Your search keyword '"Wetland"' showing total 56,684 results

1. UCSB Cheadle Center Bird observation data description (2018-2024) at North Campus Open Space (NCOS) and the Campus Lagoon (CL)

Author

Rickard, Alison

Subjects

birds, slough, wetland, survey, restoration

Abstract

This document describes the content, purpose, methods and uses of the UCSB Cheadle Center Bird survey data.

Published

2024

2. Wetland changes and ecosystem services valuation of Kapla beel in Assam

Author

Mech, Annesha and Buragohain, Pranjal Protim

Published

2024

3. North Campus Open Space Restoration Project Monitoring Report: Year 6, December 2023

Author

Rickard, Alison

Subjects

hydrology, restoration, vegetation, birds, wetland, amphibian

Abstract

The North Campus Open Space (NCOS) restoration project has created more than 40 acres of estuarine and palustrine wetlands that historically comprised the upper portion of Devereux Slough that was filled in the mid-1960s to create the Ocean Meadows golf course. The project also restored more than 60 acres of upland habitats that include native grassland, coastal sage scrub, riparian, oak chaparral woodland, vernal pools and patches of annual wildflowers in clay and sandy soils. This report summarizes the results from monitoring native and non-native plants, birds, small mammals, aquatic invertebrates, tree growth, and hydrological functions.

Published

2024

4. Managed Wetlands for Climate Action: Potential Greenhouse Gas and Subsidence Mitigation in the Sacramento–San Joaquin Delta

Author

Vaughn, Lydia J. S., Deverel, Steven J., Panlasigui, Stephanie, Drexler, Judith Z., Olds, Marc A., Díaz, José T., Harris, Kendall F., Morris, James, Grenier, J. Letitia, Robinson, April H., and Ball, Donna A.

Subjects

subsidence, soil carbon, climate change mitigation, greenhouse gas (GHG) emissions, greenhouse gas (GHG) emissions reductions, carbon dioxide removal, wetland, peat loss, restoration, multi-benefit planning

Abstract

In the Sacramento–San Joaquin Delta (Delta), widespread drainage of historical wetlands has led to extensive subsidence and peat carbon losses, as well as high ongoing greenhouse gas (GHG) emissions. Large-scale wetland restoration and conversion to rice fields has the potential to mitigate these effects while conferring flood protection and creating habitat for wetland species. To explore the scale of these potential benefits, this study evaluated the effects of seven Delta-wide land-use scenarios on carbon stocks, land-surface elevation, GHG emissions, and habitat. Peat mapping and data from peat cores indicate that soil carbon stocks have decreased between the early 1800s and 2010s from 288 ± 15 to 145 ± 14 million metric tons (Mt) of carbon (C). If existing land uses continue, the Delta could lose an additional 8.3 Mt C during the coming 40 years, equal to average GHG emissions of 1.2 Mt CO2 equivalents (CO2e) yr-1. Future restoration and rice-farming scenarios indicate that wetland restoration could theoretically halt GHG emissions, converting the Delta from a large GHG source to a weak net source or sink. Across three future scenarios based on existing restoration targets, wetland creation and conversion to rice fields reduced GHG emissions by 0.39 to 0.67 Mt CO2e yr-1, with per-area benefits of 16 to 28 t CO2e per hectare (ha) yr-1. Differences among scenarios in extents of wetland types influenced their relative benefits for different management goals. Tidal restoration and conversion to rice fields enhanced habitat benefits and offered a source of agricultural income, but with reduced GHG mitigation compared with conversion to peat-building wetlands. This highlights the importance of clear objectives when developing land-use plans. A strategic land-management portfolio that includes rice fields and both impounded and tidal wetlands could be designed to provide GHG and subsidence mitigation while offering a diverse suite of benefits for ecosystems and people.

Published

2024

5. Suitable Ecological Water Demand for Wetlands Restored to Different Historical Periods in a Latitude area and their Response to Changing Environments.

Author

Xu, Haipeng, Zhang, Dequan, Wu, Yao, Qi, Peng, and Wang, Xiaofeng

Abstract

As a result of climate change and human activities, the ecological water demand of wetlands cannot be met and is significantly degraded on a global scale. In order to prevent the deterioration of this situation, a number of wetland ecological recharge projects are being constructed. However, the lack of a foundation for the necessary research is preventing them from operating at their full potential. Therefore, the western part of Jilin Province, a concentrated wetland area, was selected as a typical study area. The Chinese government invested ￥3.3 billion yuan in ecological water recharge projects to restore the degraded wetlands in this region. In this study, the suitable ecological water demand (SEWD) for wetlands restored to different historical periods and their response to changing environments is calculated based on the ecological function method and GeoDetector. The results showed that the SEWD for wetlands is 73.14 × 108m3 if the 2018 scenario is maintained. In addition, if restored to the 2010's, 2000's, 1990's and 1980's scenario, the SEWD for wetlands is 80.35 × 108m3, 85.32 × 108m3, 95.77 × 108m3 and 93.66 × 108m3, respectively. Spatially, SEWD for wetlands is greater in the north than in the south. The order of contribution of different factors in different historical periods was as follows: wetland area > precipitation > paddy field area > evapotranspiration > saline land area > construction land area > dry land area > grassland area > forest land area. Compared with the single factor, the contribution of the interaction factors to the water demand is obviously improved, and the combination of wetland area and most factors can produce a higher q value. The research results provide effective technical support for the formulation of scientific and reasonable water replenishment schemes for wetlands in western Jilin Province and lay a good foundation for the restoration of wetland ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

6. Insight into the assembly process of angiosperms and arbuscular-mycorrhizal fungi in tropical wetland ecosystems.

Author

Mañé-Duarte, María de la Paz, Guadarrama, Patricia, Hernández-Cuevas, Laura, Salinas-Peba, Luis, Angulo, Diego F., and Ramos-Zapata, José

Subjects

*DISPERSAL (Ecology), *BIOTIC communities, *PLANT communities, *TROPICAL ecosystems, *VESICULAR-arbuscular mycorrhizas, *COASTAL wetlands

Abstract

BackgroundAimsMethodsResultsConclusion\nKEY HIGHLIGHTSThe interaction between plants and mycorrhizal fungi is one of the most important and well-studied in ecology. However, the manner in which ecological communities of plants and arbuscular mycorrhizal (AM) fungi are structured by both deterministic and stochastic processes remains unclear.To quantify the role of deterministic and stochastic assembly processes in both plant and arbuscular mycorrhizal (AM) fungal communities along with environmental filters in the assembly of communities in areas subject to flooding.We studied phylogenetic relationships and diversity measures in plants and arbuscular mycorrhizal fungi in three tropical coastal wetland communities with contrasting landscapes and soil properties.We found that non-random processes were dominant in plant communities, while mycorrhizal communities appeared to be determined by stochastic processes. Clustering trends were predominant in plant communities in areas subject to flooding.Environment filters and limiting similarity drive the plant community assembly, whereas ecological drift and/or dispersal limitations were determinants in the assembly of mycorrhizal communities. Environmental filters were found to be the main driver of plant community assembly in in areas subject to flooding. Plant assembly is predominantly influenced by deterministic mechanisms such as environmental filters and limiting similarity, operating simultaneously with stochastic processes.The fungal community assembly was determined by random patterns, suggesting that stochastic processes govern them and emphasising the importance of dispersal limitations and ecological drift.The assembly of plant communities in flooded areas was influenced by environmental filters, which have selected specialised traits such as adventitious roots, conferring stress adaptations that enable these plants to inhabit flooded sites.High levels of species richness and phylogenetic diversity in AM fungi do not always promote high levels of species richness and phylogenetic diversity in plants and that this assumption was true only for the coastal dune scrub community.Plant assembly is predominantly influenced by deterministic mechanisms such as environmental filters and limiting similarity, operating simultaneously with stochastic processes.The fungal community assembly was determined by random patterns, suggesting that stochastic processes govern them and emphasising the importance of dispersal limitations and ecological drift.The assembly of plant communities in flooded areas was influenced by environmental filters, which have selected specialised traits such as adventitious roots, conferring stress adaptations that enable these plants to inhabit flooded sites.High levels of species richness and phylogenetic diversity in AM fungi do not always promote high levels of species richness and phylogenetic diversity in plants and that this assumption was true only for the coastal dune scrub community. [ABSTRACT FROM AUTHOR]

Published

2024

7. Quantifying the impact of a constructed wetland on downstream nitrate concentrations and loads in the U.S. Midwest.

Author

Anderson, Elliot, Schilling, Keith E., Just, Craig L., and Bong Chul Seo

Subjects

CONSTRUCTED wetlands, WATERSHEDS, IMPACT loads, AGRICULTURE, DENITRIFICATION, WETLANDS

Abstract

Constructed wetlands are standard conservation practices used to reduce nitrate loads in agricultural watersheds. Many studies have examined the efficiency of denitrification in wetlands under various scenarios, but quantifying the watershed-scale impact of wetlands on downstream nitrate levels is rarely done using field observations. In this study, we estimated nitrate removal in a constructed wetland in the headwaters of Mud Creek, a HUC12 watershed in eastern Iowa, from May-September 2022 and May-September 2023 (a tenmonth period). We also measured nitrate loads at four successive downstream sites, three along Mud Creek and one below its confluence with the larger Cedar River. The wetland removed 6,200 kg of nitrate (74% of total inputs). At the three downstream locations in Mud Creek, the percentage of each site's total nitrate load removed by the wetland decreased to 19, 8.6, and 4.1%--this latter value represents the wetland's influence on nitrate removal in the entire Mud Creek basin. The wetland's impact of nitrate loads in the Cedar River was negligible (reduction of 0.02%). The percentage of a site's drainage area treated by the wetland approximately followed a 1:1 relationship to that site's percent reduction in nitrate. Profiles of nitrate concentrations in Mud Creek notably varied pre- and post-wetland. Concentrations before the installation steadily decreased along the waterway, while post-wetland concentrations rapidly decreased directly downstream of the wetland and steadily increased at each succeeding site. Our results demonstrate that while the wetland successfully lowered local nitrate levels, its effect on the basin's overall nitrate loads was minimal. Achieving nutrient reduction goals at the watershed scale solely using constructed wetlands appears infeasible given that the required number of practices greatly exceeds current efforts. [ABSTRACT FROM AUTHOR]

Published

2024

8. Changing plant phosphorus acquisition strategies in relation to altered soil phosphorus fractions after wetland drainage.

