Add to ORKGIn this chapter, we examine both the factors affecting forest ecosystem productivity, and the ways that forest management can influence these. Much forestry training is related to the manner in which productivity can be measured and monitored, but here we assume that readers have this basic level of training, and it is not further elaborated
Forests contribute considerably to the terrestrial carbon sink. Although the speed of uptake is gene...
The IBP (International Biological Programme) Woodlands Data Set consists of contributions from 117 i...
There are pressing reasons for developing a better understanding of net primary production (NPP) in ...
Site productivity measures the primary productivity potential of forest ecosystems. It is characteri...
The growth of forests can be described as a function of the supply of resources, the proportion of r...
Plants acquire carbon through photosynthesis to sustain biomass production, autotrophic respiration ...
Plants acquire carbon through photosynthesis to sustain biomass production, autotrophic respiration ...
Comprehensive studies of forest ecology improve our understanding of how forest ecosystems function ...
Understanding the relationship between stand-level tree diversity and productivity has the potential...
Several of the current generation of computer models which simulate biomass production in forest eco...
Ecosystem-specific forest management requires comprehension of tree species productivity in managed ...
Informed decisions regarding forest and carbon resources require knowledge of the impacts of environ...
This article describes a new forest management module (FMM) that explicitly simulates forest stand g...
Forests occupy a large portion of the terrestrial land surface and account for almost half of all pr...
Scarce and uncertain data on woody debris decomposition rates are available for calibrating forest e...
Forests contribute considerably to the terrestrial carbon sink. Although the speed of uptake is gene...
The IBP (International Biological Programme) Woodlands Data Set consists of contributions from 117 i...
There are pressing reasons for developing a better understanding of net primary production (NPP) in ...
Site productivity measures the primary productivity potential of forest ecosystems. It is characteri...
The growth of forests can be described as a function of the supply of resources, the proportion of r...
Plants acquire carbon through photosynthesis to sustain biomass production, autotrophic respiration ...
Plants acquire carbon through photosynthesis to sustain biomass production, autotrophic respiration ...
Comprehensive studies of forest ecology improve our understanding of how forest ecosystems function ...
Understanding the relationship between stand-level tree diversity and productivity has the potential...
Several of the current generation of computer models which simulate biomass production in forest eco...
Ecosystem-specific forest management requires comprehension of tree species productivity in managed ...
Informed decisions regarding forest and carbon resources require knowledge of the impacts of environ...
This article describes a new forest management module (FMM) that explicitly simulates forest stand g...
Forests occupy a large portion of the terrestrial land surface and account for almost half of all pr...
Scarce and uncertain data on woody debris decomposition rates are available for calibrating forest e...
Forests contribute considerably to the terrestrial carbon sink. Although the speed of uptake is gene...
The IBP (International Biological Programme) Woodlands Data Set consists of contributions from 117 i...
There are pressing reasons for developing a better understanding of net primary production (NPP) in ...