Land management affects grass biomass in the Eucalyptus tetrodonta savannas of monsoonal Australia

We surveyed herbaceous biomass across the range of Eucalyptus tetrodonta savannas in north-western Australia. Sample sites (n = 211) were stratified within four broad geographical regions characterized by different mixes of land management regimes. Grasses dominated (87% mean) the herbaceous biomass...

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Published inAustral ecology Vol. 32; no. 4; pp. 446 - 452
Main Authors BOWMAN, DAVID M.J.S, FRANKLIN, DONALD C, PRICE, OWEN F, BROOK, BARRY W
Format Journal Article
LanguageEnglish
Published Melbourne, Australia Melbourne, Australia : Blackwell Publishing Asia 01.06.2007
Blackwell Publishing Asia
Blackwell Publishing Ltd
Subjects
Agricultural management
annual grass
Australia
Biomass
climate
Eucalyptus
Eucalyptus tetrodonta
Europeans
fires
Flammability
fuel load
fuel loading
Grasses
Grasslands
Gulf of Carpentaria
Land management
Land use
landscape fire
Savannahs
savannas
soil
Trees
tropical savanna
Australia
Gulf of Carpentaria
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Abstract We surveyed herbaceous biomass across the range of Eucalyptus tetrodonta savannas in north-western Australia. Sample sites (n = 211) were stratified within four broad geographical regions characterized by different mixes of land management regimes. Grasses dominated (87% mean) the herbaceous biomass. After controlling for climatic and edaphic gradients, herbaceous biomass was highest in the Greater Darwin region (2.2 t ha⁻¹) which is managed predominantly by Europeans, and least under semi-traditional Aboriginal management in Arnhem Land region (1.1 t ha⁻¹). In the drier Gulf of Carpentaria and Kimberley regions, where a mix of Aboriginal, conservation and pastoral land uses occurs, fuel loads were higher than in Arnhem Land region but still considerably lower than around Darwin. Sarga was recorded in all regions except the Gulf of Carpentaria and had the highest biomass in Darwin (0.88 t ha⁻¹) and lowest biomass in the Kimberley (0.54 t ha⁻¹). The proportion of herbaceous biomass made up of perennial grasses was least in Darwin (17%) and greatest in the Gulf (77%) regions. We suggest that climate, soils and land management account for differences between the drier pastoral regions of the Gulf of Carpentaria and the Kimberley and the wet Greater Darwin region relative to the Arnhem Land region. The high frequency, and larger spatial scale, of fires in the Greater Darwin region relative to the Arnhem Land region underpins the contrasting trends in total herbaceous biomass and abundance of flammable annual grasses.
AbstractList We surveyed herbaceous biomass across the range of Eucalyptus tetrodonta savannas in north-western Australia. Sample sites (n = 211) were stratified within four broad geographical regions characterized by different mixes of land management regimes. Grasses dominated (87% mean) the herbaceous biomass. After controlling for climatic and edaphic gradients, herbaceous biomass was highest in the Greater Darwin region (2.2 t ha⁻¹) which is managed predominantly by Europeans, and least under semi-traditional Aboriginal management in Arnhem Land region (1.1 t ha⁻¹). In the drier Gulf of Carpentaria and Kimberley regions, where a mix of Aboriginal, conservation and pastoral land uses occurs, fuel loads were higher than in Arnhem Land region but still considerably lower than around Darwin. Sarga was recorded in all regions except the Gulf of Carpentaria and had the highest biomass in Darwin (0.88 t ha⁻¹) and lowest biomass in the Kimberley (0.54 t ha⁻¹). The proportion of herbaceous biomass made up of perennial grasses was least in Darwin (17%) and greatest in the Gulf (77%) regions. We suggest that climate, soils and land management account for differences between the drier pastoral regions of the Gulf of Carpentaria and the Kimberley and the wet Greater Darwin region relative to the Arnhem Land region. The high frequency, and larger spatial scale, of fires in the Greater Darwin region relative to the Arnhem Land region underpins the contrasting trends in total herbaceous biomass and abundance of flammable annual grasses.
