samples were taken and analyzed. Results and discussion: Our results suggest that although T. chinensis density, ground diameter, and canopy coverage significantly increased (P<0.05) with increasing distance from the coast, the communities with the most plant species were found at 10 to 20 km distance from the coastline, indicating the effects of soil habitat on T. chinensis community diversity. Simpson dominance (species dominance), Margalef (species richness), and Pielou indices (species evenness) differed significantly among the three distances (P<0.05) and were significantly correlated with soil sand content, mean soil moisture, and electrical conductivity (P<0.05), indicating that soil texture, water, and salinity were the main factors governing T. chinensis community diversity. Principal component analysis (PCA) was performed to construct an integrated soil habitat index (SHI) representing the synthesis of the soil texture-water-salinity condition. The estimated SHI quantified a 64.2% variation in the synthetic soil texture-water-salinity condition and was significantly higher at the 10 km distance than at the 40 and 20 km distances. The SHI linearly predicted T. chinensis community diversity (R2 = 0.12– 0.17, P<0.05), suggesting that greater SHI (coarser soil texture, wetter soil moisture regime, and higher soil salinity) was found closer to the coast and coincided with higher species dominance and evenness and lower species richness in the T. chinensis community. These findings on the relationship between T. chinensis communities and soil habitat conditions will be valuable in planning the restoration and protection of the ecological functions of T. chinensis shrubs in the Yellow River Delta. [ABSTRACT FROM AUTHOR]

Published

2023

39. Assessing the Effectiveness of the Use of the InVEST Annual Water Yield Model for the Rivers of Colombia: A Case Study of the Meta River Basin.

Author

Valencia, Jhon B., Guryanov, Vladimir V., Mesa-Diez, Jeison, Tapasco, Jeimar, and Gusarov, Artyom V.

Subjects

WATERSHEDS, STANDARD deviations, WATER requirements for crops

Abstract

This paper presents the results of one of the hydrological models, the InVEST "Annual Water Yield" (InVEST–AWY), applied to the Meta River basin in Colombia, which covers an area of 113,981 km². The study evaluates the performance of the model in different subbasins of the Meta River basin. The model's accuracy was assessed using different statistical measures, including Nash–Sutcliffe Efficiency (NSE) coefficient, Root Mean Square Error (RMSE), correlation coefficients for the calibration (rcal) and validation (rval) periods. The overall performance of the model in the Meta River basin is relatively poor as indicated by the low NSE value of 0.07 and high RMSE value of 1071.61. In addition, the model explains only a 7% of the variance in the observed data. The sensitivity analysis revealed that a 30% reduction in crop coefficient (Kc) values would result in a 10.7% decrease in water yield. The model estimated, for example, the annual average water yield of the river in 2018 as 1.98 × 1011 m3/year or 6273.4 m3/s, which is 1.3% lower than the reported value. The upper Meta River subbasin shows the highest NSE value (0.49), indicating a good result between observed and simulated water discharge. In contrast, the South Cravo River subbasin shows a negative NSE value of −1.29, indicating poor model performance. The Yucao River subbasin and the upper Casanare River subbasin also show lower NSE values compared to the upper Meta River subbasin, indicating less accurate model performance in these subbasins. The correlation coefficients in calibration (rcal) and validation (rval) for the upper Meta River, Yucao River, South Cravo River, and upper Casanare River subbasins were 0.79 and 0.83, 0.4 and 0.22, 0.5 and −0.25, and 0 and 0.18, respectively. These results provide useful insights into the limitations for the proper use of the InVEST–AWY model in Colombia. This study is the first to use the InVEST–AWY model on a large scale in the territory of Colombia, allowing to evaluate its effectiveness in hydrological modeling for water management. [ABSTRACT FROM AUTHOR]

Published

2023

40. The Effect of Environmental Factors on Mould Counts and AFB1 Toxin Production by Aspergillus flavus in Maize.

Author

Molnár, Krisztina, Rácz, Csaba, Dövényi-Nagy, Tamás, Bakó, Károly, Pusztahelyi, Tünde, Kovács, Szilvia, Adácsi, Cintia, Pócsi, István, and Dobos, Attila

