FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2029972554> ?p ?o ?g. }

• W2029972554 endingPage "2767" @default.
• W2029972554 startingPage "2753" @default.
• W2029972554 abstract "Abstract One of the fundamental tenets of the sustainable development concept is the maintenance of a homeostatic equilibrium within the ecosystem. Overexploitation of the ecosystem or degradation of its biotic structure alters ecosystem processes to the point whereby the ability of the ecosystem to produce desired resources is seriously diminished. Water is the medium for all ecological processes, from molecular to global scale. The physical quantification of ecological processes in terms of energy and molecular dimension is fundamental for scientific investigation and sound ecosystem management. As a consequence, the water mesocycle within the basin and connected processes (i.e. those which can be measured) should be considered as the basic unit for the analysis of energy–water–biota interactions. The degradation of freshwater ecosystems can be characterized in terms of two dimensions: first, pollution, which can be reduced to a significant extent by technologies; and second, the degradation of established water and nutrient cycles within the ecosystem as a whole. This second dimension is much more complex. A new approach for solving both of these problems is the application of ecohydrology and phytotechnology. Our progressive understanding of the range of anthropogenic degradation of hydrological, biogeochemical and biological processes within water basins indicates the need to control and regulate nutrients and water dynamics by increasing plant biomass and diversity. Thus, phytotechnologies, applied within the context of ecohydrological principles, can provide an approach for increasing ecosystem carrying capacity and enhancing the resilience and functionality of ecosystems at the basin scale. The application of these interdisciplinary, holistic approaches, based on an understanding of the role of plant biomass in the control of water and biogeochemical cycles (i.e. ‘green feedback’), can lead to an improvement of water resources quality, as well as the enhancement of system biodiversity, agricultural production, and bioenergy generation, with the potential for increased employment opportunities. Copyright © 2003 John Wiley & Sons, Ltd." @default.
• W2029972554 created "2016-06-24" @default.
• W2029972554 creator A5040600121 @default.
• W2029972554 creator A5068208378 @default.
• W2029972554 creator A5071568569 @default.
• W2029972554 date "2003-09-29" @default.
• W2029972554 modified "2023-09-26" @default.
• W2029972554 title "Energy, water, plant interactions: ‘green feedback’ as a mechanism for environmental management and control through the application of phytotechnology and ecohydrology" @default.
• W2029972554 cites W120843447 @default.
• W2029972554 cites W1508187264 @default.
• W2029972554 cites W1947283864 @default.
• W2029972554 cites W1980846105 @default.
• W2029972554 cites W1996762101 @default.
• W2029972554 cites W2010232439 @default.
• W2029972554 cites W2030570383 @default.
• W2029972554 cites W2047155352 @default.
• W2029972554 cites W2052131805 @default.
• W2029972554 cites W2064060662 @default.
• W2029972554 cites W2087805309 @default.
• W2029972554 cites W2100728844 @default.
• W2029972554 cites W2331083266 @default.
• W2029972554 cites W2494057023 @default.
• W2029972554 doi "https://doi.org/10.1002/hyp.1432" @default.
• W2029972554 hasPublicationYear "2003" @default.
• W2029972554 type Work @default.
• W2029972554 sameAs 2029972554 @default.
• W2029972554 citedByCount "33" @default.
• W2029972554 countsByYear W20299725542012 @default.
• W2029972554 countsByYear W20299725542013 @default.
• W2029972554 countsByYear W20299725542014 @default.
• W2029972554 countsByYear W20299725542015 @default.
• W2029972554 countsByYear W20299725542016 @default.
• W2029972554 countsByYear W20299725542017 @default.
• W2029972554 countsByYear W20299725542019 @default.
• W2029972554 countsByYear W20299725542020 @default.
• W2029972554 countsByYear W20299725542021 @default.
• W2029972554 countsByYear W20299725542022 @default.
• W2029972554 crossrefType "journal-article" @default.
• W2029972554 hasAuthorship W2029972554A5040600121 @default.
• W2029972554 hasAuthorship W2029972554A5068208378 @default.
• W2029972554 hasAuthorship W2029972554A5071568569 @default.
• W2029972554 hasConcept C107826830 @default.
• W2029972554 hasConcept C110872660 @default.
• W2029972554 hasConcept C18903297 @default.
• W2029972554 hasConcept C39432304 @default.
• W2029972554 hasConcept C69514717 @default.
• W2029972554 hasConcept C86803240 @default.
• W2029972554 hasConceptScore W2029972554C107826830 @default.
• W2029972554 hasConceptScore W2029972554C110872660 @default.
• W2029972554 hasConceptScore W2029972554C18903297 @default.
• W2029972554 hasConceptScore W2029972554C39432304 @default.
• W2029972554 hasConceptScore W2029972554C69514717 @default.
• W2029972554 hasConceptScore W2029972554C86803240 @default.
• W2029972554 hasIssue "14" @default.
• W2029972554 hasLocation W20299725541 @default.
• W2029972554 hasOpenAccess W2029972554 @default.
• W2029972554 hasPrimaryLocation W20299725541 @default.
• W2029972554 hasRelatedWork W2032233421 @default.
• W2029972554 hasRelatedWork W2074272997 @default.
• W2029972554 hasRelatedWork W2167271895 @default.
• W2029972554 hasRelatedWork W2951781211 @default.
• W2029972554 hasRelatedWork W2981639059 @default.
• W2029972554 hasRelatedWork W3048175133 @default.
• W2029972554 hasRelatedWork W4310768610 @default.
• W2029972554 hasRelatedWork W4317423242 @default.
• W2029972554 hasRelatedWork W4377691431 @default.
• W2029972554 hasRelatedWork W953379352 @default.
• W2029972554 hasVolume "17" @default.
• W2029972554 isParatext "false" @default.
• W2029972554 isRetracted "false" @default.
• W2029972554 magId "2029972554" @default.
• W2029972554 workType "article" @default.