Taylor & Francis Online » All Earth
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All Earth is an open-access journal published across Earth Science fields including multi-disciplinary studies and sound, reproducible research. The journal strives to understand the processes, systems, and challenges of our home planet, and its land, air, ice reservoirs, and water which sustain all life. Taylor & Francis Group partners with researchers, scholarly societies, universities, and..
Taylor & Francis Online » All Earth
1w ago
New land use planning for Tibetan villages in China based on traditional spatial patterns Published online: 8 Apr 2024 ..read more
Taylor & Francis Online » All Earth
1w ago
The geological factors responsible for the compartmentalisation and the heterogeneity phenomena: a case study from the lower Zubair reservoir in Bahrah Field, Kuwait Published online: 13 Apr 2024 ..read more
Taylor & Francis Online » All Earth
1M ago
Influence of the thermal environment of urban sidewalks under green shading from a human scale Published online: 18 Mar 2024 ..read more
Taylor & Francis Online » All Earth
1M ago
Fusion of PSO-SVM and ICEEMDAN for high stability GNSS-MR sea level height estimation Published online: 22 Mar 2024 ..read more
Taylor & Francis Online » All Earth
1M ago
Vulnerability and tsunami disaster on the west coast Banten province, Indonesia Published online: 11 Mar 2024 ..read more
Taylor & Francis Online » All Earth
1M ago
Spatio-temporal study on coupling coordination between urbanization and eco-resilience in the Erhai Lake Basin Published online: 26 Feb 2024 ..read more
Taylor & Francis Online » All Earth
2M ago
Impacts of climate and land use/cover changes on the sustainability of irrigation water in West Africa: a systematic review Published online: 31 Jan 2024 ..read more
Taylor & Francis Online » All Earth
3M ago
Movement and deformation of the Ordos basin and adjacent regions of North China Published online: 11 Dec 2023 ..read more
Taylor & Francis Online » All Earth
3M ago
Quantifying links between aerosol optical depth and rapid urbanisation induced land use changes, Hangzhou, China, 2000–2020 Published online: 13 Dec 2023 ..read more
Taylor & Francis Online » All Earth
3M ago
Gully-type debris flow susceptibility assessment based on a multi-channel multi-scale residual network fusing multi-source data: a case study of Nujiang Prefecture Published online: 18 Dec 2023 ..read more