Author

Jiang, Zhenhui, Luo, Wanqing, Zhu, Erxiong, Zhao, Yunpeng, Liu, Chengzhu, Zhou, Lei, and Feng, Xiaojuan

Subjects

*PLANT succession, *ACID phosphatase, *VESICULAR-arbuscular mycorrhizas, *ACID soils, *CHEMICAL composition of plants, *WETLANDS

Abstract

Plant phosphorus (P) acquisition strategy is considered to be an intrinsic driver behind plant succession. However, variations in plant P acquisition strategies in connection to soil P fraction changes after wetland drainage remain unclear.To address this issue, here we conducted a study in six distinct wetlands that experienced long‐term (>20 years) artificial drainage, with the adjacent waterlogged wetlands as a control. We analysed plant community composition, biomass and soil P fractions, and identified three plant P acquisition strategies based on soil acid phosphatase activity, plant P resorption efficiency, and soil arbuscular mycorrhizal fungi (AMF) content.We found that soil calcium‐bound P (PCa) and enzyme‐extractable P (Penzyme) were key factors influencing plant P acquisition. Soil PCa correlated negatively with acid phosphatase activity but positively with AMF content. Soil Penzyme negatively impacted P resorption efficiency. The wetlands were categorised into three types based on the change in plant richness and composition, with each exhibiting distinct plant P acquisition strategies. These changes in strategies after drainage corresponded with shifts in soil P fractions.Overall, our study highlights the role of soil P fractions in explaining plant P acquisition strategies after wetland drainage, suggesting P regulations on plant succession and ecosystem services. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

9. Grassland nature reserves safeguard a high species richness and biomass of grasshoppers.

Author

Poniatowski, Dominik, Weißgräber, Valentina, Drung, Marco, Freienstein, Felix Maximilian, Kettermann, Marcel, Scherer, Gwydion, and Fartmann, Thomas

Subjects

*NATURE conservation, *NATURE reserves, *HABITAT conservation, *ENDANGERED species, *SPECIES diversity

Abstract

In the course of land‐use change, especially since the mid‐20th century, the area of semi‐natural (unimproved) grasslands has dramatically decreased. One way to counteract this process is to designate nature reserves. However, the effectiveness of nature reserves is controversial.The aim of our study was to evaluate the environmental drivers of species richness and biomass of Orthoptera (hereinafter termed 'grasshoppers') in grasslands inside nature reserves and within the intensively used agriculture landscape (hereinafter termed 'wider countryside'). For this purpose, we sampled the grasshoppers at the landscape scale in 45 randomly selected plots. Each plot had a size of 5 ha. The abundance of grasshoppers, as a basis for the biomass calculation, was recorded at the habitat scale in 20 meadow patches (500 m2 each). In addition, various environmental parameters such as habitat diversity, mowing intensity and vegetation structure were determined at the landscape and habitat scale.Our results illustrate the importance of nature reserves for the conservation of grasshoppers. Control plots in the wider countryside harboured fewer species than plots within nature reserves. The differences were even clearer among threatened species. On average, plots in nature reserves had almost twice as many threatened species than control plots in the wider countryside. The comparison revealed similar patterns at the habitat scale: both the number of species and biomass were higher in nature reserves. At the landscape scale, number of species were best explained by the amount of wet grassland and habitat diversity. We identified mowing intensity and to a lower extend the degree of drainage as the key drivers of species richness and biomass at the habitat scale.Synthesis and applications: To preserve biodiversity in nature reserves, we recommend (i) leaving uncut refuges during mowing and (ii) blocking drainage to stabilise the water level. Both measures contribute to a high species number and abundance of grasshoppers and many other insects. An effective conservation measure to promote species richness in the wider countryside would be to increase habitat diversity. This can be done by creating or restoring fallow islands, field margins, fringes and hedgerows. [ABSTRACT FROM AUTHOR]

Published

2024

10. The Potential Role of Phytoplankton Functional Groups Under Anthropogenic Stressed Wetlands: Characterizing The Environmental Sensitivity.

Author

Kumari, Suman, Gogoi, Pranab, Lianthuamluaia, Mishal, P., Kumar Das, Basanta, Hassan, M. A., Sarkar, U. K., and Das, A. K.

Subjects

WETLAND restoration, RESTORATION ecology, ENVIRONMENTAL health, WATERSHEDS, CLIMATE change, WETLANDS, BIOINDICATORS

Abstract

Anthropogenic and climatic changes are continuously altering the freshwater plankton, necessitating an evaluation of the complex structure of plankton communities to understand and mitigate these impacts. In this context, the present study focuses on evaluating the structure of plankton communities, specifically Phytoplankton Functional Groups (FGs) for assessing the environmental sensitivity of wetlands under changing scenario. These FGs are defined by shared adaptive features rather than taxonomic traits. Over the period from 2016 to 2018, two ecologically distinct wetlands were examined, analysing their phytoplankton FGs and their relationship with water quality parameters. Ecohydrological data revealed significant seasonal variations (p ≤ 0.05) in key parameters such as water depth, temperature, pH, electrical conductivity, dissolved oxygen, total alkalinity, total hardness, NO3-N, and PO4-P. Notably, there were no significant differences observed among the sampling stations within each wetland. A total of 125 phytoplankton genera/species were classified into 23 FGs in the open wetland and 22 FGs in the closed wetland. Spatial and seasonal analyses of dominant FGs suggested both wetlands were experiencing pollution pressures. This study highlights the powerful role of phytoplankton functional groups (FGs) as bioindicators of wetland health, uncovering pollution pressures. In open wetlands, 15 phytoplankton FGs with 36 key taxa (Indicator Value ≥ 40%) emerged as critical indicators, while in closed wetlands, only 10 FGs with 17 taxa were identified. To assess eutrophication, the occurrence of these indicator species was evaluated using BVSTEP function analysis. The study recommends pollution reduction in catchment areas and restoration of riverine connectivity to enhance FG diversity. Phytoplankton FG methodologies are deemed effective for assessing the environmental sensitivity of wetlands significantly impacted by human activities. This research offers a scientific foundation for the evaluation and restoration of wetland ecosystems. Highlights: Phytoplankton functional groups (FGs) serve as precise bioindicators of wetland environmental sensitivity and pollution pressures. Seasonal and spatial assessments of water quality reveal insights into wetland ecological health. The response of phytoplankton FGs to environmental factors effectively indicates water quality. Key plankton species were identified as indicators of wetland ecological sensitivity. [ABSTRACT FROM AUTHOR]

Published

2024

11. Understanding Marsh Elevation and Accretion Processes and Vulnerability to Rising Sea Levels Across Climatic and Geomorphic Gradients in California, USA.

Author

Thorne, Karen M., Bristow, McKenna L., Rankin, Lyndsay L., Kovalenko, Katya E., Neville, Justine A., Freeman, Chase M., and Guntenspergen, Glenn R.

Subjects

ABSOLUTE sea level change, SOIL mineralogy, SEA level, RAINFALL, MARSHES

Abstract

Tidal marshes build elevations by below- and aboveground organic and mineral soil processes. Marsh elevation and accretion data can be used to determine if marshes are keeping pace with sea-level rise. Using a network of 54 deep rod surface elevation tables with paired feldspar marker horizon plots, we tracked elevation and accretion trends across 16 marshes in California, USA. All sites had overall positive gains across years that included severe drought conditions and extreme rain events. Marsh elevation relative to tidal datum (z*) was the key predictor for elevation and accretion rates, with higher change rates at lower z* sites. Marsh sites are clustered into three regional groups (Northern California, San Francisco Bay area, and Southern California), primarily defined by maximum temperature and annual rainfall differences. Elevation, accretion, and shallow subsidence rates were not significantly different between clusters, but their explanatory variables did vary. High-temperature days were a key predictor for elevation, accretion, and shallow subsidence rates in the state-wide analysis and San Francisco Bay regional analysis. The largest elevation gains were observed in the San Francisco Bay-Delta and some of the smallest in Humboldt Bay, with Morro Bay having the lowest accretion rate overall. Central and Southern California marshes were keeping pace or out-pacing sea-level rise, while none of the Humboldt Bay marshes were keeping pace. Marsh surface elevation data can inform management intervention and be a leading indicator for sea-level rise vulnerability. Long-term monitoring across geomorphic settings can help inform management and anticipate marsh change. [ABSTRACT FROM AUTHOR]

Published

2024

12. A drastic decline in avian diversity in and around the Bordoibam-Bilmukh Bird Sanctuary, Lakhimpur, Assam, India.

Author

Saikia, Lakhijyoti, Bora, Siddhartha Suman, and Das, Khirod Sankar

Subjects

BIRD declines, MATING grounds, HABITAT conservation, BIRD refuges, NUMBERS of species

Abstract

Bordoibam-Bilmukh is a small wetland located at the boundary of the Dhemaji and Lakhimpur districts of Assam, India that provides shelter and breeding ground to many resident and migratory birds. A survey was conducted between October 2022 and March 2024 on the avian diversity of Bordoibam-Bilmukh Bird Sanctuary. A total of 47 bird species under 16 orders and 29 families were recorded during the survey. Order Passeriformes, recorded with the highest number of avian species (15). Among the families, the highest number of species (5) was recorded under Ardeidae. Out of all the species recorded, three species, viz., Brown Shrike, Citrine Wagtail, and White Wagtail were winter migratory; one species, the Lesser Kestrel, was summer migratory, and the remaining 43 were resident species. Besides, two species, viz., Lesser Adjutant and Greater Adjutant are listed as 'Near Threatened' species on the IUCN Red List. Comparing the avian diversity from 1997 to 2024, a decline in the number of avian species from 167 (as per the 1997 record) to 47 (as per the present study) has been observed in the sanctuary. Various anthropogenic activities such as habitat destruction and disturbance, hunting of birds, are the major causes of the decline of avian diversity. For future species diversity restoration in the sanctuary, these negative anthropogenic activities should be addressed immediately for conservation strategies. [ABSTRACT FROM AUTHOR]

Published

2024

13. Importance based on avian diversity of Pakhibitan Bird & Wildlife Sanctuary, Jalpaiguri District, West Bengal, India.

