Integrated Multidisciplinary Approaches to Understanding

Human–Environment Interactions and Climate Change Impacts

Integrated Multidisciplinary Approaches to Understanding
Details
Research Project Number:
RP-NASS-2026-007
Academic Lead:
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Co-academic leads:
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Deadline:
Research objectives:

This research aims to advance integrated, multidisciplinary understanding of the complex relationships between human activities, natural resources, environments, and climate change. By synthesizing atmospheric, hydrological, geological, geochemical, geophysical, and remote sensing perspectives, the study seeks to identify key drivers of environmental change and provide scientifically robust insights for policy and management. The significance lies in bridging disciplinary boundaries to produce holistic assessments that can guide sustainable development, enhance climate resilience, and inform effective environmental resource management in the face of increasing anthropogenic pressures and climatic uncertainties.

Purpose:

  • To elucidate mechanisms of human–environment interactions across multiple Earth systems.
  • To develop innovative methodologies combining field observations, geospatial analysis, and modeling.
  • To deliver actionable knowledge for mitigating environmental risks and fostering sustainable development pathways.

Subtopics:

  1. Assessing Atmospheric–Hydrological Coupling in WaterScarce Regions Under Changing Climate Regimes

Focuses on interactions between atmospheric processes and water resources, examining impacts of climate variability on hydrological availability and quality.

  1. Geochemical and Geophysical Signatures of Anthropogenic Activities in Vulnerable Geomorphic Systems

Investigates geochemical and geophysical indicators to trace human influence on landforms, soils, and subsurface structures, linking them to environmental degradation risks.

  1. Remote Sensing and Sustainable Resource Management for ClimateResilient Development

Combines remote sensing data with environmental resource management strategies to support sustainable development and adaptive responses to climate change.

Keywords:

  • Multidisciplinary environmental research
  • Human–environment interaction
  • Climate change impacts
  • Atmospheric science
  • Water environment
  • Hydrological resources
  • Geomorphology
  • Edaphology
  • Geochemistry
  • Geophysics
  • Geodesy
  • Remote sensing
  • Sustainable development
  • Environmental resource management
  • Environmental engineering

Expected Outcomes:

Academic: Peer-reviewed articles, collected papers, or monograph

Journal of Environmental & Earth Sciences (JEES)

ISSN:
2661-3190 (Online)
Frequency:
Monthly
Indexing: Engineering Village-GEOBASE, Chemical Abstracts Services (CAS), Google Scholar, CNKI Scholar, CQVIP, Baidu Scholar

Publisher: Bilingual Publishing Group

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Sustainable Marine Structures (SMS)

SMS Journal Cover
ISSN:
2661-3158 (Online)
Frequency:
Quarterly (March, June, September, December)
Indexing: Scopus; ASFA; ProQuest; Google Scholar; CNKI Scholar; Norwegian register level; EBSCO; EuroPub; Harvard Library; WorldCat

Publisher: Nan Yang Academy of Sciences

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Note:
-  Manuscripts under this research project are intended for publication in the above journals.
-  Academic Lead, Co-AL, and potential contributors may choose the appropriate journal for submission according to the needs. When submitting, please select “Research Project of NASS”​ in the OJS (Open Journal Systems) backend.