|Tree mortality from drought, insects, and their interactions in a changing climate|
WRL Anderegg, JA Hicke, RA Fisher, CD Allen, J Aukema, B Bentz, ...
New Phytologist 208 (3), 674-683, 2015
|A multi-species synthesis of physiological mechanisms in drought-induced tree mortality|
HD Adams, MJB Zeppel, WRL Anderegg, H Hartmann, SM Landhäusser, ...
Nature ecology & evolution 1 (9), 1285-1291, 2017
|A general predictive model for estimating monthly ecosystem evapotranspiration|
G Sun, K Alstad, J Chen, S Chen, CR Ford, G Lin, C Liu, N Lu, ...
Ecohydrology 4 (2), 245-255, 2011
|Impacts of extreme precipitation and seasonal changes in precipitation on plants|
MJ Zeppel, JV Wilks, JD Lewis
Copernicus Publications, 2014
|Groundwater‐dependent ecosystems in Australia: It's more than just water for rivers|
BBR Murray, MJB Zeppel, GC Hose, D Eamus
Ecological Management & Restoration 4 (2), 110-113, 2003
|Forest productivity under climate change: a checklist for evaluating model studies|
BE Medlyn, RA Duursma, MJB Zeppel
Wiley Interdisciplinary Reviews: Climate Change 2 (3), 332-355, 2011
|Nocturnal stomatal conductance responses to rising [CO2], temperature and drought|
MJB Zeppel, JD Lewis, B Chaszar, RA Smith, BE Medlyn, TE Huxman, ...
New Phytologist 193 (4), 929-938, 2012
|Assessment of the MODIS LAI product for Australian ecosystems|
MJ Hill, U Senarath, A Lee, M Zeppel, JM Nightingale, RDJ Williams, ...
Remote Sensing of Environment 101 (4), 495-518, 2006
|Seasonal responses of xylem sap velocity to VPD and solar radiation during drought in a stand of native trees in temperate Australia|
MJB Zeppel, BR Murray, C Barton, D Eamus
Functional Plant Biology 31 (5), 461-470, 2004
|Research frontiers in drought‐induced tree mortality: crossing scales and disciplines|
H Hartmann, HD Adams, WRL Anderegg, S Jansen, MJB Zeppel
New Phytologist 205 (3), 965-969, 2015
|Rates of nocturnal transpiration in two evergreen temperate woodland species with differing water-use strategies|
M Zeppel, D Tissue, D Taylor, C Macinnis-Ng, D Eamus
Tree Physiology 30 (8), 988-1000, 2010
|Feature: Improving our knowledge of drought‐induced forest mortality through experiments, observations, and modeling|
NG McDowell, MG Ryan, MJB Zeppel, DT Tissue
New Phytologist 200 (2), 289-293, 2013
|Responses of two semiarid conifer tree species to reduced precipitation and warming reveal new perspectives for stomatal regulation|
N Garcia‐Forner, HD Adams, S Sevanto, AD Collins, LT Dickman, ...
Plant, cell & environment 39 (1), 38-49, 2016
|The response of sap flow to pulses of rain in a temperate Australian woodland|
M Zeppel, CMO Macinnis-Ng, CR Ford, D Eamus
Plant and Soil 305 (1-2), 121-130, 2008
|Drought and resprouting plants|
MJB Zeppel, SP Harrison, HD Adams, DI Kelley, G Li, DT Tissue, ...
New Phytologist 206 (2), 583-589, 2015
|An automated procedure for estimating the leaf area index (LAI) of woodland ecosystems using digital imagery, MATLAB programming and its application to an examination of the …|
S Fuentes, AR Palmer, D Taylor, M Zeppel, R Whitley, D Eamus
Functional Plant Biology 35 (10), 1070-1079, 2008
|Comparing the Penman–Monteith equation and a modified Jarvis–Stewart model with an artificial neural network to estimate stand-scale transpiration and canopy conductance|
R Whitley, B Medlyn, M Zeppel, C Macinnis-Ng, D Eamus
Journal of Hydrology 373 (1-2), 256-266, 2009
|An analysis of the sensitivity of sap flux to soil and plant variables assessed for an Australian woodland using a soil–plant–atmosphere model|
M Zeppel, C Macinnis-Ng, A Palmer, D Taylor, R Whitley, S Fuentes, ...
Functional Plant Biology 35 (6), 509-520, 2008
|Long term trends of stand transpiration in a remnant forest during wet and dry years|
MJB Zeppel, CMO Macinnis-Ng, IAM Yunusa, RJ Whitley, D Eamus
Journal of Hydrology 349 (1-2), 200-213, 2008
|Consequences of nocturnal water loss: a synthesis of regulating factors and implications for capacitance, embolism and use in models|
MJB Zeppel, JD Lewis, NG Phillips, DT Tissue
Tree Physiology 34 (10), 1047-1055, 2014