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Variability in carbon exchange and light utilization among boreal forest stands: Implications for remote sensing of net primary production
Scott J. Goetz
, Stephen D. Prince
Research output
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Contribution to journal
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Article
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peer-review
1
Scopus citations
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Dive into the research topics of 'Variability in carbon exchange and light utilization among boreal forest stands: Implications for remote sensing of net primary production'. Together they form a unique fingerprint.
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Agriculture & Biology
assimilation (physiology)
35%
boreal forests
91%
carbon
50%
carbon dioxide fixation
21%
forest stands
87%
gross primary productivity
29%
net primary productivity
100%
photosynthetically active radiation
44%
Picea mariana
24%
Populus tremuloides
24%
remote sensing
89%
Earth & Environmental Sciences
assimilation
68%
boreal forest
77%
carbon
43%
cost
26%
light use efficiency
35%
moisture
19%
net primary production
92%
photosynthetically active radiation
89%
primary production
23%
remote sensing
49%
respiration
68%