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S McIntyre, S Lavorel (2007)
A conceptual model of land use effects on the structure and function of herbaceous vegetationAgric Ecosyst Environ, 119
SM Prober, KR Thiele (2005)
Restoring Australia’s temperate grasslands and grassy woodlands: integrating function and diversityEcol Manag Restor, 6
DW Hilbert, B Ostendorf (2001)
The utility of artificial neural networks for modelling the distribution of vegetation in past, present and future climatesEcol Model, 146
GM Lodge, RDB Whalley (1989)
Native and natural pastures of the northern slopes and tablelands of NSW: a review and annotated bibliography
TF Allnutt, S Ferrier, G Manion, GVN Powell (2008)
Quantifying biodiversity loss in Madagascar from a 50-year record of deforestationConserv Lett, 1
RJ Bradstock (2010)
A biogeographic model of fire regimes in Australia: current and future implicationsGlobal Ecol Biogeogr, 19
S Ferrier, M Drielsma, G Manion, G Watson (2002)
Extended statistical approaches to modelling spatial pattern in biodiversity in north-east New South Wales. II. Community-level modellingBiodivers Conserv, 11
W Thuiller, C Albert, MB Araújo (2008)
Predicting global change impacts on plant species’ distributions: future challengesPerspect Plant Ecol Evol Syst, 9
JN Price, JW Morgan (2008)
Woody plant encroachment reduces species richness of herb-rich woodlands in southern AustraliaAustral Ecol, 33
JW Morgan (2001)
Seedling recruitment patterns over 4 years in an Australian perennial grassland community with different fire historiesJ Ecol, 89
SM Prober, I Lunt (2009)
Restoration of Themeda australis swards suppresses soil nitrate and enhances ecological resistance to invasion by exotic annualsBiol Invasions, 11
H Elith, JR Heathwick (2009)
Species distribution models: ecological explanation and prediction across space and timeAnnu Rev Ecol Evol Syst, 40
S Ferrier, G Manion, J Elith, K Richardson (2007)
Using generalised dissimilarity modelling to analyse and predict patterns of beta-diversity in regional biodiversity assessmentDivers Distrib, 13
DW Hilbert, J Muyzenberg (1999)
Using an artificial neural network to characterise the relative suitability of environments for forest types in a complex tropical vegetation mosaicDivers Distrib, 6
S Ferrier, A Guisan (2006)
Spatial modelling of biodiversity at the community levelJ Appl Ecol, 43
G Martin (2003)
The role of small ground-foraging mammals in topsoil health and biodiversity: implications to management and restorationEcol Manag Restor, 4
J Dorrough, MP Scroggie (2008)
Plant responses to agricultural intensificationJ Appl Ecol, 45
WJ Bond, GF Midgley (2000)
A proposed CO2-controlled mechanism of woody plant invasion in grasslands and savannasGlob Change Biol, 6
SM Prober, I Lunt, KR Thiele (2002)
Determining reference conditions for management and restoration of temperate grassy woodlands: relationships among trees, topsoils and understorey flora in little-grazed remnantsAust J Bot, 50
PJ Watson, RA Bradstock, EC Morris (2009)
Fire frequency influences composition and structure of the shrub layer in an Australian subcoastal temperate grassy woodlandAustral Ecol, 34
SM Prober, G Wiehl (2012)
Relationships among soil fertility, native plant diversity and exotic plant abundance inform restoration of forb-rich eucalypt woodlandsDivers Distrib
ID Lunt (1990)
Species-area curves and growth-form spectra for some herb-rich woodlands in western Victoria, AustraliaAust J Ecol, 15
KJE Knox, PJ Clarke (2006)
Fire season and intensity affect shrub recruitment in temperate sclerophyllous woodlandsOecologia, 149
SM Prober, KR Thiele, I Lunt (2007)
Fire frequency regulates tussock grass composition, structure and resilience in endangered temperate woodlandsAustral Ecol, 32
SM Prober, FP Smith (2009)
Enhancing biodiversity persistence in intensively-used agricultural landscapes: a synthesis of 30 years of research in the Western Australian wheatbeltAgric Ecosyst Environ, 132
