Carbon dioxide and the uneasy interactions of trees and savannah grasses

Carbon dioxide and the uneasy interactions of trees and savannah grasses

Savannahs are a mixture of trees and grasses often occurring as alternate states to closed forests. Savannah fires are frequent where grass productivity is high in the wet season. Fires help maintain grassy vegetation where the climate is suitable for woodlands or forests. Saplings in savannahs are...

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Published in:Philosophical transactions of the Royal Society of London. Series B. Biological sciences Vol. 367; no. 1588; pp. 601 - 612
Main Authors: Bond, William J., Midgley, Guy F.
Format: Journal Article
Language:English
Published: England The Royal Society 19-02-2012
Subjects:
Africa
Atmospherics
Bush Encroachment
Carbon Cycle
Carbon Dioxide - chemistry
Climate Change
Ecosystem
Fires
Forest ecosystems
Forest fires
Forest trees
Grass
Grasses
Grassland fires
Herbivory
Plant Roots - chemistry
Plant Roots - growth & development
Plants
Poaceae - chemistry
Poaceae - growth & development
Review
Savannas
Seasons
Time Factors
Trees
Trees - chemistry
Trees - growth & development
Tropical forests
Vegetation Fires
Woody Thickening
Africa
USA, Georgia, Savannah
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Summary:Savannahs are a mixture of trees and grasses often occurring as alternate states to closed forests. Savannah fires are frequent where grass productivity is high in the wet season. Fires help maintain grassy vegetation where the climate is suitable for woodlands or forests. Saplings in savannahs are particularly vulnerable to topkill of above-ground biomass. Larger trees are more fire-resistant and suffer little damage when burnt. Recruitment to large mature tree size classes depends on sapling growth rates to fire-resistant sizes and the time between fires. Carbon dioxide (CO 2 ) can influence the growth rate of juvenile plants, thereby affecting tree recruitment and the conversion of open savannahs to woodlands. Trees have increased in many savannahs throughout the world, whereas some humid savannahs are being invaded by forests. CO 2 has been implicated in this woody increase but attribution to global drivers has been controversial where changes in grazing and fire have also occurred. We report on diverse tests of the magnitude of CO 2 effects on both ancient and modern ecosystems with a particular focus on African savannahs. Large increases in trees of mesic savannahs in the region cannot easily be explained by land use change but are consistent with experimental and simulation studies of CO 2 effects. Changes in arid savannahs seem less obviously linked to CO 2 effects and may be driven more by overgrazing. Large-scale shifts in the tree—grass balance in the past and the future need to be better understood. They not only have major impacts on the ecology of grassy ecosystems but also on Earth—atmosphere linkages and the global carbon cycle in ways that are still being discovered.
Bibliography:Theme Issue 'Atmospheric CO2 and the evolution of photosynthetic eukaryotes: from enzymes to ecosystems' compiled and edited by David J. Beerling
ObjectType-Article-2
SourceType-Scholarly Journals-1
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One contribution of 12 to a Theme Issue ‘Atmospheric CO2 and the evolution of photosynthetic eukaryotes: from enzymes to ecosystems’.
ISSN:0962-8436
1471-2970
DOI:10.1098/rstb.2011.0182