Author

Roy, Arjan Basu, Samanta, Tarak, Samrat, C. S., Guha, Anjan, Datta, Debarpan, Rong, Abhik, and Chatterjee, Lina

Subjects

BIRD refuges, HABITAT conservation, WILDLIFE refuges, BIRD communities, ZOOLOGICAL surveys, MIGRATORY birds

Abstract

A comprehensive inventory of faunal and floral species in a specific region holds significant value for scientific investigation. This study was conducted between 2015 and 2021, especially during the winter season, in Pakhibitan Bird & Wildlife Sanctuary (also known as Gajoldoba wetland) in West Bengal, which was established in 2016. This wetland surrounded by forests is located on the upper section of the Teesta Barrage in the Dooars region of Jalpaiguri District, and it attracts birds from the Central Asian Flyway. Around 124 bird species belonging to 14 orders and 37 families were documented. Passeriformes with 32 species, and Anatidae with 23 species, are the most abundant groups. Based on the IUCN Red Data Book (2022-23), six species are Near Threatened, four are Vulnerable, and one Endangered. About 50% of birds were resident, 44% migratory, and 6% local migrants. [ABSTRACT FROM AUTHOR]

Published

2024

14. FV-DLV3+: a light-weight flooded vegetation extraction method with attention-based DeepLabv3+.

Author

Shi, Lin, Lan, Xiaoji, Duan, Xiyue, and Liu, Xinggen

Subjects

*SYNTHETIC apertures, *TRANSFORMER models, *WETLANDS monitoring, *REMOTE-sensing images, *DEEP learning, *SYNTHETIC aperture radar, *WETLANDS

Abstract

Climate change and human activities have led to a decline in wetland vegetation and sharp reduction of wetland area, which has caused considerable damage to the hydrological cycle and ecological functions of many wetlands. Flooded vegetation (FV) is an important wetland landscape, and strengthening the research on methods of the extracting FV using remote sensing or aerial photos plays an important role in monitoring changes to wetlands. This paper used optical satellite and synthetic aperture radar satellite images as data sources, construct a set of feature variable sets suitable for FV extraction; in addition, a deep learning method based on the semantic segmentation model DeepLabv3+, FV-DLV3+, is proposed for FV extraction. The method adopts the lightweight MobileNetV2 model as the backbone feature extraction network, introduces the SegFormer network to make up for the feature information loss caused by MobileNetV2, and further captures more effective features and suppresses the interference of the background through an attention mechanism to enhance the ability to extract feature boundaries, thereby improving the accuracy of FV extraction. Taking the wetland of Poyang Lake as the experimental area, Landsat 8 and Sentinel-1A satellite data were selected as the data sources to produce a deep learning dataset, and U-Net, DeepLabv3+, Swin-Unet, Swin Transformer, and CVTNet were selected for comparison when conducting model training and validating experiments. The results show that FV-DLV3+ has an excellent effect on FV extraction of the Poyang Lake wetland, which effectively reduces the computational complexity of the process while improving extraction accuracy; the mean intersection over union of this paper’s method was higher than the five above-mentioned methods, which was 12.93% and 5.85% higher than that of DeepLabv3+ and CVTNet, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

15. A Review of Strategies and Technologies for Sustainable Decentralized Wastewater Treatment.

Author

Sha, Chuqiao, Shen, Shuting, Zhang, Junjun, Zhou, Chao, Lu, Xiwu, and Zhang, Hong

Subjects

SUSTAINABILITY, WASTEWATER treatment, LITERATURE reviews, WASTE recycling, EMERGING contaminants

Abstract

The traditional model of centralized wastewater treatment is facing substantial strain due to a confluence of global challenges. Consequently, it is imperative to evaluate the impediments and potential advantages associated with the deployment of decentralized wastewater (DW) treatment technologies and systems. Decentralized wastewater (DW) treatment represents a sustainable approach to managing and purifying wastewater across both urban and rural settings. This literature review provides a detailed examination of current advancements and challenges associated with DW treatment technologies. It specifically addresses their operational efficiency, long-term sustainability, and practical implementation across diverse environments. This review critically analyzes recent studies that highlight innovative methodologies, including the deployment of constructed wetlands, anaerobic digestion processes, and predictive models enhanced by artificial intelligence. A critical focus is placed on the ecological and economic advantages of source separation and resource recovery from wastewater streams. The issue of emerging contaminants, such as microplastics, antibiotics, and steroids, is also discussed, emphasizing the continued need for innovation in treatment technologies. Findings from various life cycle assessments are presented to illustrate the environmental impact and feasibility of decentralized systems relative to centralized alternatives. This comprehensive analysis offers valuable insights into the future trajectories of wastewater treatment research and implementation. [ABSTRACT FROM AUTHOR]

Published

2024

16. Differences in Anthropogenic Impacts of Typical Mid- to High-Latitude Wetlands in the Heilongjiang Basin.

Author

Liu, Jinlong, Dou, Xinyu, Zhang, Lu, Liang, Dong, Zhu, Qi, Lv, Zhuoran, Liu, Yiming, and Du, Xiaobing

Abstract

Wetlands represent one of the three principal ecosystems and serve a vital function in the protection of water resources and the regulation of climate. However, wetlands are currently experiencing significant challenges, particularly in the agriculturally productive wetlands of the Heilongjiang River Basin, which have been considerably impacted by human activities. This study focuses on three representative wetlands situated within the Heilongjiang River Basin. This study analyses changes in wetland area and landscape patterns from 2002 to 2022, as well as the impact of agriculture and impervious surface expansion on the wetlands. The findings indicate that agricultural expansion is the primary driver of wetland area loss. The wetland area affected by agriculture demonstrates the most significant change, with the largest observed shift reaching 47.2%. The expansion of impervious surfaces was found to have a significant impact on wetland fragmentation, resulting in a notable decrease in wetland connectivity. This was evidenced by a reduction in the average patch size, which decreased by 14.68 ha over the decade from 2007 to 2017, a period during which impervious surfaces expanded. This paper identifies the distinctions in the influence of diverse human activities on wetland landscape patterns in the Heilongjiang Basin and employs natural samples for control, thereby attenuating the impact of the natural environment. This study offers a novel perspective on the processes of wetland change and the maintenance of wetland health, which is crucial for the realisation of clean water and sanitation (Sustainable Development Goal 6.6). [ABSTRACT FROM AUTHOR]

Published

2024

17. Palaeoenvironmental Analysis of the Southern Part of the Danube–Tisza Interfluve (Hungary): The Northern Loess Wall of Katymár and the Hay Meadows and Loess Banks of Hajós.

Author

Vári, Tamás Zsolt, Pál-Molnár, Elemér, and Sümegi, Pál

Subjects

*PLEISTOCENE-Holocene boundary, *LAST Glacial Maximum, *GLACIAL Epoch, *LOESS, *PALEOECOLOGY

Abstract

This study presents a comprehensive palaeoenvironmental reconstruction of the southern part of the Danube–Tisza interfluve in the Carpathian Basin from the Late Pleistocene to Early Holocene, addressing the region's response to global climate forcings and local environmental factors based on multi-proxy analyses of two key protected areas: the Katymár brickyard and the hay meadows and loess banks of Hajós. By integrating radiocarbon-dated malacological, macrobotanical, pollen, phytolith, geochemical, and sedimentological analyses, it was possible to provide a picture of past climate–ecosystem interactions. The Katymár North sequence provides an extended chronology from Marine Isotope Stage 3 (MIS3, ca. 36,000 cal BP) through the Last Glacial Maximum (LGM) and into the Early Holocene, while the Hajós sequence offers high-resolution data for the LGM–Holocene transition. By the late Ice Age, humidity and surface moisture superseded temperature as primary palaeoecological limiting factors, promoting ecotone-like forest–steppe environments during cooling periods. [ABSTRACT FROM AUTHOR]

Published

2024

18. Geoenvironmental Effects of the Hydric Relationship Between the Del Sauce Wetland and the Laguna Verde Detritic Coastal Aquifer, Central Chile.

Author

Gana, Blanca, Rodes, José Miguel Andreu, Díaz, Paula, Balboa, Agustín, Frías, Sebastián, Ávila, Andrea, Rivera, Cecilia, Sáez, Claudio A., and Lavergne, Céline

Subjects

COASTAL wetlands, COASTS, SANITARY landfills, ENVIRONMENTAL management, SEPTIC tanks, ESTUARIES, WETLANDS

Abstract

In the central region of Chile, the Mega-Drought together with the demographic increase near the coast threatens groundwater availability and the hydrogeological functioning of coastal wetlands. To understand the hydric relationship between an aquifer and a wetland in a semi-arid coastal region of Central Chile (Valparaíso, Chile), as well as its geoenvironmental effects, four data collection campaigns were conducted in the wetland–estuary hydric system and surroundings, between 2021 and 2022, including physical, hydrochemical, and isotopic analyses in groundwater (n = 16 sites) and surface water (n = 8 sites). The results generated a conceptual model that indicates a hydraulic connection between the wetland and the aquifer, where the water use in one affects the availability in the other. With an average precipitation of 400 mm per year, the main recharge for both systems is rainwater. Three specific sources of pollution were identified from anthropic discharges that affect the water quality of the wetland and the estuary (flow from sanitary landfill, agricultural and livestock industry, and septic tank discharges in populated areas), exacerbated by the infiltration of seawater laterally and superficially through sandy sediments and the estuary, increasing salinity and electrical conductivity in the coastal zone (i.e., 3694 µS/cm). The Del Sauce subbasin faces strong hydric stress triggered by the poor conservation state of the riparian–coastal wetland and groundwater in the same area. This study provides a detailed understanding of hydrological interactions and serves as a model for understanding the possible effects on similar ecosystems, highlighting the need for integrated and appropriate environmental management. [ABSTRACT FROM AUTHOR]

Published

2024

19. The below-ground biomass contributes more to wetland soil carbon pools than the above-ground biomass—a survey based on global wetlands.