NE Heller, ES Zavaleta (2009)
Biodiversity management in the face of climate change: a review of 22 years of recommendationsBiol Conserv, 142
CJ Yates, J Elith, AM Latimer (2010)
Projecting climate change impacts on species distributions in megadiverse South African Cape and Southwest Australian floristic regions: opportunities and challengesAustral Ecol, 35
PA Vesk, JW Dorrough (2006)
Getting trees on farms the easy way? Lessons from a model of eucalypt regeneration on pasturesAust J Bot, 54
(2002)
Managing and conserving grassy woodlands
H Poorter, M Navas (2003)
Plant growth and competition at elevated CO2: on winners, losers and functional groupsNew Phytol, 157
B Walker, A Kinzig, J Langridge (1999)
Plant attribute diversity, resilience, and ecosystem function the nature and significance of dominant and minor speciesEcosystems, 2
S Hagerman, H Dowlatabadi, T Satterfield, T McDaniels (2010)
Expert views on biodiversity conservation in an era of climate changeGlobal Environ Chang, 20
L Smallbone, SM Prober, ID Lunt (2007)
Restoration treatments enhance early establishment of native forbs in a degraded grassy woodlandAust J Bot, 55
MJ Hovenden, AL Williams (2010)
The impacts of rising CO2 concentrations on Australian terrestrial species and ecosystemsAustral Ecol, 35
(2007)
Climate change in Australia: technical report 2007
SM Prober, AHD Brown (1994)
Conservation of the grassy white box woodlands: population genetics and fragmentation of Eucalyptus albensConserv Biol, 8
KR Thiele, SM Prober (2000)
Temperate eucalypt woodlands in Australia: biology, conservation, management and restoration
MJ Hovenden, PCD Newton, RA Carran (2008)
Warming prevents the elevated CO2-induced reduction in available soil nitrogen in a temperate, perennial grasslandGlob Change Biol, 14
SM Prober, KR Thiele (2004)
Floristic patterns across an east-west gradient in Grassy Box Woodlands of Central New South WalesCunninghamia, 8
C Parmesan (2006)
Ecological and evolutionary responses to recent climate changeAnnu Rev Ecol Evol Syst, 37
SM Prober, I Lunt, KR Thiele (2008)
Effects of fire frequency and mowing on a temperate, derived grassland soil in south-eastern AustraliaInt J Wildland Fire, 17
JA Calder, JB Kirkpatrick (2008)
Climate change and other factors influencing the decline of the Tasmanian cider gum (Eucalyptus gunii)Aust J Bot, 56
JW Williams, ST Jackson, JE Kutzbach (2007)
Projected distributions of novel and disappearing climates by 2100 ADProc Natl Acad Sci USA, 104
SM Prober (1996)
Conservation of the grassy white box woodlands: rangewide floristic variation and implications for reserve designAust J Bot, 44
A Fischlin, GF Midgley, J Price (2007)
Climate change 2006: impacts, adaptation and vulnerability contribution of working group II to the fourth assessment report of the Intergovernmental Panel on Climate Change
M Sankaran, NP Hanan, RJ Scholes (2005)
Determinants of woody cover in African savannasNature, 438
K Shea, P Chesson (2002)
Community ecology theory as a framework for biological invasionsTrends Ecol Evol, 17
ID Lunt (1997)
Germinable soil seed banks of anthropogenic native grasslands and grassy forest remnants in temperate south-eastern AustraliaPlant Ecol, 131
MJ Hovenden, KE Wills, JK Vander Schoor (2007)
Flowering, seed production and seed mass in a species-rich temperate grassland exposed to FACE and warmingAust J Bot, 55
JW Morgan (1998)
Patterns of invasion of an urban remnant of a species-rich grassland in southeastern Australia by non-native plant speciesJ Veg Sci, 9
JQ Radford, AF Bennett, GJ Cheers (2005)
Landscape-level thresholds of habitat cover for woodland-dependent birdsBiol Conserv, 124
DW Hilbert, B Ostendorf, M Hopkins (2001)
Sensitivity of tropical forests to climate change in the humid tropics of North QueenslandAustral Ecol, 26