Subjects

ASPERGILLUS flavus, ASPERGILLUS toxins, MOLDS (Fungi), AFLATOXINS, TOXINS, CORN disease & pest control

Abstract

The toxins produced by Aspergillus flavus can significantly inhibit the use of maize. As a result of climate change, toxin production is a problem not only in tropical and subtropical areas but in an increasing number of European countries, including Hungary. The effect of meteorological factors and irrigation on mould colonization and aflatoxin B1 (AFB1) mycotoxin production by A. flavus were investigated in natural conditions, as well as the inoculation with a toxigenic isolate in a complex field experiment for three years. As a result of irrigation, the occurrence of fungi increased, and toxin production decreased. The mould count of fungi and toxin accumulation showed differences during the examined growing seasons. The highest AFB1 content was found in 2021. The main environmental factors in predicting mould count were temperature (Tavg, Tmax ≥ 30 °C, Tmax ≥ 32 °C, Tmax ≥ 35 °C) and atmospheric drought (RHmin ≤ 40%). Toxin production was determined by extremely high daily maximum temperatures (Tmax ≥ 35 °C). At natural contamination, the effect of Tmax ≥ 35 °C on AFB1 was maximal (r = 0.560–0.569) in the R4 stage. In the case of artificial inoculation, correlations with environmental factors were stronger (r = 0.665–0.834) during the R2–R6 stages. [ABSTRACT FROM AUTHOR]

Published

2023

41. Assessment of Supply and Demand of Regional Flood Regulation Ecosystem Services and Zoning Management in Response to Flood Disasters: A Case Study of Fujian Delta.

Author

Tian, Jian, Zeng, Suiping, Zeng, Jian, and Jiang, Feiyang

Published

2023

42. Challenges Entailed in Applying Ecosystem Services Supply and Demand Mapping Approaches: A Practice Report.

Author

Dworczyk, Claudia and Burkhard, Benjamin

Subjects

ECOSYSTEM services, SUPPLY & demand, GEOGRAPHIC information systems, URBANIZATION, ADULT education workshops, BUSINESS communication, LOCAL mass media

Abstract

The Ecosystem Services (ES) concept has been acknowledged by scientists, policy-makers and practitioners to have the potential to support sustainable policy- and land-use decision-making. Therefore, a growing number of research activities are investigating the integration potential of the ES concept into real-world policy- and decision-making processes. These research activities are often confronted with conceptual challenges and methodological obstacles when applying different ES mapping approaches. This study is reporting those challenges encountered during a research project in Germany. In this research project, two urban regions, Rostock and Munich, were selected as case-study areas. In both urban regions, dynamic urbanisation processes occur across the urban administrative boundaries and threaten the supply of multiple ES in the periurban landscapes. The research project invited local stakeholders from the two urban regions to workshops and online meetings to discuss ES-related topics. For those events, maps visualising the spatial patterns of multiple ES were needed for communication and awareness-raising of the ES concept. We chose commonly used and relatively easy-to-apply mapping methods such as: (1) expert-based ES matrix approach, (2) simple GIS mapping with proxy indicators and data, and (3) simple ES models such as InVEST. We encountered several challenges during the mapping processes: The expert-based matrix approach provided valuable results for ES supply, but had limitations in assessing expert estimates for ES demand. Alongside other factors, evolving barriers related to the conceptual complexity of ES demand. Data unavailability/inaccessibility resulted in difficulties mapping all selected ES with proxy indicators at the targeted regional scale. So far, only a few individual ES can be modelled with InVEST models. Despite these challenges, the resulting maps were helpful for communication with local stakeholders. The discussions with stakeholders provided valuable insights into the future needs for ES research and identified existing barriers and challenges. We want to summarise and share our experiences and provide recommendations for future research on mapping ES supply and demand in urban regions. [ABSTRACT FROM AUTHOR]

