Abstract
We review the literature that led to clarifying the role of tropical forests in the global carbon cycle from a time when they were considered sources of atmospheric carbon to the time when they were found to be atmospheric carbon sinks. This literature originates from work conducted by US Forest Service scientists in Puerto Rico and their collaborators. It involves the classification of forests by life zones, estimation of carbon density by forest type, assessing carbon storage changes with ecological succession and land use/land cover type, describing the details of the carbon cycle of forests at stand and landscape levels, assessing global land cover by forest type and the complexity of land use change in tropical regions, and assessing the ecological fluxes and storages that contribute to net carbon accumulation in tropical forests. We also review recent work that couples field inventory data, remote sensing technology such as LIDAR, and GIS analysis in order to more accurately determine the role of tropical forests in the global carbon cycle and point out new avenues of carbon research that address the responses of tropical forests to environmental change.
Highlights
When Leslie Holdridge became the first scientist at the Tropical Forest Experiment Station of the USDA Forest Service in Río Piedras, Puerto Rico in 1939, no one knew that the International
We argued that the types of tropical forests, and their biomass density, were more diverse than the two entries used by those authors
We found that the to mean annual precipitation (T/P) ratio correlated with forest and soil carbon storage (Figure 2)
Summary
When Leslie Holdridge became the first scientist at the Tropical Forest Experiment Station of the USDA Forest Service in Río Piedras, Puerto Rico in 1939, no one knew that the International.
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