Author

Pan, Yueyan, Liu, Jiakai, Zhang, Mingxiang, Huang, Peisheng, Hipesy, Matt, Dai, Liyi, Ma, Ziwen, Zhang, Fan, and Zhang, Zhenming

Subjects

WETLAND plants, PLANT biomass, CLIMATIC zones, SOIL dynamics, WETLAND soils, WETLANDS

Abstract

The biomass of wetland plants is highly responsive to environmental factors and plays a crucial role in the dynamics of the soil organic carbon (SOC) pool. In this study, we collected and analyzed global data on wetland plant biomass from 1980 to 2021. By examining 1134 observations from 182 published papers on wetland ecosystems, we created a comprehensive database of wetland plant above-ground biomass (AGB) and below-ground biomass (BGB). Using this database, we analyzed the biomass characteristics of different climate zones, wetland types and plant species globally. Based on this, we analyzed the differences between the biomass of different plant species and the linkage between AGB and BGB and organic carbon. Our study has revealed that wetland plant AGB is greater in equatorial regions but BGB is highest in polar areas, and lowest in arid and equatorial zones. For plant species, the BGB of the Poales is higher than the AGB but Caryophyllales , Cyperales and Lamiales have higher AGB. Moreover, our findings indicate that BGB plays a more significant role in contributing to the organic carbon pool compared to AGB. Notably, when BGB is less than 1 t C ha−1, even slight changes in biomass can have a significant impact on the organic carbon pool. And we observed that the SOC increases by 5.7 t C ha−1 when the BGB content is low, indicating that the SOC is more sensitive to changes in biomass under such circumstances. Our study provides a basis for the global response of AGB and BGB of wetland plants to organic carbon. [ABSTRACT FROM AUTHOR]

Published

2024

20. Analysis of Spatial and Temporal Variation of Water Quality: A Case Study of Kotagala Wetland, Nuwara Eliya, Sri Lanka.

Author

Jayasekara, J. M. A. U., Mowjood, M. I. M., and Dayawansa, N. D. K.

Subjects

TOTAL suspended solids, WATER quality, ECOSYSTEM health, DISCRIMINANT analysis, PRINCIPAL components analysis

Abstract

Water quality of wetland ecosystems is a critical concern due to its implications on human health and aquatic life. This study was conducted to assess the spatial and temporal variation of water quality in Kotagala wetland to understand its impact on water safety for domestic uses and ecosystem health. Water samples were collected (n = 70) from six inlets and the wetland outlet from November 2021 to August 2022, and analyzed for pH, electrical conductivity (EC), salinity, total dissolved solids (TDS), total suspended solids (TSS), nitrate, and phosphate. The pH, EC, and nitrate showed significant correlations. Spatial clustering divided the monitoring sites into two clusters, as areas of higher and lower pollution levels. Discriminant analysis highlighted the significance of EC, pH, and nitrate concentrations in differentiating these clusters. Principal According to principal component analysis (PCA) 88.8% of the total variance of spatial variation in water quality was explained by the first two components. Temporal clustering following seasonal variations revealed the influence of rainfall pattern on water quality. EC, TDS, TSS, and nitrate concentrations emerged as the most important factors in this temporal categorization. In PCA, 76.8% of the total variance of temporal variation in water quality was explained by the first two components. Findings highlight the urgent need for sustainable strategies and policies to mitigate the impacts of human activities on wetland water quality, since water quality variations in the wetland was significantly impacted by direct human activities, and variations in rainfall trends in the area. [ABSTRACT FROM AUTHOR]

Published

2024

21. 东太湖不同植被类型湿地 CO2 产生 潜力对温度变化的响应.

Author

杨玲玲 and 周 琦

Abstract

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Published

2024

22. Passive dispersal potential of medaka eggs by attaching to waterbirds.

Author

Yao, Akifumi, Mashiko, Miyuki, and Toquenaga, Yukihiko

Abstract

Colonization of new habitats is a key event in forming current distributions in organisms. It has been speculated that freshwater fish eggs can be dispersed passively by attaching to or egestion from waterbirds that arrive in wetland habitats. Recent research showed that some freshwater fish eggs could be excreted alive from birds and then successfully hatch, but scientific evidence of bird-mediated fish dispersal is still limited to endozoochory (internal transport through a bird’s digestive tract). Here, we experimentally suggest the dispersal potential in another way or epizoochory (external dispersal by attaching to waterbirds), using medaka Oryzias latipes, which spawns on aquatic plants. Our field experiment showed that waterbirds could carry artificial aquatic plants among waterbodies. Medaka eggs attached to aquatic plants could survive in the air for up to 18 h with a median lethal period of 16.3 h. Those two findings raise the possibility of the epizoochory of medaka in nature. [ABSTRACT FROM AUTHOR]

Published

2024

23. Microplastics abundance and potential ecological risk assessment in sediment, water and fish of Deepor Beel—a Ramsar Wetland of the Brahmaputra plain, India.

Author

Saikia, Kundil Kumar and Handique, Sumi

Subjects

ECOLOGICAL risk assessment, POLLUTANTS, PLASTIC marine debris, MICROPLASTICS, SEDIMENT sampling, POTASSIUM hydroxide

Abstract

Microplastics (MPs) are increasingly recognized as environmental contaminants with complex impacts on fish and other aquatic organisms. This study determined the microplastics abundance and the induced-ecological risks of microplastics in water, sediment, and commonly harvested fishes of a Ramsar site, Deepor Beel of Assam, India. Six samples of water and sediment were collected with nine individuals of two commonly harvested fish species Puntius sophore (Pool Barb) and Gudusia chapra (Indian River Shad). The abundance of microplastics in water and sediments were analyzed through organic matter digestion using hydrogen peroxide (H2O2, 30%) and sodium chloride (NaCl) for density separation. Potassium hydroxide (KOH, 10%) was used for digestion of fish gut. The microplastics were identified visually and chemically characterized through micro-Raman spectroscopy. Total 467 microplastic particles in water and sediment, and 62 particles in fish were identified. An average concentration of 0.55 ± 0.06 particles/L in water, 4.03 ± 0.41 particles/100 g in sediment samples, 3.83 ± 2.26 particles/individual in Puntius sophore, and 6.5 ± 3.40 particles/individual in Gudusia chapra were detected. Fibers accounted to the major shape of microplastic in water (54%) and sediment (50%), whereas fragments (65%) were the major shapes detected in both fishes. The color composition includes blue, black, red, green, brown, yellow, and transparent. Fiber particles size ranged between 150 and 1782 µm, fragments within 85–325 µm, and sphere within 85–220 µm. Chemical characterization of microplastics revealed polymer types including polypropylene (PP = 27%), polyvinyl chloride (PVC = 25%), acrylonitrile–butadiene–styrene (ABS = 18%), polycarbonate (PC = 13%), polyethylene (12%), and polystyrene (PS = 5%). PHI levels were at hazard level III and V for water and sediment samples and at level IV for both fish species. The PLI at hazard level I indicated low pollution levels, whereas the PERI were within danger and extreme danger levels. This study is the first report in abundances of microplastics and the ecological risk assessment of microplastics in surface waters, sediments and fishes of Deepor Beel wetland. [ABSTRACT FROM AUTHOR]

Published

2024

24. Surviving amid the Saharan sands: first breeding record and nesting ecology of the Mallard in the Algerian Sahara.

Author

Chedad, Abdelwahab, Bouzid, Abdelhakim, Samraoui, Farrah, and Samraoui, Boudjéma

Subjects

MALLARD, SOLAR radiation, CHICKS, WETLANDS, DUCKS, BIRD populations, WATER birds

Abstract

We report the first breeding occurrence of Mallard (Anas platyrhynchos) in the northern Algerian Sahara, focusing on nesting ecology in the Kef Doukhane wetland. We analyzed the influence of different environmental factors on nesting outcomes and breeding success. Our results indicate that the timing of egg laying is a critical factor influencing both breeding outcomes and the number of fledged chicks. Specifically, our results indicate that nest outcomes become less favorable as the season progresses, with later clutches having a lower probability of success. In addition, the number of successfully fledged chicks is significantly lower for later clutches. Interspecific parasitism was documented in five mixed clutches, involving Ferruginous Duck (Aythya nyroca) in four cases and Moorhen (Gallinula chloropus) in one case. Our study highlights the challenges that the hyperarid environment of the Sahara poses for breeding waterbirds. It also highlights the selection pressures exerted by both biotic factors and environmental factors, with temperature, solar radiation, and the presence of protective vegetation playing important roles. Comparative analyzes show that the timing of egg laying has similar effects in other regions, as observed at Lake Tonga further north, where Mallard breeding performance declines as the season progresses. This research not only contributes to our understanding of the nesting ecology of mallards in this unique Saharan wetland but also underscores the urgency of conservation action, especially in the face of ongoing environmental change. It also improves our understanding of waterbird breeding dynamics in the region and highlights the challenges faced by these bird populations in a demanding, arid environment. [ABSTRACT FROM AUTHOR]

Published

2024

25. Vulnerability of Ecosystem Services and Functions of Elephant Marsh, Malawi, to Land Use and Land Cover Change.

Author

Makwinja, Rodgers, Curtis, Christopher J., and Tesfamichael, Solomon G.

Abstract

Elephant Marsh is among the Ramsar sites in Africa that exist in complex conditions where its ecosystem services and functions (ESFs) have changed in time and space. The past 24 years have seen it being exposed to various threats instigated by land use/land cover changes (LULCC). Assessing its vulnerabilities under LULCC scenarios is essential in understanding the trajectory of its ESFs and for framing practical policy responses. This paper characterizes the Elephant Marsh ESF threats (drivers), pressures, state, impact, and the effectiveness of responses. The integration of the Fuzzy Delph method and analytical hierarchy process ranked the threats. The vulnerability assessment results revealed that demographic indicators (0.92) posed the most critical threats, followed by socio-economic (0.84) and ecological indicators (0.76). LULCC that occurred in eight-year intervals (1998, 2006, 2014, and 2022) driven by human and environmental dynamics reduced Elephant Marsh ESFs evidenced by a decline in the cumulative resilience coefficient (0.57 to 0.15), and increase in extreme weather events cumulative coefficient (0.3 to 0.8), indicating vulnerability state. The most impacted ESFs include regulatory, supporting, provisioning, and cultural ESFs. The study further showed that the effort to restore these most vulnerable ESFs under the current changing climatic scenarios mismatched the demand for ecosystem provisioning services, evidenced by the expansion of cultivated and irrigated land at the expense of areas covered by water, marshes, and forests. This study recommends integrating climate change mitigation efforts and community resilience planning in the development and implementation of wetland policy, management plans, and restoration strategies. [ABSTRACT FROM AUTHOR]

Published

2024

26. Forecasting Wetland Transformation to Dust Source by Employing CA-Markov Model and Remote Sensing: A Case Study of Shadgan International Wetland.

