Landscape, Water, Ground, and Society Sustainability under Global Change Scenarios

doi:10.3390/books978-3-7258-0925-7

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Landscape, Water, Ground, and Society Sustainability under Global Change Scenarios

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April 2024

252 pages

ISBN978-3-7258-0926-4 (Hardback)
ISBN978-3-7258-0925-7 (PDF)

https://doi.org/10.3390/books978-3-7258-0925-7

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This book is a reprint of the Special Issue Landscape, Water, Ground, and Society Sustainability under Global Change Scenarios that was published in

Business & Economics

Environmental & Earth Sciences

Social Sciences, Arts & Humanities

Summary

In this Special Issue, we collected manuscripts focusing on sustainability; study cases and opinion papers about initiatives, definitions, policies, programs, and ideas; traditional knowledge and new applications; criticism and new proposals; natural resource uses, conflicts, and growth problems; and issues related to global change (changes in, for example, climate, uses, needs, soil occupation, society, public opinion, species composition, and ecosystems). These manuscripts have a particular focus on landscape, water, ground, and societal characteristics in global change scenarios.

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Hardback

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Keywords

clustering evolution; natural clustering; social clustering; spatiotemporal clustering; scale development; stochastic analysis; wastewater treatment plants; emerging pollutants water contamination; hazard quotient; carbamazepine; ibuprofen; furosemide; enalapril; liquid chromatography; triple quadrupole mass spectrometry; wild food plants; herbal teas; ethnobotany; LEK; Afghans; refugees; Pakistan; cultural adaptation; biodiversity conservation; biological spectrum; phenology; leaf spectra; IUCN; native plants; Himalayas; precipitation; innovative polygon trend analysis; arithmetic mean; standard deviation; Wadi Sly; Algeria; upstream and downstream countries; ecological environment; differential game; transnational rivers; water management; sustainability; global warming; humanitarian assistance; macrologistics; humanitarian logistics; Sahel; social sustainability; climate model verification; IPCC past projections; West Africa; precipitation; temperature; drought; habitat degradation; refugees; endemic fish; isolation; risk management; n/a