PE Lentini, J Fischer, P Gibbons, D Lindenmayer, TG Martin (2011)
Australia’s Stock Route Network: 2. Representation of fertile landscapesEcol Manag Restor, 12
DJ Eldridge, D Freudenberger (2005)
Ecosystem wicks: woodland trees enhance water infiltration in a fragmented agricultural landscape in eastern AustraliaAustral Ecol, 30
ID Lunt, DJ Eldridge, JW Morgan, GB Witt (2007)
A framework to predict the effects of livestock grazing and grazing exclusion on conservation values in natural ecosystems in AustraliaAust J Bot, 55
DA Keith (2004)
Ocean shores to desert dunes. The native vegetation of New South Wales and the ACT
S McIntyre (2011)
Ecological and anthropomorphic factors permitting low-risk assisted colonization in temperate grassy woodlandsBiol Conserv, 144
SM Prober, KR Thiele, P Rundell (2012)
Climate adaptation in intact landscapes: a framework for managing change and resilience applied to the world’s largest temperate woodlandClim Chang, 110
JD Balling, JH Falk (1982)
Development of visual preference for natural environmentsEnviron Behav, 14
AL Williams, KE Wills, JK Janes (2007)
Warming and free air CO2 enrichment alter demographics in four co-occurring grassland speciesNew Phytol, 176
TG Martin, H Murphy, A Liedloff (2010)
Buffel grass and climate change: a framework for predicting species distribution when data is scarce
C Peppler-Lisbach, B Schröder (2004)
Predicting the species composition of Nardus stricta communities by logistic regression modellingJ Veg Sci, 15
(2007)
Australia’s Native Vegetation: a summary of Australia’s Major Vegetation Groups
Many studies predict effects of future climate scenarios on species distributions, but few predict impacts on landscapes or ecological communities, the scales most relevant to conservation management. We combined expert knowledge with community-level spatial modelling (using artificial neural networks, ANN, and generalised dissimilarity modelling, GDM) to inform climate adaptation management in widespread but highly threatened temperate grassy ecosystems (TGE) of Australian agricultural landscapes. GDM predicted high levels of ‘biotically-scaled environmental stress’ (scaled in terms of potential change in species composition of communities) for plants, reptiles and snails within the TGE under medium, and especially high, 2070 climate scenarios. Predicted stress was lower for birds, mammals and frogs, possibly owing to generally wider species distributions, but these models do not account for changing habitat characteristics. ANN predicted environments within the current TGE biome will become increasingly favourable for formations such as chenopod shrublands, Casuarina L. forests and Callitris Vent. forests by 2070, although classification error for eucalypt woodland in current climates was high. Expert knowledge and GDM suggest these predictions may be mediated by attributes such as environmental heterogeneity that confer resilience, but GDM confirms that widespread degradation has greatly compromised the capacity of TGE to adapt to change. Based on model predictions and expert knowledge we discuss five potential climate change outcomes for TGE: decreasing fire frequency, structural change, altered functional composition, exotic invasion, and cascading changes in ecological interactions. Although significant ecological change in TGE is likely, it is feasible to ameliorate non-climatic limits to adaptation and promote reassembly by native rather than exotic species. Current conservation efforts already target similar goals, and reinforcing and adjusting these approaches offer the highest priority, lowest risk climate adaptation options. We conclude that despite high uncertainties, combining community-level modelling with expert knowledge can guide climate adaptation management.
Biodiversity and Conservation – Springer Journals
Published: Mar 22, 2012
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