We surveyed herbaceous biomass across the range of Eucalyptus tetrodonta savannas in north‐western Australia. Sample sites (n = 211) were stratified within four broad geographical regions characterized by different mixes of land management regimes. Grasses dominated (87% mean) the herbaceous biomass. After controlling for climatic and edaphic gradients, herbaceous biomass was highest in the Greater Darwin region (2.2 t ha−1) which is managed predominantly by Europeans, and least under semi‐traditional Aboriginal management in Arnhem Land region (1.1 t ha−1). In the drier Gulf of Carpentaria and Kimberley regions, where a mix of Aboriginal, conservation and pastoral land uses occurs, fuel loads were higher than in Arnhem Land region but still considerably lower than around Darwin. Sarga was recorded in all regions except the Gulf of Carpentaria and had the highest biomass in Darwin (0.88 t ha−1) and lowest biomass in the Kimberley (0.54 t ha−1). The proportion of herbaceous biomass made up of perennial grasses was least in Darwin (17%) and greatest in the Gulf (77%) regions. We suggest that climate, soils and land management account for differences between the drier pastoral regions of the Gulf of Carpentaria and the Kimberley and the wet Greater Darwin region relative to the Arnhem Land region. The high frequency, and larger spatial scale, of fires in the Greater Darwin region relative to the Arnhem Land region underpins the contrasting trends in total herbaceous biomass and abundance of flammable annual grasses.
We surveyed herbaceous biomass across the range of Eucalyptus tetrodonta savannas in north-western Australia. Sample sites (n = 211) were stratified within four broad geographical regions characterized by different mixes of land management regimes. Grasses dominated (87% mean) the herbaceous biomass. After controlling for climatic and edaphic gradients, herbaceous biomass was highest in the Greater Darwin region (2.2 t ha-1) which is managed predominantly by Europeans, and least under semi-traditional Aboriginal management in Arnhem Land region (1.1 t ha-1). In the drier Gulf of Carpentaria and Kimberley regions, where a mix of Aboriginal, conservation and pastoral land uses occurs, fuel loads were higher than in Arnhem Land region but still considerably lower than around Darwin. Sarga was recorded in all regions except the Gulf of Carpentaria and had the highest biomass in Darwin (0.88 t ha-1) and lowest biomass in the Kimberley (0.54 t ha-1). The proportion of herbaceous biomass made up of perennial grasses was least in Darwin (17%) and greatest in the Gulf (77%) regions. We suggest that climate, soils and land management account for differences between the drier pastoral regions of the Gulf of Carpentaria and the Kimberley and the wet Greater Darwin region relative to the Arnhem Land region. The high frequency, and larger spatial scale, of fires in the Greater Darwin region relative to the Arnhem Land region underpins the contrasting trends in total herbaceous biomass and abundance of flammable annual grasses. [PUBLICATION ABSTRACT]
Abstract We surveyed herbaceous biomass across the range of Eucalyptus tetrodonta savannas in north-western Australia. Sample sites (n = 211) were stratified within four broad geographical regions characterized by different mixes of land management regimes. Grasses dominated (87% mean) the herbaceous biomass. After controlling for climatic and edaphic gradients, herbaceous biomass was highest in the Greater Darwin region (2.2 t ha super(-1)) which is managed predominantly by Europeans, and least under semi-traditional Aboriginal management in Arnhem Land region (1.1 t ha super(-1)). In the drier Gulf of Carpentaria and Kimberley regions, where a mix of Aboriginal, conservation and pastoral land uses occurs, fuel loads were higher than in Arnhem Land region but still considerably lower than around Darwin. Sarga was recorded in all regions except the Gulf of Carpentaria and had the highest biomass in Darwin (0.88 t ha super(-1)) and lowest biomass in the Kimberley (0.54 t ha super(-1)). The proportion of herbaceous biomass made up of perennial grasses was least in Darwin (17%) and greatest in the Gulf (77%) regions. We suggest that climate, soils and land management account for differences between the drier pastoral regions of the Gulf of Carpentaria and the Kimberley and the wet Greater Darwin region relative to the Arnhem Land region. The high frequency, and larger spatial scale, of fires in the Greater Darwin region relative to the Arnhem Land region underpins the contrasting trends in total herbaceous biomass and abundance of flammable annual grasses.
