|Consequences of widespread tree mortality triggered by drought and temperature stress|
WRL Anderegg, JM Kane, LDL Anderegg
Nature climate change 3 (1), 30-36, 2013
|The roles of hydraulic and carbon stress in a widespread climate-induced forest die-off|
WRL Anderegg, JA Berry, DD Smith, JS Sperry, LDL Anderegg, CB Field
Proceedings of the National Academy of Sciences 109 (1), 233-237, 2012
|A multi-species synthesis of physiological mechanisms in drought-induced tree mortality|
HD Adams, MJB Zeppel, WRL Anderegg, H Hartmann, SM Landhšusser, ...
Nature ecology & evolution 1 (9), 1285-1291, 2017
|Drought's legacy: multiyear hydraulic deterioration underlies widespread aspen forest die‐off and portends increased future risk|
WRL Anderegg, L PlavcovŠ, LDL Anderegg, UG Hacke, JA Berry, ...
Global change biology 19 (4), 1188-1196, 2013
|Not all droughts are created equal: translating meteorological drought into woody plant mortality.|
LDL Anderegg, WRL Anderegg, JA Berry
Tree physiology 33 (7), 2013
|Hydraulic and carbohydrate changes in experimental drought-induced mortality of saplings in two conifer species|
WRL Anderegg, LDL Anderegg
Tree Physiology 33 (3), 252-260, 2013
|Within‐species patterns challenge our understanding of the leaf economics spectrum|
LDL Anderegg, LT Berner, G Badgley, ML Sethi, BE Law, ...
Ecology letters 21 (5), 734-744, 2018
|Drought characteristics' role in widespread aspen forest mortality across Colorado, USA|
LDL Anderegg, WRL Anderegg, J Abatzoglou, AM Hausladen, JA Berry
Global Change Biology 19 (5), 1526-1537, 2013
|Drought stress limits the geographic ranges of two tree species via different physiological mechanisms|
LDL Anderegg, J HilleRisLambers
Global Change Biology 22 (3), 1029-1045, 2016
|Loss of whole-tree hydraulic conductance during severe drought and multi-year forest die-off|
WRL Anderegg, LDL Anderegg, JA Berry, CB Field
Oecologia 175 (1), 11-23, 2014
|Widespread drought‐induced tree mortality at dry range edges indicates that climate stress exceeds species' compensating mechanisms|
WRL Anderegg, LDL Anderegg, KL Kerr, AT Trugman
Global change biology 25 (11), 3793-3802, 2019
|Terrestrial gross primary production: Using NIRV to scale from site to globe|
G Badgley, LDL Anderegg, JA Berry, CB Field
Global change biology 25 (11), 3731-3740, 2019
|Effects of widespread drought‐induced aspen mortality on understory plants|
WRL Anderegg, LDL Anderegg, C Sherman, DS Karp
Conservation Biology 26 (6), 1082-1090, 2012
|Climate and plant trait strategies determine tree carbon allocation to leaves and mediate future forest productivity|
AT Trugman, LDL Anderegg, BT Wolfe, B Birami, NK Ruehr, M Detto, ...
Global change biology 25 (10), 3395-3405, 2019
|Comparative leaf growth strategies in response to low-water and low-light availability: variation in leaf physiology underlies variation in leaf mass per area in Populus†…|
AS Baird, LDL Anderegg, ME Lacey, J HilleRisLambers, ...
Tree physiology 37 (9), 1140-1150, 2017
|No local adaptation in leaf or stem xylem vulnerability to embolism, but consistent vulnerability segmentation in a North American oak|
RP Skelton, LDL Anderegg, P Papper, E Reich, TE Dawson, M Kling, ...
New Phytologist 223 (3), 1296-1306, 2019
|Local range boundaries vs. large‐scale trade‐offs: Climatic and competitive constraints on tree growth|
LDL Anderegg, J HilleRisLambers
Ecology letters 22 (5), 787-796, 2019
|Dry and hot: the hydraulic consequences of a climate change–type drought for Amazonian trees|
CG Fontes, TE Dawson, K Jardine, N McDowell, BO Gimenez, ...
Philosophical Transactions of the Royal Society B: Biological Sciences 373†…, 2018
|Leveraging plant hydraulics to yield predictive and dynamic plant leaf allocation in vegetation models with climate change|
AT Trugman, LDL Anderegg, JS Sperry, Y Wang, M Venturas, ...
Global change biology 25 (12), 4008-4021, 2019
|Testing early warning metrics for drought‐induced tree physiological stress and mortality|
WRL Anderegg, LDL Anderegg, C Huang
Global change biology 25 (7), 2459-2469, 2019