Michael L. Roderick
Michael L. Roderick
Verified email at anu.edu.au
TitleCited byYear
Little change in global drought over the past 60 years
J Sheffield, EF Wood, ML Roderick
Nature 491 (7424), 435-438, 2012
10832012
Challenging Theophrastus: a common core list of plant traits for functional ecology
E Weiher, A Van Der Werf, K Thompson, M Roderick, E Garnier, ...
Journal of vegetation science 10 (5), 609-620, 1999
10071999
The cause of decreased pan evaporation over the past 50 years
ML Roderick, GD Farquhar
science 298 (5597), 1410-1411, 2002
9352002
Global review and synthesis of trends in observed terrestrial near-surface wind speeds: Implications for evaporation
TR McVicar, ML Roderick, RJ Donohue, LT Li, TG Van Niel, A Thomas, ...
Journal of Hydrology 416, 182-205, 2012
6922012
Moving beyond heterogeneity and process complexity: A new vision for watershed hydrology
JJ McDonnell, M Sivapalan, K Vaché, S Dunn, G Grant, R Haggerty, ...
Water Resources Research 43 (7), 2007
6032007
On the attribution of changing pan evaporation
ML Roderick, LD Rotstayn, GD Farquhar, MT Hobbins
Geophysical research letters 34 (17), 2007
5092007
On the direct effect of clouds and atmospheric particles on the productivity and structure of vegetation
ML Roderick, GD Farquhar, SL Berry, IR Noble
Oecologia 129 (1), 21-30, 2001
4612001
Changes in Australian pan evaporation from 1970 to 2002
ML Roderick, GD Farquhar
International Journal of Climatology: A Journal of the Royal Meteorological …, 2004
4302004
On the importance of including vegetation dynamics in Budyko's hydrological model
TR Donohue, R.J. Roderick, M.L. McVicar
Hydrology and Earth System Sciences 11, 983-995, 2007
417*2007
Wind speed climatology and trends for Australia, 1975–2006: Capturing the stilling phenomenon and comparison with near‐surface reanalysis output
TR McVicar, TG Van Niel, LT Li, ML Roderick, DP Rayner, L Ricciardulli, ...
Geophysical Research Letters 35 (20), 2008
3752008
Assessing the ability of potential evaporation formulations to capture the dynamics in evaporative demand within a changing climate
RJ Donohue, TR McVicar, ML Roderick
Journal of Hydrology 386 (1-4), 186-197, 2010
3522010
Impact of CO2 fertilization on maximum foliage cover across the globe's warm, arid environments
RJ Donohue, ML Roderick, TR McVicar, GD Farquhar
Geophysical Research Letters 40 (12), 3031-3035, 2013
3022013
A simple framework for relating variations in runoff to variations in climatic conditions and catchment properties
ML Roderick, GD Farquhar
Water Resources Research 47 (12), 2011
2672011
Climate‐related trends in Australian vegetation cover as inferred from satellite observations, 1981–2006
RJ Donohue, TIMR McVICAR, ML Roderick
Global Change Biology 15 (4), 1025-1039, 2009
2592009
Pan evaporation trends and the terrestrial water balance. II. Energy balance and interpretation
ML Roderick, MT Hobbins, GD Farquhar
Geography Compass 3 (2), 761-780, 2009
2362009
Pan evaporation trends and the terrestrial water balance I. Principles and observations.
ML Roderick, MT Hobbins, GD Farquhar
Geography Compass 3 (2), 746-760, 2009
236*2009
Pinatubo, diffuse light, and the carbon cycle
GD Farquhar, ML Roderick
Science 299 (5615), 1997-1998, 2003
1972003
Changes in New Zealand pan evaporation since the 1970s
ML Roderick, GD Farquhar
International Journal of Climatology: A Journal of the Royal Meteorological …, 2005
1832005
Roots, storms and soil pores: Incorporating key ecohydrological processes into Budyko’s hydrological model
RJ Donohue, ML Roderick, TR McVicar
Journal of Hydrology 436, 35-50, 2012
1772012
The use of time-integrated NOAA NDVI data and rainfall to assess landscape degradation in the arid shrubland of Western Australia
AMR Holm, SW Cridland, ML Roderick
Remote Sensing of Environment 85 (2), 145-158, 2003
1762003
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Articles 1–20