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Research Project: MANAGEMENT TECHNOLOGIES FOR CONSERVATION OF WESTERN RANGELANDS

Location: Range Management Research

Title: Grassland-shrubland state transitions in arid lands: Competition matters

Author
item PIERCE, NATHAN - University Of Arizona
item ARCHER, STEVE - University Of Arizona
item Bestelmeyer, Brandon

Submitted to: Ecological Society of America Abstracts
Publication Type: Abstract Only
Publication Acceptance Date: 4/16/2016
Publication Date: 8/9/2016
Citation: Pierce, N., Archer, S., Bestelmeyer, B.T. 2016. Grassland-shrubland state transitions in arid lands: Competition matters [abstract]. Ecological Society of America Annual Meeting 2016. August 7-12, 2016, Fort Lauderdale, FL. COS 15-2.

Interpretive Summary:

Technical Abstract: Background/Question/Methods: State transition from grassland to shrubland is synonymous with desertification in many dryland systems. The classic desertification model emphasizes abiotic feedbacks that modify the physical environment in ways that promote shrub proliferation and impede grass survival. Inherent in this perspective is the assumption that biotic interactions between grasses and shrubs have little bearing on state transition dynamics. Furthermore, the importance of density-dependent interactions as determinants of shrub cover is unknown. We addressed these assumptions and knowledge gaps over 4 years using selective removal (SR) experiments. In SR1, shrubs (Prosopis glandulosa) were killed (foliar herbicide) or left intact (controls) and growth of grasses (Bouteloua eriopoda) was quantified. In SR2, productivity of shrubs whose local grass neighborhoods had been neutralized by herbicide or left intact was monitored. In SR3, ANPP of shrubs whose conspecific neighbors were intact or killed was quantified. Results/Conclusions: Shrub-on-Grass Interactions: Grass ANPP responded positively to shrub removal in all years, but more so in years with above-average rainfall and in plots with high shrub abundance. Grass allocation to vegetative reproduction and grass patch area also increased when shrub neighbors were removed. These results demonstrate that biotic interference by shrubs upon grasses reinforce and magnify abiotic feedbacks during grassland–shrubland transitions. Grass-on-Shrub Interactions: In years with above-average growing season precipitation, ANPP of small shrubs increased when grasses were removed, a result not evident in dry years or in larger shrubs. Grasses may therefore slow the rate at which shrubs attain a physical stature that can modify the physical environment in self-promoting ways. Shrub-Shrub Interactions: Intraspecific interactions between shrubs were not evident in any year, supporting the assumption that abiotic variables rather than competitive interactions constrain maximum shrub cover. This research provides insights on how shrub-grass interactions amplify or dampen the abiotic drivers of desertification, helps explain how woody plants can continue to proliferate despite low or reduced livestock grazing pressure, and generates hypotheses that can help us refine experiments to address the mechanisms of belowground competition at play where grasses and shrubs co-occur in arid ecosystems.