Author

Khanfari, Vaad, Asgari, Hossein Mohammad, and Dadollahi-Sohrab, Ali

Abstract

Wetlands are disappearing globally at alarming rates; since 1900, 71% of wetlands have changed into other forms of land cover. The CA-Markov model is one of the most effective methods for forecasting LULC change. In order to predict LULC changes of Shadegan wetland in 2050, images for the years 1980, 1990, 2000, 2010, and 2020 were classified based on segmentation and artificial neural networks (ANNs), and three classes were considered, including vegetation, bare land, and water. To assess accuracy of classification and prediction, the Kappa coefficient was calculated. Results indicate that CA-Markov has moderate predictive capability for future changes. Results of the image classification show that most of the changes occurred in vegetation from 2000 to 2020. So, about 170,000 hectares of this class have been converted to bar land. By comparing the LULC map in 2020 and 2050, if the current trend in the region is continued, in the 2050 year, 79.6% of the total area will be covered by the bare land. Increasing the amount of dry land in the area can create dust sources. During the last years, with the intensification and continuation of drought, dried parts of wetlands such as Shadegan became the most active dust sources in the southwest of Iran. The aerosol optical depth time series data were used to verify the model’s prediction findings. The result of the Mann-Kendall (MK) test shows the positive trend in the AOD time series, indicating an increasing trend in dust concentration. [ABSTRACT FROM AUTHOR]

Published

2024

27. Interrelationships Between NDVI, Surface Water, and Regional Hydro-Climatic Variables In the Sudd Wetland.

Author

Persico, Geno, Seyoum, Wondwosen M., and Peterson, Eric W.

Abstract

Climate change and its variability impact water availability in wetlands, jeopardizing their ecosystems. This study focuses on the Sudd Wetland, Africa’s most extensive and one of the world’s largest tropical wetland systems. We analyzed historical climate data (temperature, rainfall) in the Sudd and its upstream regions to assess climate impacts on the wetland’s health (NDVI) and water conditions (surface water extent, lake height) using spatial and temporal trends. The study unveils distinct seasonal and long-term variations in vegetation and temporal fluctuations in surface water dynamics within the Sudd Wetland. While central areas experienced declining NDVI (vegetation cover), peripheries showed an increase. The wetland gained open water surface area, with a slight rise in permanent water (3%) and a significant increase in seasonal inundations (19%). All monitored water bodies in the Sudd displayed a gradual increase in surface water height. Climate shifts are observed as rising temperatures and increased rainfall trends. Annual and seasonal temperatures rose across the basin, with the January-Feburary season experiencing the most significant increase (~ 1.3 °C). Rainfall trends were mostly flat, except for the south-central and southeastern regions, where a statistically significant increase ranging from 5 mm to 17 mm per year was observed. Conclusive evidence from this paper could be used to assess water policy and management in the region while protecting key parts of the hydrologic cycle. [ABSTRACT FROM AUTHOR]

Published

2024

28. Ecogeomorphological Investigation of Anthropogenic Changes in the Kızılırmak River Mouth, Türkiye.

Author

Uzun, Ali, Erciyas-Yavuz, Kiraz, Karaer, Fergan, Polat, Nazmi, Bakan, Gülfem, and Gürgöze, Serkan

Abstract

This study was prepared to investigate the ecogeomorphological aspects of the Kızılırmak mouth and its immediate environs, which have been seriously subjected to anthropogenic pressures in recent years. Situated in the center of Turkey's most significant wetland, the Kızılırmak delta, is the research area. In this study, remote sensing methods and field observations were used together, and the collected data were interpreted with an interdisciplinary approach by experts in geomorphology, ornithology, ichthyology, botany, physical geography, and environmental engineering. The Altınkaya and Derbent dams built on the Kızılırmak river negatively affected the sediment budget of the delta. Significant part of the dried floodplains was turned into agricultural field. Later, the stream was taken into an artificial canal. The former bed parts outside the canal turned into lakes and swamps. For this reason, between 1990 and 2021, the coastline was retreated by 500 m, 75.1 ha of wetland were converted into agricultural land and 18.1 ha of new lake area was created. The biological and hydrological features of the study region changed as a result of these changes; habitats were fragmented, animal breeding and nesting grounds were damaged, and some animal populations tended to decline. Despite this, many artificial lakes still have wetland characteristics and can be preserved as a suitable habitat for many different plants and animals. In light of this study, it is advised that the current wetland management plan be carefully revised and implemented. [ABSTRACT FROM AUTHOR]

Published

2024

29. Improving the efficiency of aerial surveys for monitoring North American beaver population dynamics.

Author

Kenyon, Madeline, Dennison, Catherine C., and Popescu, Viorel D.

Abstract

Context. The North American beaver (Castor canadensis) was extirpated from much of its range in the US in the 1800s due to fur trapping and change in land use. However, the species has recolonised much of its former range, including the US state of Ohio. Since 2013, the Ohio Division of Wildlife (ODOW) has monitored trends in beaver colony density via aerial surveys of 40 km × 40 km plots classified as low, medium, or high suitability based on the amount of wetland. Nonetheless, the current classification system may miss important correlates of beaver colony density. Aims. Our study aimed to (1) identify predictors of beaver colony density (number of colonies inferred from aerial counts of lodges) across Ohio, and (2) develop a model-based classification system to improve the efficacy of monitoring efforts. Methods. To predict beaver colony density in Ohio we used an aerial survey dataset of 54 plots (40 km × 40 km) collected by ODOW annually between 2013 and 2020, along with a suite of environmental, anthropogenic, and climate variables in a mixed effects modelling framework. Key results. Beaver colony density was positively associated with wetland and reclaimed surface mine areas and inversely associated with the proportion of agricultural lands. There was a negative interaction between wetland and surface mines; in general, beaver colony density increased with wetland and surface mine area. However, in plots with wetland area >1000 ha, beaver colony density was weakly negatively associated with surface mine area. Using median and interquartile ranges of model-averaged predicted beaver colony density, we developed a new classification of low, moderate and high suitability for both the survey plots and the entire state of Ohio. We found that eastern Ohio had high suitability, while the central and western parts of the state had lower suitability for C. canadensis. Conclusions. Our approach to identifying predictors for beaver colony density at broad spatial scales highlights the importance of reclaimed surface mines and wetlands for beaver populations, while the model-based habitat classification provides ODOW additional information for monitoring and beaver management decisions. Implications. Improved C. canadensis monitoring at the landscape scale using habitat classifications that consider local conditions can both improve annual survey cost-effectiveness and facilitate the sustainable management of this recovering species. [ABSTRACT FROM AUTHOR]

Published

2024

30. WETLAND AND BIOCULTURAL HERITAGE REGENERATION THROUGH THEMATIC ECOLOGICAL TOURISM PRACTICE: THE CASE OF PATAN SUB-DISTRICT, KHUN TAN DISTRICT, CHIANG RAI, THAILAND.

Author

YIAMJANYA, Siripen, KANKAEW, Kannapat, SITIKARN, Bussaba, NAKPATHOM, Parinya, Ba AWAIN, Ali Mohsin Salim, and JABJAINAI, Teerarat

Subjects

ECOTOURISM, SUSTAINABLE tourism, ANALYTIC hierarchy process, RURAL tourism, STRUCTURAL equation modeling, PUBLIC-private sector cooperation

Abstract

The tourism managed and operated by local communities has evidently been a significant phenomenon in the 21st century, and therefore it is one of the challenging units in the tourism value chain. This study investigates the initiative of community ecological tourism and proposes a framework of ecological tourism development. The inductive approach utilizes field survey, in-depth interviews, participatory observation, focus group discussion with key tourism partners. The concept of public private partnership (PPP) was applied. The analytic hierarchy process (AHP) was employed to rank the criteria for ecological tourism development. The structural equation modelling (SEM), as a quantitative approach, was used to foster the factors collected from the focus group. There are six criteria identified for sustainable ecological tourism development including: environmental, economic, sociocultural, visitor experiences, infrastructure and logistics, and sustainability. Other six factors enhance ecological tourism development namely: budget, knowledge, technological system, participation, community factors, and social factors. Stakeholders highlight environment and community participation for sustainable development. Still, the local residents lack knowledge on tourism management. Based on the findings, the sustainable ecological tourism development framework for Patan was constructed. Future success factors that should be essentially developed involve inventory of local data that will be useful for establishing identity and meaning making, local individuals' learning and understanding of their local knowledge, training and tourism interpretation and narratives for story-telling of its cultural landscape. [ABSTRACT FROM AUTHOR]

Published

2024

31. Editorial: Restoration of coastal marine ecosystems.

Author

Osinga, Ronald, Danovaro, Roberto, Debney, Alison, and Pogoda, Bernadette

Subjects

ARTIFICIAL substrates (Biology), BODIES of water, RESTORATION ecology, MARINE heatwaves, ANIMAL ecology, CORAL reef restoration

Abstract

This editorial titled "Restoration of coastal marine ecosystems" discusses the importance of ecosystem restoration in coastal marine habitats and the goals set by the United Nations to protect and restore degraded ecosystems. It highlights the challenges and uncertainties associated with large-scale restoration efforts in marine ecosystems and presents new insights and achievements in marine ecosystem restoration. The document covers various topics and ecosystems, including seagrass beds, macroalgal forests, estuarine wetlands, oyster reefs, and coral reefs, and provides successful restoration case studies. The article emphasizes the importance of stakeholder involvement, long-term monitoring, and measures to improve the resilience of restored ecosystems in the face of climate change. It concludes by calling for intensified and scaled-up restoration efforts, supported by government actions and partnerships with commercial and industrial sectors. [Extracted from the article]

Published

2024

32. Nitrogen inputs promote wetland carbon dioxide and nitrous oxide emissions in China: a meta-analysis.

Author

Feng, Yisong, Song, Yanyu, Song, Changchun, Yao, Xiaochen, Zhu, Mengyuan, Liu, Jiping, and Chen, Ning

Subjects

GREENHOUSE gases, NITROGEN in soils, SOIL respiration, CARBON offsetting, CARBON dioxide

