African Tropical Rainforest Observation Network

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About AfriTRON

The African Tropical Rainforest Observation Network (AfriTRON), is an international network of researchers engaged in on-the-ground long-term monitoring of tropical forests.

 

Latest News

Manuals

The AfriTRON consortium follows internationally standardised methodologies and protocols established by sister network RAINFOR:

  • RAINFOR ethical, data and publication policy
  • Fieldwork manuals
  • Monitoring carbon processes in permanent plots
  • Supporting sustainable use of forest resources: Integrated assessment of forest biodiversity and community use
Trees

Publications

Welcome to the AfriTRON Website

The African Tropical Rainforest Observation Network (AfriTRON), is an international network of researchers engaged in on-the-ground long-term monitoring of tropical forests.

The network pools expertise and data to help answer larger-scale and longer-term questions relating to the ecology and biogeochemistry of African tropical forests. In particular AfriTRON aims to address questions of contemporary importance such as the possible impacts of regional and global environmental changes on tropical forests, and the impacts of changes in the forests themselves on the regional and global environment. This is done through partnerships between scientists across the world, students and local villages who host our field-trips.

There is widespread evidence that the global environment has changed, for example, air temperatures have increased, as have atmospheric carbon dioxide concentrations, due to fossil fuel use and land-use change. Thus forests may be expected to be changing, with potentially important implications. Firstly, as tropical forests support one-half to two-thirds of the world's biodiversity, any changes could have serious implications for biodiversity conservation. Secondly, the trees in tropical forests process large quantities of carbon, via photosynthesis and respiration, and are major stores of carbon. Thus, any changes in forests’ processing or storage of carbon would have serious implications for the rate and magnitude of future climate change. The primary aim of AfriTRON is to provide robust conclusions on these important questions based on large on-the-ground datasets. 

sampling with a new ground based LiDAR machine, Lope, Gabon (photo: Aida Cuni Sanchez 2013) fluted tree, Gabon 2013 (photo: Aida Cuní Sanchez) Field team back at camp, Northern Kenya (photo: Aida Cuni Sanchez 2015) .