Published

2023

43. National Ecosystem Services Assessment in Hungary: Framework, Process and Conceptual Questions.

Author

Vári, Ágnes, Tanács, Eszter, Tormáné Kovács, Eszter, Kalóczkai, Ágnes, Arany, Ildikó, Czúcz, Bálint, Bereczki, Krisztina, Belényesi, Márta, Csákvári, Edina, Kiss, Márton, Fabók, Veronika, Kisné Fodor, Lívia, Koncz, Péter, Lehoczki, Róbert, Pásztor, László, Pataki, Róbert, Rezneki, Rita, Szerényi, Zsuzsanna, Török, Katalin, and Zölei, Anikó

Abstract

Mapping and assessing ecosystem services (ES) projects at the national level have been implemented recently in the European Union in order to comply with the targets set out in the EU's Biodiversity Strategy for 2020 and later in the Strategy for 2030. In Hungary this work has just been accomplished in a large-scale six-year project. The Hungarian assessment was structured along the ES cascade with each level described by a set of indicators. We present the selected and quantified indicators for 12 ES. For the assessment of cascade level 4, human well-being, a set of relevant well-being dimensions were selected. The whole process was supported by several forms of involvement, interviews, consultations and workshops and in thematic working groups performing the ES quantifications, followed by building scenarios and synthesizing maps and results. Here we give an overview of the main steps and results of the assessment, discuss related conceptual issues and recommend solutions that may be of international relevance. We refine some definitions of the cascade levels and suggest theoretical extensions to the cascade model. By finding a common basis for ES assessments and especially for national ones, we can ensure better comparability of results and better adoption in decision making. [ABSTRACT FROM AUTHOR]

Published

2022

44. A Convenient U-Shape Microreactor for Continuous Flow Biocatalysis with Enzyme-Coated Magnetic Nanoparticles-Lipase-Catalyzed Enantiomer Selective Acylation of 4-(Morpholin-4-yl)butan-2-ol.

Author

Imarah, Ali O., Silva, Fausto M. W. G., Tuba, László, Malta-Lakó, Ágnes, Szemes, József, Sánta-Bell, Evelin, and Poppe, László

Subjects

BIOCATALYSIS, ACYLATION, MAGNETIC nanoparticles, PERMANENT magnets, ENZYMES, ENANTIOMERS

Abstract

This study implements a convenient microreactor for biocatalysis with enzymes immobilized on magnetic nanoparticles (MNPs). The enzyme immobilized onto MNPs by adsorption or by covalent bonds was lipase B from Candida antarctica (CaLB). The MNPs for adsorption were obtained by covering the magnetite core with a silica shell and later with hexadecyltrimethoxysilane, while for covalent immobilization, the silica-covered MNPs were functionalized by a layer forming from mixtures of hexadecyl- and 3-(2-aminoethylamino)propyldimethoxymethylsilanes in 16:1 molar ratio, which was further activated with neopentyl glycol diglycidyl ether (NGDE). The resulting CaLB-MNPs were tested in a convenient continuous flow system, created by 3D printing to hold six adjustable permanent magnets beneath a polytetrafluoroethylene tube (PTFE) to anchor the MNP biocatalyst inside the tube reactor. The anchored CaLB-MNPs formed reaction chambers in the tube for passing the fluid through and above the MNP biocatalysts, thus increasing the mixing during the fluid flow and resulting in enhanced activity of CaLB on MNPs. The enantiomer selective acylation of 4-(morpholin-4-yl)butan-2-ol (±)-1, being the chiral alcohol constituent of the mucolytic drug Fedrilate, was carried out by CaLB-MNPs in the U-shape reactor. The CaLB-MNPs in the U-shape reactor were compared in batch reactions to the lyophilized CaLB and to the CaLB-MNPs using the same reaction composition, and the same amounts of CaLB showed similar or higher activity in flow mode and superior activity as compared to the lyophilized powder form. The U-shape permanent magnet design represents a general and easy-to-access implementation of MNP-based flow microreactors, being useful for many biotransformations and reducing costly and time-consuming downstream processes. [ABSTRACT FROM AUTHOR]

Published

2022

45. Generalized Additive Model Reveals Nonlinear Trade-Offs/Synergies between Relationships of Ecosystem Services for Mountainous Areas of Southwest China.