Abstract

Nitrogen is the most limiting nutrient in wetland ecosystems. Changing in nitrogen nutrient status has a great effect on wetland carbon and nitrogen cycling. However, there is much uncertainty as to wetland greenhouse gas emissions response to nitrogen inputs in China. In this study, we synthesized 177 paired observations from 27 studies of greenhouse gases emissions related to nitrogen additions across wetland in China. The results showed nitrogen inputs significantly contributed to wetland carbon dioxide (CO2) and nitrous oxide (N2O) emissions but had no significant effect on methane (CH4). We further analyze the relationship between greenhouse gases emissions and soil properties, climate factors under nitrogen inputs. Regression analyses introducing explanatory variables showed that high nitrogen inputs (12 g N m−2 yr−1—24 g N m−2 yr−1) contributed more significantly to wetland CO2 and N2O emissions. Compared to other wetland types, alpine peatlands have a greater impact on CO2 and N2O emissions following nitrogen input. In addition, high altitude (> 1500 m and ≤ 3500 m) could promote wetland CO2 and N2O emissions more significantly after nitrogen input, but ultra-high altitude (> 3500 m) reduced CO2 emissions. CO2 and N2O emissions were more significantly promoted when mean annual temperature (MAT) was positive, and CO2 emissions increased with increasing mean annual precipitation (MAP). Wetland CO2 emissions can be significantly promoted when soil is acidic, while N2O emissions can be significantly promoted when soil is alkaline. N2O emissions increased with increasing of soil total nitrogen (TN) and soil organic carbon (SOC) contents. These findings highlight the characteristics of wetland greenhouse gas emissions following nitrogen input, and improve our ability to predict greenhouse gas emissions and help meet carbon neutrality targets. [ABSTRACT FROM AUTHOR]

Published

2024

33. Distribution, flux, and risk assessment of microplastics at the Anzali Wetland, Iran, and its tributaries.

Author

Razeghi, Nastaran, Hamidian, Amir Hossein, Abbasi, Sajjad, and Mirzajani, Alireza

Subjects

PLASTIC marine debris, ECOLOGICAL risk assessment, WATER pollution, SCIENTIFIC community, MICROPLASTICS, ELECTRIC conductivity

Abstract

Microplastic pollution has raised significant concerns among scientific communities and society in recent years due to its increase and lesser-known effects on the environment. To improve the knowledge of microplastic pollution in freshwater, we investigated microplastics in Anzali Wetland, a Ramsar site in northern Iran, as well as its nine main entering rivers. The extracted microplastics were characterized via visual identification, SEM–EDX, and μ-Raman methods. Microplastics (size range: 50–5000 μm) were found in all water and sediment samples with concentration of fibrous particles as well as polypropylene and polyethylene polymers. The mean concentration of microplastics in bottom sediment and surface water samples of the wetland was 301 ± 222 particles∙kg−1 d.w. and 235 ± 115 particles∙m−3 (0.23 particles∙L−1), respectively. The microplastic concentration in the central and eastern parts of the wetland was higher than in other areas; however, the mean concentrations revealed homogeneity across the wetland area. Water properties (dissolved oxygen, pH, temperature, electrical conductivity, and salinity in water) did not affect the concentration of microplastic particles, though correlational analysis revealed a strong positive association between microplastic quantity and turbidity. There was a significant positive relationship between microplastic concentration and the percentage of clay in sediment samples. The quantity of microplastics in river water was higher than in wetland water, but the difference between the results was not significant. However, the quantity of microplastics in the river's littoral sediment was higher than in the bottom sediment of the wetland where the difference between the results was significant. Microplastic ecological risk assessment showed high potential ecological risk. The findings underscore the importance of effective management strategies and the implementation of policies to mitigate the negative impact of MP pollution on ecosystems and human health. [ABSTRACT FROM AUTHOR]

Published

2024

34. Constructed wetlands to treat polluted waters in Latin America and the Caribbean.

Author

Garcia-Chevesich, Pablo A., Morales-Paredes, Lino, Romero-Mariscal, Giuliana, Arenazas-Rodriguez, Armando, Ticona-Quea, Juana, Pizarro, Roberto, Vanzin, Gary, and Sharp, Jonathan O.

Subjects

*SEWAGE purification, *CONSTRUCTED wetlands, *SEWAGE, *WATER purification, *WASTEWATER treatment

Abstract

A collaborative analysis of constructed wetlands in Latin America and the Caribbean, published in Spanish, brought together insights from 10 different countries in the region. The collective reports focused on both subsurface and surface flow wetlands. Treatment targets included industrial and agricultural discharges, yet the emphasis was on the treatment of domestic wastewater as a pollutant, and a lack of sufficient municipal wastewater treatment infrastructure. Common macrophyte genera as well as unique species were highlighted for their potential contributions to treatment and ecological diversity. Finally, a growing body of legal frameworks for establishment and protection were reported. [ABSTRACT FROM AUTHOR]

Published

2024

35. Environmental dispersion in wetland flow with wind effects under boundary absorptions.

Author

Mondal, Buddhadeb, Barman, Krishnendu, and Mazumder, Bijoy S

Subjects

*WETLANDS, *DISPERSION (Chemistry), *WILDLIFE conservation, *FISH conservation, *ABSORPTION, *FLUID dynamics

Abstract

Wetlands are characterized by flow and environmental dispersion, which are necessary in the water management system. Contaminant transport in wetlands has a significant effect in the field of biology and environmental fluid dynamics for the conservation of fish and wildlife species, erosion prevention, and mainly recreation. When an instantaneous contaminant is released into a wetland, both boundary absorptions and wind have a significant impact on the contaminant dispersion process. The present study highlights the wind effects and boundary absorption on environmental dispersion and stream-wise mean concentration in a width-dominated flow for a shallow wetland. A multi-scale time period is considered to determine the dispersion model, which illustrates the contaminant transport process greatly affected by different ecological parameters like dispersion time, boundary absorption, tortuosity and vegetation drag. It is noted that the stream-wise concentration distribution is almost identical to the transversal concentration distribution due to tortuosity and bottom vegetation effect. It is noticed that the stream-wise concentration of contaminant gradually decreases due to the increase of vegetation parameters and tortuosity. The distribution of flow velocity is derived analytically from the momentum equation for different wind strengths. The effect of boundary absorption strength on stream-wise and mean concentration are discussed. Also, it is evident that the distribution of concentration is complex for boundary absorption under the effects of wind. [ABSTRACT FROM AUTHOR]

Published

2024

36. Road mortality of water snakes in light of landscape structure and traffic intensity in north-eastern Hungary.

Author

Szabolcs, Márton, Mizsei, Edvárd, Zsólyomi, Tamás, Mester, Béla, and Lengyel, Szabolcs

Subjects

NATRIX natrix, FLOOD control, TRAFFIC flow, SPRING, AUTUMN

Abstract

Road mortality can be a serious threat to different animals, including snakes. However, mortality patterns can vary between species, intraspecific groups, locations and time. We compared the number of road-killed individuals (carcasses) of two semiaquatic water snakes (Natrix natrix and N. tessellata) on 58 km of road sections bordered by an active floodplain and a flood-protected former floodplain on one side and mountainous areas on the other in NE Hungary based on surveys conducted once every two weeks in three non-consecutive years. The results showed high road mortality of snakes, with a spring and an autumn peak corresponding to the times when snakes emerge from and return to hibernating sites. The results show that small-scale spatial differences in road mortality were mediated by landscape structure along the road, while the effects of traffic volume, flood regime and the age and sex of the individuals were negligible. For conservation, the study suggests that establishing culvert passages under the road and/or artificial hibernating sites on the floodplain-side of the roads in critical sections can be promising in reducing road-related mortality. [ABSTRACT FROM AUTHOR]

Published

2024

37. Long‐term, landscape‐level assessment of aquatic pesticide exposure to identify amphibian ontological traits affecting vulnerability.

Author

Awkerman, Jill A., Purucker, Steven T., Raimondo, Sandy, and Oliver, Leah

Subjects

LIFE history theory, ECOLOGICAL risk assessment, VERNAL pools, LIFE cycles (Biology), ENDANGERED species, WETLANDS

Abstract

Amphibians worldwide are threatened by habitat loss, some of which is driven by a changing climate, as well as exposure to pesticides, among other causes. The timing and duration of the larval development phase vary between species, thereby influencing the relative impacts of stochastic hydroregime conditions as well as potential aquatic pesticide exposure. We describe the stages of breeding through metamorphosis for eight amphibian species, based on optimal hydroregime conditions, and use a model of pesticide fate and exposure representative of central Florida citrus groves to simulate hydrodynamics based on observed weather data over a 54‐year period. Using the Pesticide in Water Calculator and Plant Assessment Tool, we estimated daily wetland depth and pyraclostrobin exposure, with label‐recommended application quantities. Species' timing and duration of larval development determined the number of years of suitable hydroregime for breeding and the likelihood of exposure to peak aquatic concentrations of pyraclostrobin. Although the timing of pesticide application determined the number of surviving larvae, density‐dependent constraints of wetland hydroregime also affected larval survival across species and seasons. Further defining categorical amphibian life history types and habitat requirements supports the development of screening‐level assessments by incorporating environmental stochasticity at the appropriate temporal resolution. Subsequent refinement of these screening‐level risk assessment strategies to include spatially explicit landscape data along with terrestrial exposure estimates would offer additional insights into species vulnerability to pesticide exposure throughout the life cycle. Computational simulation of ecologically relevant exposure scenarios, such as these, offers a more realistic interpretation of differential agrichemical risk among species based on their phenology and habits and provides a more situation‐specific risk assessment perspective for threatened species. Integr Environ Assess Manag 2024;20:1667–1676. Published 2024. This article is a U.S. Government work and is in the public domain in the USA. Key Points: Novel quantitative approaches to ecological risk assessment for amphibians include species life history and environmental stochasticity for a long‐term perspective on variable breeding conditions in ephemeral wetlands and aquatic pesticide exposure effects to determine species vulnerability. [ABSTRACT FROM AUTHOR]

Published

2024

38. A Case Study of the Possible Meteorological Causes of Unexpected Fire Behavior in the Pantanal Wetland, Brazil.

Author

Couto, Flavio T., Santos, Filippe L. M., Campos, Cátia, Purificação, Carolina, Andrade, Nuno, López-Vega, Juan M., and Lacroix, Matthieu

Subjects

FIRE weather, ATMOSPHERIC models, WEATHER, LOW temperatures, HUMIDITY

Abstract

This study provides insights into large fires in the Pantanal by analyzing the atmospheric conditions that influenced the rapid fire evolution between 13 and 14 November 2023, when fire fronts spread rapidly, leading to critical situations for firefighters. The observation-based analysis helped us to identify some characteristics of the fire's evolution and the meteorological conditions in the region. Furthermore, two simulations were run with the Meso-NH model, which was configured with horizontal resolutions of 2.5 km and 5 km. The fire behavior, characterized by satellite observations, revealed periods with a sudden increase in active fire numbers. High temperatures and low relative humidity in the region characterized the fire weather conditions. The simulations confirmed the critical fire condition, showing the benefits of increasing the resolution of numerical models for the Pantanal region. The convection-resolving simulation at 2.5 km showed the repeated development of gust fronts in the late afternoon and early evening. This study highlights this dynamic that, coupled with intense surface wind gusts, was crucial for the intensification of the fire spread and unexpected behavior. This study is a first step toward better understanding fire dynamics in the Pantanal through atmospheric modeling, and it can support strategies for firefighting in the region. [ABSTRACT FROM AUTHOR]

Published

2024

39. Comparative Assessment of Soil Parameters and Ecological Dynamics in the Western Himalayan Wetland and Its Surrounding Periphery.

