Advantages of diffuse radiation for terrestrial ecosystem productivity

Lianhong Gu, Dennis Baldocchi, Shashi B. Verma, T. A. Black, Timo Vesala, Eva M. Falge, Pete R. Dowty

Research output: Contribution to journalArticlepeer-review

612 Scopus citations

Abstract

Clouds and aerosols alter the proportion of diffuse radiation in global solar radiation reaching the Earth's surface. It is known that diffuse and direct beam radiation differ in the way they transfer through plant canopies and effect the summation of nonlinear processes like photosynthesis differently than what would occur at the leaf scale. We compared the relative efficiencies of canopy photosynthesis to diffuse and direct photosynthetically active radiation (PAR) for a Scots pine forest, an aspen forest, a mixed deciduous forest, a tallgrass prairie and a winter wheat crop. The comparison was based on the seasonal patterns of the parameters that define the canopy photosynthetic responses to diffuse PAR and those that define the responses to direct PAR. These parameters were inferred from half-hourly tower CO2 flux measurements. We found that: (1) diffuse radiation results in higher light use efficiencies by plant canopies; (2) diffuse radiation has much less tendency to cause canopy photosynthetic daturation; (3) the advantages of diffuse radiation over direct radiation increase with radiation level; (4) temperature as well as vapor pressure deficit can cause different responses in diffuse and direct canopy photosynthesis, indicating that their impacts on terrestrial ecosystem carbon assimilation may depend on radiation regimes and thus sky conditions. These findings call for different treatments of diffuse and direct radiation in models of global primary production, and studies of the roles of clouds and aerosols in global carbon cycle.

Original languageEnglish
Pages (from-to)2-1 - 2-21
JournalJournal of Geophysical Research: Biogeosciences
Volume107
Issue number5-6
DOIs
StatePublished - Mar 27 2002
Externally publishedYes

Keywords

  • Aerosols
  • Clouds
  • Diffuse and direct PAR
  • Global carbon cycle
  • Terrestrial ecosystem productivity

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