Abstract  We surveyed herbaceous biomass across the range of Eucalyptus tetrodonta savannas in north‐western Australia. Sample sites ( n  = 211) were stratified within four broad geographical regions characterized by different mixes of land management regimes. Grasses dominated (87% mean) the herbaceous biomass. After controlling for climatic and edaphic gradients, herbaceous biomass was highest in the Greater Darwin region (2.2 t ha −1 ) which is managed predominantly by Europeans, and least under semi‐traditional Aboriginal management in Arnhem Land region (1.1 t ha −1 ). In the drier Gulf of Carpentaria and Kimberley regions, where a mix of Aboriginal, conservation and pastoral land uses occurs, fuel loads were higher than in Arnhem Land region but still considerably lower than around Darwin. Sarga was recorded in all regions except the Gulf of Carpentaria and had the highest biomass in Darwin (0.88 t ha −1 ) and lowest biomass in the Kimberley (0.54 t ha −1 ). The proportion of herbaceous biomass made up of perennial grasses was least in Darwin (17%) and greatest in the Gulf (77%) regions. We suggest that climate, soils and land management account for differences between the drier pastoral regions of the Gulf of Carpentaria and the Kimberley and the wet Greater Darwin region relative to the Arnhem Land region. The high frequency, and larger spatial scale, of fires in the Greater Darwin region relative to the Arnhem Land region underpins the contrasting trends in total herbaceous biomass and abundance of flammable annual grasses.
Author PRICE, OWEN F.
BROOK, BARRY W.
FRANKLIN, DONALD C.
BOWMAN, DAVID M. J. S.
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Bowman D. M. J. S., Walsh A. & Prior L. D. (2004) Landscape analysis of Aboriginal fire management in Central Arnhem Land, north Australia. J. Biogeogr. 31, 207-23.
Kerr B., Schwilk D. W., Bergman A. & Feldman M. W. (1999) Rekindling an old flame: a haploid model for the evolution and impact of flammability in resprouting plants. Evol. Ecol. Res. 1, 807-33.
1991; 4
2004; 29
1988; 15
1998
1986a; 11
1983; 8
1997; 28
2003; 16
2003
2001; 28
1992
1999; 2
1986b; 18
2002
1999; 1
2003; 30
2003a; 73
2006; 234
1980; 17
2004; 54
1969; 9
2004; 52
2004; 31
2005; 165
2001
2002; 102
1963; 3
2003; 9
2003b; 12
2005; 30
2003; 25
1985
2002; 104
1960
1992; 23
1998; 35
Miles G. (e_1_2_6_23_1) 2003; 25
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Burnham K. P. (e_1_2_6_12_1) 2002
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Williams R. J. (e_1_2_6_37_1) 1999
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Fox I. D. (e_1_2_6_18_1) 2001
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Day J. C. (e_1_2_6_15_1) 1985
Kerr B. (e_1_2_6_21_1) 1999; 1
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Tothill J. C. (e_1_2_6_35_1) 1992
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Cook G. D. (e_1_2_6_13_1) 1998
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Snippet We surveyed herbaceous biomass across the range of Eucalyptus tetrodonta savannas in north-western Australia. Sample sites (n = 211) were stratified within...
We surveyed herbaceous biomass across the range of Eucalyptus tetrodonta savannas in north‐western Australia. Sample sites (n = 211) were stratified within...
Abstract  We surveyed herbaceous biomass across the range of Eucalyptus tetrodonta savannas in north‐western Australia. Sample sites ( n  = 211) were...
Abstract We surveyed herbaceous biomass across the range of Eucalyptus tetrodonta savannas in north-western Australia. Sample sites (n = 211) were stratified...
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SubjectTerms Agricultural management
annual grass
Australia
Biomass
climate
Eucalyptus
Eucalyptus tetrodonta
Europeans
fires
Flammability
fuel load
fuel loading
Grasses
Grasslands
Gulf of Carpentaria
Land management
Land use
landscape fire
Savannahs
savannas
soil
Trees
tropical savanna
Title Land management affects grass biomass in the Eucalyptus tetrodonta savannas of monsoonal Australia
URI https://api.istex.fr/ark:/67375/WNG-X3B9B554-H/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.1442-9993.2007.01713.x
https://www.proquest.com/docview/199298644
https://www.proquest.com/docview/20726381
https://www.proquest.com/docview/47337567
Volume 32
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