Author

Sahu, Himanshu, Purohit, Pooja, Srivastava, Aman, Singh, Raj, Mishra, Arun Pratap, Arunachalam, Kusum, and Kumar, Ujjwal

Subjects

ECOSYSTEM dynamics, WETLAND soils, SOIL testing, ELECTRIC conductivity, SOIL moisture, WETLANDS

Abstract

Disparities in pH, conductivity, organic carbon (OC), nutrients, and moisture between the Asan Wetland and its periphery in the Western Himalaya, India, highlight the need to investigate influencing factors. This study thus addresses two gaps: (1) identifying key drivers for alkaline pH and elevated wetland concentrations and (2) understanding how different values outside the wetland relate to ecological processes. Asan Wetland soil samples, collected on April 15, 2023, underwent analysis for pH, electrical conductivity (EC), organic carbon (OC), organic matter (OM), available nitrogen (N), available phosphorus (P), potassium (K), sodium (Na), calcium (Ca), moisture content (M), total organic carbon (TOC), and total organic matter (TOM) using standard laboratory procedures, APHA, CPCB, and standard manual techniques. Within the wetland, results indicated that the soil is more alkaline (pH 8.50 ± 0.13) than the periphery in the concentrations of EC, N, K, and M were found to be higher compared to the corresponding concentrations outside the wetland, with mean values of 1.10 ± 0.15 ds/m, 364 ± 117.13 kg/ha, 86.42 ± 21.64 kg/ha, and 20.87 ± 1.50%, respectively. Conversely, outside the wetland, higher values of OC, OM, P, Na, Ca, TOC, and TOM were recorded (0.39 ± 0.23%, 0.66 ± 0.39%, 0.82 ± 0.35 ppm, 80.45 ± 8.46 ppm, 268.12 ± 61.12 ppm, 56.80 ± 0.33%, and 97.70 ± 0.57%, respectively). pH, EC, K, Ca, Na, and moisture content variations indicate location‐based differences. pH, TOM, TOC, and soil moisture were positively correlated within wetlands but negatively correlated with Na and N. In addition, moisture was positively correlated with pH and N but negatively correlated with Ca, K, Na, and P. The study concluded that the Asan Wetland exhibits distinct soil characteristics compared to its periphery, exhibiting location‐based differences while emphasizing these factors' interconnectedness. [ABSTRACT FROM AUTHOR]

Published

2024

40. Future Carbon-Neutral Societies: Minimising Construction Impact on Groundwater-Dependent Wetlands and Peatlands.

Author

Jorat, M. Ehsan, Minto, Andrew, Tierney, Irene, and Gilmour, Daniel

Abstract

The decarbonisation of the energy sector through major renewable energy developments in rural areas is one the requirements for sustainable development and future carbon-neutral societies. However, this has resulted in increased construction on peatlands and wetlands and has led to diverse environmental impacts in the affected areas. The overall aim of this project was to review the effectiveness of standard mitigation measures used during construction to maintain the hydrological conditions within peat soils and wetland habitats. This work involved a literature review of the evidence of the impacts of construction on the habitat and groundwater in groundwater-dependent wetlands and peatlands. In addition, developers and contractors were consulted to gain feedback on what practical approaches have and have not been successful and remedial actions taken when monitoring or observation identifies ongoing issues. This research also developed regulatory-relevant recommendations. The main recommendation focuses on the central importance of collecting relevant and detailed site investigation data at an early stage of the application process to enable a full understanding of the site character and to inform a more accurate design process. This will reduce or avoid impacts on the environment, minimise risk, and produce a more informed construction strategy. [ABSTRACT FROM AUTHOR]

Published

2024

41. Retrospective assessment of mine impacts: a case study using palaeoecology, aerial photography and maps from North Stradbroke Island (Minjerribah), Australia.

Author

Tibby, John, Marshall, Jonathan C., Short, Julia, Cadd, Haidee R., Hansen, James, Lewis, Tara M., Schulz, Cameron, Negus, Peter M., McGregor, Glenn B., and Donnellan, Courtney

Subjects

ENVIRONMENTAL impact analysis, AERIAL photography, PALEOECOLOGY, ENVIRONMENTAL history, REMOTE sensing, WETLANDS

Abstract

Mining is an environmentally destructive human activity. Consequently, community expectations and legislation require minimisation of impacts and rehabilitation once mining ceases. Rehabilitation standards now include restoration of structural and functional attributes of pre-disturbed landscapes. However, insufficient baseline data before, and during, mining often makes it difficult to assess impacts and develop rehabilitation objectives. Techniques that retrospectively document the pre-impact condition and environmental history of wetlands affected by mines can provide this information. We demonstrate how this can be achieved using data from palaeoecology and remote sensing, to understand mine impact on Fishermans Wetland, North Stradbroke Island (Minjerribah), by inferring its environmental history from formation to present. Fishermans Wetland is a small, clear, open water, wetland with extensive macrophyte growth. A lack of information about the wetland's pre-mine condition created uncertainty about the effects of upstream sand mining. Contrary to local community concerns that Fishermans Wetland was ancient and hydrologically modified by mining, it only formed in the 1950s. Moreover, changes to site hydrology predated mining. Consequently, ongoing supplementation of water is unnecessary for maintaining the wetland's ecological character. Similar techniques could be used elsewhere where mine impacts are poorly understood or contested. [ABSTRACT FROM AUTHOR]

Published

2024

42. Distribution Patterns of Soil Microorganisms under Different Vegetation Types along the Riparian Wetland of the Ulson River and Its Influencing Factors.

Author

ZHANG Rui, YANG Xinran, LIU Huamin, YU Hongbo, NIU Feng, FANG Haitao, WEN Lu, ZHUO Yi, FU Ruiying, BAI Yang, XIAO Bowen, and WANG Lixin

Subjects

RIPARIAN areas, RESTORATION ecology, SOIL moisture, CLIMATE change, SOIL microbiology, WETLANDS, MICROBIAL diversity, SOIL microbial ecology

Abstract

Copyright of Journal of Resources & Ecology is the property of Journal of Resources & Ecology 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

43. A Case Study of the Possible Meteorological Causes of Unexpected Fire Behavior in the Pantanal Wetland, Brazil

Author

Flavio T. Couto, Filippe L. M. Santos, Cátia Campos, Carolina Purificação, Nuno Andrade, Juan M. López-Vega, and Matthieu Lacroix

Subjects

atmospheric modeling, Meso-NH model, mega-fires, gusts fronts, Pantanal, wetland, Environmental technology. Sanitary engineering, TD1-1066

Abstract

This study provides insights into large fires in the Pantanal by analyzing the atmospheric conditions that influenced the rapid fire evolution between 13 and 14 November 2023, when fire fronts spread rapidly, leading to critical situations for firefighters. The observation-based analysis helped us to identify some characteristics of the fire’s evolution and the meteorological conditions in the region. Furthermore, two simulations were run with the Meso-NH model, which was configured with horizontal resolutions of 2.5 km and 5 km. The fire behavior, characterized by satellite observations, revealed periods with a sudden increase in active fire numbers. High temperatures and low relative humidity in the region characterized the fire weather conditions. The simulations confirmed the critical fire condition, showing the benefits of increasing the resolution of numerical models for the Pantanal region. The convection-resolving simulation at 2.5 km showed the repeated development of gust fronts in the late afternoon and early evening. This study highlights this dynamic that, coupled with intense surface wind gusts, was crucial for the intensification of the fire spread and unexpected behavior. This study is a first step toward better understanding fire dynamics in the Pantanal through atmospheric modeling, and it can support strategies for firefighting in the region.

Published

2024

44. Persistent Trace Organic Contaminants Are Transformed Rapidly under Sulfate- and Fe(III)-Reducing Conditions in a Nature-Based Subsurface Water Treatment System.

Author

Stiegler, Angela, Cecchetti, Aidan, Scholes, Rachel, and Sedlak, David

Subjects

anaerobic, biotransformation, horizontal levee, micropollutants, nature-based solution, redox, wetland, Wastewater, Ferric Compounds, Sulfates, Water Purification, Organic Chemicals, Water Pollutants, Chemical, Wetlands, Waste Disposal, Fluid

Abstract

Subsurface treatment systems, such as constructed wetlands, riverbank filtration systems, and managed aquifer recharge systems, offer a low-cost means of removing trace organic contaminants from treated municipal wastewater. To assess the processes through which trace organic contaminants are removed in subsurface treatment systems, pharmaceuticals and several major metabolites were measured in porewater, sediment, and plants within a horizontal levee (i.e., a subsurface flow wetland that receives treated municipal wastewater). Concentrations of trace organic contaminants in each wetland compartment rapidly declined along the flow path. Mass balance calculations, analysis of transformation products, microcosm experiments, and one-dimensional transport modeling demonstrated that more than 60% of the contaminant removal could be attributed to transformation. Monitoring of the system with and without nitrate in the wetland inflow indicated that relatively biodegradable trace organic contaminants, such as acyclovir and metoprolol, were rapidly transformed under both operating conditions. Trace organic contaminants that are normally persistent in biological treatment systems (e.g., sulfamethoxazole and carbamazepine) were removed only when Fe(III)- and sulfate-reducing conditions were observed. Minor structural modifications to trace organic contaminants (e.g., hydroxylation) altered the pathways and extents of trace organic contaminant transformation under different redox conditions. These findings indicate that subsurface treatment systems can be designed to remove both labile and persistent trace organic contaminants via transformation if they are designed and operated in a manner that results in sulfate-and Fe(III)-reducing conditions.

Published

2023

45. Seasonal assessment of water quality and water quality index (WQI) variations, in Jiangsu Kunshan Tianfu National Wetland Park, China.

