Land (Sep 2023)

Bibliometric Analysis of Land Degradation Studies in Drylands Using Remote Sensing Data: A 40-Year Review

  • Diêgo P. Costa,
  • Stefanie M. Herrmann,
  • Rodrigo N. Vasconcelos,
  • Soltan Galano Duverger,
  • Washinton J. S. Franca Rocha,
  • Elaine C. B. Cambuí,
  • Jocimara S. B. Lobão,
  • Ellen M. R. Santos,
  • Jefferson Ferreira-Ferreira,
  • Mariana Oliveira,
  • Leonardo da Silva Barbosa,
  • André T. Cunha Lima,
  • Carlos A. D. Lentini

DOI
https://doi.org/10.3390/land12091721
Journal volume & issue
Vol. 12, no. 9
p. 1721

Abstract

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Drylands are vast and face threats from climate change and human activities. Traditional reviews cannot capture interdisciplinary knowledge, but bibliometric analysis provides valuable insights. Our study conducted bibliometric research of scientific production on climate change and land degradation in drylands using remote sensing. We examined 1527 Scopus-indexed publications to identify geographic and thematic hotspots, extracting leading authors, journals, and institutions. China leads in publications, followed by the US, Germany, and Australia. The US has the highest citation count. Collaboration networks involve the US, China, and European countries. There has been an exponential increase in remote sensing of land degradation in drylands (RSLDD) publications since 2011. Key journals include “International Journal of Remote Sensing” and “Remote Sensing of Environment”. The analysis highlights the growing interest in the field, driven by Australia, the US, and China. Key areas of study are vegetation dynamics and land use change. Future perspectives for this scientific field involve promoting collaboration and exploring emerging technologies for comprehensive land degradation and desertification research.

Keywords