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Today, sustainability of a healthy freshwater ecosystem and its associated ecosystem services are hot issues with ever-growing attention placed upon them. We are increasingly recognizing that they are crucial for the survival of the aquatic biota and human beings on our planet. The efficient monitoring of water resources is fundamental for effective management of water quality and aquatic ecosystems. The first stage in sustainable ecosystem management is the evaluation of the current status of target ecosystems. Traditionally, and even today, physico-chemical parameters have mainly been used to evaluate the quality of water resources. However, they have a large limit to grab the wholeness of water system, particularly in the sense of ecosystem health and integrity, for which ecological monitoring should be based on biological factors. Various approaches are applicable to ecosystem health assessment at different levels of the biological hierarchy, from genes to ecosystems. This Special Issue is designed to improve scientific understanding and strategies for sound aquatic ecosystem management and services for researchers, decision makers, and stakeholders.
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Today, sustainability of a healthy freshwater ecosystem and its associated ecosystem services are hot issues with ever-growing attention placed upon them. We are increasingly recognizing that they are crucial for the survival of the aquatic biota and human beings on our planet. The efficient monitoring of water resources is fundamental for effective management of water quality and aquatic ecosystems. The first stage in sustainable ecosystem management is the evaluation of the current status of target ecosystems. Traditionally, and even today, physico-chemical parameters have mainly been used to evaluate the quality of water resources. However, they have a large limit to grab the wholeness of water system, particularly in the sense of ecosystem health and integrity, for which ecological monitoring should be based on biological factors. Various approaches are applicable to ecosystem health assessment at different levels of the biological hierarchy, from genes to ecosystems. This Special Issue is designed to improve scientific understanding and strategies for sound aquatic ecosystem management and services for researchers, decision makers, and stakeholders.
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Today, sustainability of a healthy freshwater ecosystem and its associated ecosystem services are hot issues with ever-growing attention placed upon them. We are increasingly recognizing that they are crucial for the survival of the aquatic biota and human beings on our planet. The efficient monitoring of water resources is fundamental for effective management of water quality and aquatic ecosystems. The first stage in sustainable ecosystem management is the evaluation of the current status of target ecosystems. Traditionally, and even today, physico-chemical parameters have mainly been used to evaluate the quality of water resources. However, they have a large limit to grab the wholeness of water system, particularly in the sense of ecosystem health and integrity, for which ecological monitoring should be based on biological factors. Various approaches are applicable to ecosystem health assessment at different levels of the biological hierarchy, from genes to ecosystems. This Special Issue is designed to improve scientific understanding and strategies for sound aquatic ecosystem management and services for researchers, decision makers, and stakeholders.
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Ecosystem-Based Management for the Oceans provides a conceptual framework for students and professionals who want to understand and utilize this powerful approach. And it employs case studies that draw on the experiences of EBM practitioners to demonstrate how EBM principles can be applied to real-world problems. This pioneering book provides a crucial foundation for changing the way we understand and interact with our oceans and coasts through science, management, and policy.
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Selected studies focussing on various aspects of the evaluation of marine larval settlement on both natural and artificial surfaces, including those on pro-fouling and anti-fouling systems, have been collected for advancing our understanding of larvae-surface interactions. Biofouling is a large problem worldwide since it often causes severe damage to submerged structures, but it also leads to the formation of a well-structured community on natural hard substrata characterised by ecological succession and can be considered an important source of biodiversity. Therefore, the influence of a substratum's physico-chemical interactions on the settlement of various organisms of the macrofouling community represents an essential factor in choosing an appropriate artificial surface for application in a variety of coastal marine ecosystems. This reprint will certainly be greatly beneficial with respect to addressing the challenges of future innovative eco-engineering designs, yielding the best solutions for industrial biofouling protection and coastal ecosystem preservation.
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Selected studies focussing on various aspects of the evaluation of marine larval settlement on both natural and artificial surfaces, including those on pro-fouling and anti-fouling systems, have been collected for advancing our understanding of larvae-surface interactions. Biofouling is a large problem worldwide since it often causes severe damage to submerged structures, but it also leads to the formation of a well-structured community on natural hard substrata characterised by ecological succession and can be considered an important source of biodiversity. Therefore, the influence of a substratum's physico-chemical interactions on the settlement of various organisms of the macrofouling community represents an essential factor in choosing an appropriate artificial surface for application in a variety of coastal marine ecosystems. This reprint will certainly be greatly beneficial with respect to addressing the challenges of future innovative eco-engineering designs, yielding the best solutions for industrial biofouling protection and coastal ecosystem preservation.
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Selected studies focussing on various aspects of the evaluation of marine larval settlement on both natural and artificial surfaces, including those on pro-fouling and anti-fouling systems, have been collected for advancing our understanding of larvae-surface interactions. Biofouling is a large problem worldwide since it often causes severe damage to submerged structures, but it also leads to the formation of a well-structured community on natural hard substrata characterised by ecological succession and can be considered an important source of biodiversity. Therefore, the influence of a substratum's physico-chemical interactions on the settlement of various organisms of the macrofouling community represents an essential factor in choosing an appropriate artificial surface for application in a variety of coastal marine ecosystems. This reprint will certainly be greatly beneficial with respect to addressing the challenges of future innovative eco-engineering designs, yielding the best solutions for industrial biofouling protection and coastal ecosystem preservation.
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