Author

Ajloon, Fathielrahaman H., Dong, Xie, Ayejoto, Daniel A., Ayeni, Emmanuel A., and Sabo, Muhammad Y.

Subjects

*WATER quality, *WATER pollution, *ELECTRIC conductivity, *WATER levels, *ONE-way analysis of variance, *WATER quality monitoring

Abstract

Seasonal variations in surface water quality are essential for assessing temporal variations in wetlands pollution due to natural or anthropogenic inputs from both point and non-point sources. The goal of this study was to use established methodologies to estimate the water quality of the Tianfu National Wetland Park based on physicochemical features; sampling was done from eight monitoring locations throughout the wetland region in the summer of 2019 and winter of 2020. The water quality index (WQI) is calculated using the following parameters: Turbidity (NTU), Nitrate, Chlorophyll, TOC, DOC, COD, BOD, Chroma, Ammonium nitrogen, pH, Electric Conductivity, and Total Phosphorus. One-way ANOVA and Tukey's pairwise comparisons with a 5% significance level were used to compare water quality parameters among the monitoring point's data. T-test analysis was used to compare the parameters between summer 2019 and winter 2020 and the difference between the water inlet and the water outlet. Cluster analysis was done on the WQI results using Ward's linkage approach. The analyses of variance (ANOVA) of data revealed statistically significant differences between points of sampling (p < 0.05). The paired t-test revealed significant differences in parameters between summer 2019 and winter 2020; however, all parameters in summer show higher values in the water inlet than water outlet. In winter, TOC, DOC, COD, BOD, Chroma, pH, and Electric Conductivity showed higher values than Turbidity (NTU), Nitrate, Chlorophyll, Ammonium Nitrogen, and Total Pospurus. In general, summer showed higher pollution than winter, and water inlets were more polluted than water outlets indicating that other factors may affect the water quality, such as vegetation cover, temperature, water level, and activities in the wetland during the seasons. [ABSTRACT FROM AUTHOR]

Published

2024

46. Characterizing Shifts in Major Land Use Types and the Response of Water Yield in a Catchment with Widespread Peaty Wetlands.

Author

Su, Wenhang, Wang, Hailong, and Gao, Liming

Abstract

Landscape patterns have changed substantially in many countries over the last few decades which have profound impacts on hydrological processes. Wetlands have great potential in increasing watershed water retention capacity, so it is considered an important nature-based solution to improve water management. Yet, the impacts of wetland area alongside climate change on water yield are not adequately reported, especially in headwater catchments with widespread wetland distributions. In this study, we carried out analysis in the Zoige Plateau where owns the largest peaty wetlands in China. After reclassification of the land use land cover (LULC) types by applying a machine learning algorithm on Landsat imageries, we found an overall increase in wetland area during 1991–2022, mostly converted from grassland. Wetland experienced large dynamic changes in the region, distinguishable in two phases, i.e., dramatic degradation before 2009 because of overgrazing, and recovery afterwards after the policy implementation for wetland restoration. Furthermore, the impacts of climate factors and LULC types on water yield were quantified using Structural Equation Model and Multiple Linear Regression methods. Results showed that precipitation was evidently the dominant factor with a contributing factor of over 0.7, followed by wetland area (~ 0.2). In comparison, forests and grassland change and drought conditions played a much weaker role. The analysis indicates that in the context of wetting and warming tendency in the region, increasing the wetland areas can play a critical role in modulating hydrological processes for sustainable water supply to the downstream areas. [ABSTRACT FROM AUTHOR]

Published

2024

47. Evaluation of kikuyu grass wetland for wastewater treatment efficiency from malt factory, Ethiopia

Author

Dessie Tibebe, G/ Hiwot Ambelu, and Yezbie Kassa

Subjects

Gondar, Malt factory, Removal efficiency, Treatment, Wastewater, Wetland, Public aspects of medicine, RA1-1270

Abstract

Abstract Background The majority of existing industries in Ethiopia discharge untreated effluents into nearby water bodies, streams and open land. The wastewater generated by Gondar malt factory (GMF) was disposed freely and join a natural wetland implemented for the treatment of the wastewater. The objective of the study was to analyze and characterize wastewater from GMF and to evaluate the effectiveness of the wetland for the treatment purpose. Methods Different Physicochemical quality indicators (color, turbidity pH, temperature, Total Dissolved solids, Total Suspended solids, total solid, conductivity, alkalinity, hardness, nitrate, phosphate, sulfate, free chlorides, heavy metals-(Cd, Cr, Fe, Mn, and Pb)and Biological Oxygen Demand were measured according to the standard procedures. Data was analyzed using Statistical Package for Social Sciences (SPSS-25). Analysis of Variance (ANOVA) was used to find whether significant differences existed in the different sampling stations for the parameters studied. P value less than 0.05 was considered to show significant difference. Results The results of this study revealed that most of the quality indicators were improved in value after the water passed through the wetland except for alkalinity M, sulfite, Mn, temperature and pH. From ANOVA result, it was noted that there was a significant mean difference between the stations except for chromium, manganese and lead. The result showed that the wetland plays a great role in the removal of pollutants where the best performance was obtained at removal efficiency of 96.188% PO4 HR ,75.63% Nitrate,>99% Cl2, ammonia and nitrite 99.99%, 92.77% sulfate,84.36% Total hardness,87.43% color, and for others it is ranged between 30 and 60%. Conclusion the study concluded that GMF wetland was almost effective and had potential in treatment of the wastewater from the discharging facilities (especially for nutrients, alkalinity P, hardness, color and chloride). It is recommended that wetlands should be conserved and used as wastewater treatment facility.

Published

2024

48. An Assessment of the Laws and Policies on the Iture-Abakam Wetlands: Issues of Protection and Management

Author

Issaka Amadu

Subjects

ramsar convention 1971, ramsar-sites, wildlife, wetland, policies, iture-abakam-cape coast, protection of nature, Social Sciences

Abstract

Wetlands have been protected from exploitation by legislation over the years due to the important role they play in the ecosystem. However, in Ghana, recent occurrences have led to their exploitation. The Iture-Abakam Wetland of the Cape Coast Metropolis which has been reported to be the only single location in Ghana where all five of the mangrove species can be found is facing exploitation by certain individuals and organizations which should be prevented at all costs. Thus, this study aimed to assess the role the law plays and the systems that have been put in place to manage and protect the Iture-Abakam Wetland. Interviews were conducted with key stakeholders such as the personnel from the Wildlife Division, Environmental Protection Agency, Land Use and Spatial Planning Department as well as the Chief and Fetish Priest to seek their views on the laws and policies on the Iture-Abakam wetland. Findings from the study revealed that no law exists for the protection and management of the wetland as is the case for most of the non-Ramsar site wetlands in Ghana. The local laws that are used to protect the area are not adhered to as a result of little regard given to traditional laws and policies today. It is recommended that the various non-Ramsar sites such as the Iture-Abakam wetland should be gazetted and protected by national laws. The traditional authorities should also be empowered by the central government to implement any local laws and policies they may formulate to protect wetlands in their locality.

Published

2024

49. Analyzing land use changes and wetland dynamics: Muthurajawela urban wetland and its surroundings, Sri Lanka

Author

Harsha Dias Dahanayake, DDGL Dahanayaka, Paul Hudson, and Deepthi Wickramasinghe

Subjects

gis, lulc, muthurajawela, remote sensing, sri lanka, wetland, Environmental effects of industries and plants, TD194-195

Abstract

Land Use and Land Cover changes (LULC) exert a substantial influence on human life and environmental well-being. This research utilized the Intensity Analysis (IA) method to assess LULC change intensities spanning from 2000 to 2021 in the Muthurajawela coastal wetland (MW) and its 5km buffer zone (MB) along the west coast of Sri Lanka. The research employed Landsat Thematic Mapper (TM) and Optical Land Imager (OLI) Remote Sensing Images. The supervised classification was used to accurately identify waterbodies, thick vegetation, other vegetation, settlements, and open areas with an average of 86% accuracy. The study revealed that the MW experienced a fast Interval level intensity shift during 2000-2010, followed by a slower pace during 2010-2021. Conversely, the MB displayed a consistently fast Interval level intensity throughout both time intervals. Notably, waterbodies in MW decreased by 19.6%, while settlements witnessed a gain of 19.1% over the entire period. Transition Level (TL) analyses underscored the transformation of water bodies to open areas (6.75% in 2000-2010) and open areas to settlements (5.38%). In MB, other vegetation saw a significant decrease of 33.7%, with settlements registering a notable increase of 39.4% over the entire period. The study emphasizes urgent action for sustainable land use development in the face of rapid urbanization within the study area.

Published

2024

50. Beaver pond identification from multi-temporal and multi- sourced remote sensing data

Author

Wen Zhang, Baoxin Hu, Glen Brown, and Shawn Meyer

Subjects

Remote sensing, American black duck, wetland, beaver pond, Sentinel-2, RadarSat, Mathematical geography. Cartography, GA1-1776, Geodesy, QB275-343

Abstract

The maintenance and restoration of wetland habitat is a priority conservation action for most waterfowl and other wetland-dependent species in North America. Despite much progress in targeting habitat management in staging and wintering areas, methods to identify and target high-quality breeding habitats that result in the greatest potential for wildlife are still required. This is particularly true for species that breed in remote, inaccessible areas such as the American black duck, an intensively managed game bird in Eastern North America. Although evidence suggests that black ducks prefer productive, nutrient-rich waterbodies, such as beaver ponds, information about the distribution and quality of these habitats across the vast boreal forest is lacking with accurate identification remaining a challenge. Continuing advancements in remote sensing technologies that provide spatially extensive and temporally repeated information are particularly useful in meeting this information gap. In this study, we used multi-source remotely sensed information and a fuzzy analytical hierarchy process to map the spatial distribution of beaver ponds in Ontario. The use of multi-source data, including a Digital Elevation Model, a Sentinel-2 Multi-Spectral Image, and RadarSat 2 Polarimetric data, enabled us to identify individual beaver ponds on the landscape. Our model correctly identified an average of 83.0% of the known beaver dams and 72.5% of the known beaver ponds based on validation with an independent dataset. This study demonstrates that remote sensing is an effective approach for identifying beaver-modified wetland features and can be applied to map these and other wetland habitat features of interest across large spatial extents. Furthermore, the systematic acquisition strategy of the remote sensors employed is well suited for monitoring changes in wetland conditions that affect the availability of habitats important to waterfowl and other wildlife.

Published

2024