Author

Huang, Qi, Peng, Li, Huang, Kexin, Deng, Wei, and Liu, Ying

Subjects

SPATIAL analysis (Statistics), SOIL conservation, RESTORATION ecology, CARBON sequestration, ECOSYSTEM services, WATER conservation, FOOD production

Abstract

Ecosystem services (ESs) are an essential link between ecosystems and human well-being, and trade-offs/synergies happen in ESs at different temporal and spatial scales. It is crucial to explore patterns of trade-offs/synergies among ESs, and their nonlinear relationships with changes in ESs. The primary objective of this study was to evaluate five ESs in 2000 and 2018: namely, water yield, food production, carbon sequestration, soil conservation, and habitat quality in mountainous regions of Southwest China. The mean values of the five ESs increased by 365.8 m3/ha, 13.92 t/hm2, 497.09 TgC/yr2, 138.48 t/km2, and 0.002, respectively. Using spatial statistics and analysis, an ES trade-off synergy model (ESTD) was constructed for the five ESs change values. Overall, soil conservation has a trade-off with all five ESs, except habitat quality; this trade-off is increasing slightly. Water yield is in synergy with all ESs except soil conservation, with decreasing synergy; habitat quality is in synergy with all ESs except food production, with increasing synergy. Finally, the nonlinear relationship between the value of the change in the ES and ESTD was analyzed using a generalized additive model. Changes in water yield showed the greatest impact on ESTD except for food production, wherein changes in all three ESs had minimal impacts on ESTD. Food production dominates its trade-offs/synergies relationship with soil conservation; carbon sequestration is the dominant player in its trade-offs/synergies relationship with soil conservation. Habitat quality has a secondary position of influence, except in the trade-offs/synergies involving food production. By exploring the drivers of trade-offs/synergies among ESs, this study can provide guidance for the effective implementation of policies related to ecological protection and restoration. [ABSTRACT FROM AUTHOR]

Published

2022

46. Classification of Geomorphic Units and Their Relevance for Nutrient Retention or Export of a Large Lowland Padma River, Bangladesh: A NDVI Based Approach.

Author

Gani, Md Ataul, Kwast, Johannes van der, McClain, Michael E., Gettel, Gretchen, and Irvine, Kenneth

Subjects

NORMALIZED difference vegetation index, RIVER channels, WATERSHEDS

Abstract

Geomorphic classification of large rivers identifies morphological patterns, as a foundation for estimating biogeochemical and ecological processes. In order to support the modelling of in-channel nutrient retention or export, the classification of geomorphic units (GUs) was done in the Padma River, Bangladesh, a large and geomorphically-complex lowland river. GUs were classified using the normalized difference vegetation index (NDVI) four times over a year, so as to cover the seasonal variation of water flows. GUs were categorized as primary and secondary channels (C & S); longitudinal bar (L); transverse bar (T); side bar (SB); unvegetated bank (EK); dry channel (ED); island (VI); and water depression (WD). All types of GUs were observed over the four distinct annual seasons, except ED, which was absent during the high flow, monsoon season. Seasonal variation of the surface area of GUs and discharge showed an inverse relation between discharge and exposed surface areas of VI, L, T, and SB. Nutrients mainly enter the river system through water and sediments, and during monsoon, the maximum portion of emergent GUs were submerged. Based on the assumption that nutrient retention is enhanced in the seasonally inundated portions of GUs, nutrient retention-/export-relevant geomorphic units (NREGUs) were identified. Seasonal variation in the area of NREGUs was similar to that of GUs. The mean NDVI values of the main identified NREGUs were different. The variation of NDVI values among seasons in these NREGUs resulted from changes of vegetation cover and type. The variation also occurred due to alteration of the surface area of GUs in different seasons. The changes of vegetation cover indicated by NDVI values across seasons are likely important drivers for biogeochemical and ecological processes. [ABSTRACT FROM AUTHOR]

Published

2022

47. Understanding the impacts of land use changes on the sustainability of hydrological ecosystem services: the case of Pasak River Basin, Thailand

Author

Loc, Ho Huu, Thanavanh, Tadam, Nguyet, Dang Anh, Upadhyay, Surabhi, Maung, Thidar Maung, Shrestha, Sangam, Park, Edward, and Hamel, Perrine

Published

2024