Woodland recovery following drought-induced tree mortality across an environmental stress gradient

Miranda D. Redmond, Neil S Cobb, Michael J. Clifford, Nichole N. Barger

Research output: Contribution to journalArticle

22 Citations (Scopus)

Abstract

Recent droughts and increasing temperatures have resulted in extensive tree mortality across the globe. Understanding the environmental controls on tree regeneration following these drought events will allow for better predictions of how these ecosystems may shift under a warmer, drier climate. Within the widely distributed piñon-juniper woodlands of the southwestern USA, a multiyear drought in 2002-2004 resulted in extensive adult piñon mortality and shifted adult woodland composition to a juniper-dominated, more savannah-type ecosystem. Here, we used pre- (1998-2001) and 10-year post- (2014) drought stand structure data of individually mapped trees at 42 sites to assess the effects of this drought on tree regeneration across a gradient of environmental stress. We found declines in piñon juvenile densities since the multiyear drought due to limited new recruitment and high (>50%) juvenile mortality. This is in contrast to juniper juvenile densities, which increased over this time period. Across the landscape, piñon recruitment was positively associated with live adult piñon densities and soil available water capacity, likely due to their respective effects on seed and water availability. Juvenile piñon survival was strongly facilitated by certain types of nurse trees and shrubs. These nurse plants also moderated the effects of environmental stress on piñon survival: Survival of interspace piñon juveniles was positively associated with soil available water capacity, whereas survival of nursed piñon juveniles was negatively associated with perennial grass cover. Thus, nurse plants had a greater facilitative effect on survival at sites with higher soil available water capacity and perennial grass cover. Notably, mean annual climatic water deficit and elevation were not associated with piñon recruitment or survival across the landscape. Our findings reveal a clear shift in successional trajectories toward a more juniper-dominated woodland and highlight the importance of incorporating biotic interactions and soil properties into species distribution modeling approaches.

Original languageEnglish (US)
Pages (from-to)3685-3695
Number of pages11
JournalGlobal Change Biology
Volume21
Issue number10
DOIs
StatePublished - Oct 1 2015

Fingerprint

Drought
environmental stress
woodland
drought
available water capacity
Recovery
mortality
Water
nurse plant
Soils
Ecosystems
regeneration
grass
soil
stand structure
water availability
Seed
soil property
shrub
trajectory

Keywords

  • Juniperus monosperma
  • Pinus edulis
  • Climate change
  • Colorado Plateau
  • Competition
  • Nurse plant facilitation
  • Pinyon pine
  • Stress-gradient hypothesis

ASJC Scopus subject areas

  • Ecology
  • Global and Planetary Change
  • Environmental Science(all)
  • Environmental Chemistry

Cite this

Woodland recovery following drought-induced tree mortality across an environmental stress gradient. / Redmond, Miranda D.; Cobb, Neil S; Clifford, Michael J.; Barger, Nichole N.

In: Global Change Biology, Vol. 21, No. 10, 01.10.2015, p. 3685-3695.

Research output: Contribution to journalArticle

Redmond, Miranda D. ; Cobb, Neil S ; Clifford, Michael J. ; Barger, Nichole N. / Woodland recovery following drought-induced tree mortality across an environmental stress gradient. In: Global Change Biology. 2015 ; Vol. 21, No. 10. pp. 3685-3695.
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abstract = "Recent droughts and increasing temperatures have resulted in extensive tree mortality across the globe. Understanding the environmental controls on tree regeneration following these drought events will allow for better predictions of how these ecosystems may shift under a warmer, drier climate. Within the widely distributed pi{\~n}on-juniper woodlands of the southwestern USA, a multiyear drought in 2002-2004 resulted in extensive adult pi{\~n}on mortality and shifted adult woodland composition to a juniper-dominated, more savannah-type ecosystem. Here, we used pre- (1998-2001) and 10-year post- (2014) drought stand structure data of individually mapped trees at 42 sites to assess the effects of this drought on tree regeneration across a gradient of environmental stress. We found declines in pi{\~n}on juvenile densities since the multiyear drought due to limited new recruitment and high (>50{\%}) juvenile mortality. This is in contrast to juniper juvenile densities, which increased over this time period. Across the landscape, pi{\~n}on recruitment was positively associated with live adult pi{\~n}on densities and soil available water capacity, likely due to their respective effects on seed and water availability. Juvenile pi{\~n}on survival was strongly facilitated by certain types of nurse trees and shrubs. These nurse plants also moderated the effects of environmental stress on pi{\~n}on survival: Survival of interspace pi{\~n}on juveniles was positively associated with soil available water capacity, whereas survival of nursed pi{\~n}on juveniles was negatively associated with perennial grass cover. Thus, nurse plants had a greater facilitative effect on survival at sites with higher soil available water capacity and perennial grass cover. Notably, mean annual climatic water deficit and elevation were not associated with pi{\~n}on recruitment or survival across the landscape. Our findings reveal a clear shift in successional trajectories toward a more juniper-dominated woodland and highlight the importance of incorporating biotic interactions and soil properties into species distribution modeling approaches.",
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