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An actor-centered, scalable land system typology for addressing biodiversity loss in the world’s tropical dry woodlands

Research output: Contribution to Journal/MagazineJournal articlepeer-review

  • Marie Pratzer
  • Patrick Meyfroidt
  • Marina Antongiovanni
  • Roxana Aragon
  • Stasiek Czaplicki Cabezas
  • Cristina A. de la Vega-Leinert
  • Shalini Dhyani
  • Jean-Christophe Diepart
  • Pedro David Fernandez
  • Stephen T. Garnett
  • Gregorio I. Gavier Pizarro
  • Tamanna Kalam
  • Pradeep Koulgi
  • Yann le Polain de Waroux
  • Sofia Marinaro
  • Matias Mastrangelo
  • Daniel Mueller
  • Robert Mueller
  • Ranjini Murali
  • Sofía Nanni
  • Mauricio Nuñez-Regueiro
  • David A. Prieto-Torres
  • Jayshree Ratnam
  • Chintala Sudhakar Reddy
  • Natasha Ribeiro
  • Achim Röder
  • Alfredo Romero-Muñoz
  • Partha Sarathi Roy
  • Philippe Rufin
  • Mahesh Sankaran
  • Ricardo Torres
  • Srinivas Vaidyanathan
  • Maria Vallejos
  • Malika Virah-Sawmy
  • Tobias Kuemmerle
Article number102849
<mark>Journal publication date</mark>31/05/2024
<mark>Journal</mark>Global Environmental Change
Publication StatusPublished
Early online date1/05/24
<mark>Original language</mark>English


Land use is a key driver of the ongoing biodiversity crisis and therefore also a major opportunity for its mitigation. However, appropriately considering the diversity of land-use actors and activities in conservation assessments and planning is challenging. As a result, top-down conservation policy and planning are often criticized for a lack of contextual nuance widely acknowledged to be required for effective and just conservation action. To address these challenges, we have developed a conceptually consistent, scalable land system typology and demonstrated its usefulness for the world's tropical dry woodlands. Our typology identifies key land-use actors and activities that represent typical threats to biodiversity and opportunities for conservation action. We identified land systems in a hierarchical way, with a global level allowing for broad-scale planning and comparative work. Nested within it, a regionalized level provides social-ecological specificity and context. We showcase this regionalization for five hotspots of land-use change and biodiversity loss in dry woodlands in Argentina, Bolivia, Mozambique, India, and Cambodia. Unlike other approaches to present land use, our typology accounts for the complexity of overlapping land uses. This allows, for example, assessment of how conservation measures conflict with other land uses, understanding of the social-ecological co-benefits and trade-offs of area-based conservation, mapping of threats, or targeting area-based and actor-based conservation measures. Moreover, our framework enables cross-regional learning by revealing both commonalities and social-ecological differences, as we demonstrate here for the world's tropical dry woodlands. By bridging the gap between global, top-down, and regional, bottom-up initiatives, our framework enables more contextually appropriate sustainability planning across scales and more targeted and social-ecologically nuanced interventions.