Responses of two semiarid conifer tree species to reduced precipitation and warming reveal new perspectives for stomatal regulation

García-Forner, Núria; Adams, Henry D.; Sevanto, Sanna; Collins, Adam; Dickman, L. Turin; Hudson, Patrick J.; Zeppel, Melanie; Jenkins, Michael W.; Powers, Heath; Martínez‐Vilalta, Jordi; McDowell, Nate G.

doi:10.1111/pce.12588

Cited by 118 publications

(130 citation statements)

References 55 publications

(89 reference statements)

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“…Furthermore, Meinzer et al [35] evaluated metrics of stomatal regulation of Ψ l during soil drying in eight woody species and assessed whether easily determined leaf pressure-volume traits could serve as proxies for their degree of iso-vs. anisohydric behaviour. According to Garcia-Forner et al [36], and contrary to their expectations, both of these species (J. monosperma and P. edulis) exhibited similar stomatal temporal dynamics in response to drought, with little embolism in J. monosperma due to its conservative stomatal regulation. This contributed to refuting the concept that very low water potentials during drought are associated with loose stomatal control and with the hypothesis that anisohydric species are more prone to hydraulic failure than isohydric species.…”

Section: Introductionmentioning

confidence: 78%

Plant Water Status Indicators for Irrigation Scheduling Associated with Iso- and Anisohydric Behavior: Vine and Plum Trees

et al. 2017

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Plant water status indicators have been increasingly used for scheduling irrigation. Different variables may be used to do this, depending on personal preferences and the resources available. Many studies have suggested that selection of an indicator should take into account plant behavior in relation to isohydricity. In two Iberian studies, deficit irrigation (DI) was applied in a vineyard and in a plum orchard while plant water status and fluxes were monitored. These case-studies are discussed with special focus on the use of predawn leaf water potential (Ψ pd ) versus stem water potential (Ψ st ) to determine whether Ψ st performed better and would therefore be the preferred stress indicator for plants exhibiting anisohydric behavior. In contrast, in plants with isohydric behavior, Ψ pd would be generally preferred. This hypothesis seems to be supported by the present results obtained and by prior studies. The cultivars used and the intensity of stress applied have an important influence on the results. This suggests that, if no specific information is available from the existing literature, daily preliminary studies would be recommended prior to application in order to select the most appropriate plant water stress indicators.

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Section: Introductionmentioning

confidence: 78%

Plant Water Status Indicators for Irrigation Scheduling Associated with Iso- and Anisohydric Behavior: Vine and Plum Trees

et al. 2017

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“…; Garcia‐Forner et al . ). Moreover, almost no literature exists on the response of foliar traits to long‐term simultaneous warming and precipitation reduction of mature trees in natural forest ecosystems.…”

Section: Introductionmentioning

confidence: 97%

“…Piñon pine tolerates high temperatures (Spaulding, Robinson & Paillet ) and demonstrates relatively high resistance to water stress (Linton, Sperry & Williams ; Garcia‐Forner et al . ). Here, we tested foliar traits that represent tree physiology (needle emergence, maximum photosynthesis, stomatal conductance, WUE and shoot elongation) and morphology (needle length and thickness, and leaf mass per area (LMA)).…”

Section: Introductionmentioning

confidence: 97%

Precipitation, not air temperature, drives functional responses of trees in semi‐arid ecosystems

et al. 2016

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Summary1. Model scenarios of climate change predict that warming and drought will occur simultaneously in the future in many regions. The capacity of woody species to modify their physiology and morphology in response to environmental conditions is widely recognized, but little is known about the responses of trees to reduced precipitation and increased temperature acting simultaneously. 2. In a semi-arid woodland, we assessed the responses in physiological (needle emergence, maximum photosynthesis, stomatal conductance, water use efficiency (WUE) and shoot elongation) and morphological (needle length and thickness, and leaf mass per area (LMA)) foliar traits of piñon pine (Pinus edulis) in response to three years of a 45% reduction in precipitation, a 4.8°C increase in air temperature and their simultaneous effects. 3. A strong change in physiological and morphological traits in response to reduced precipitation was observed. Precipitation reduction delayed needle emergence, decreased photosynthesis and stomatal conductance, increased WUE, decreased shoot elongation and induced shorter needles with a higher LMA. Trees subjected to simultaneous reductions in precipitation and warming demonstrated a similar response. However, atmospheric warming did not induce a response in any of the measured traits. 4. Physiological and morphological traits of trees in this semi-arid climate were more responsive to changes in soil moisture than air temperature. Long-term exposure to seasonal drought stress in arid sites may have resulted in strong plastic responses to this first stressor. However, atmospheric warming probably was not experienced as a stress for trees in this warm and dry climate. Overall, our results indicate that in semi-arid ecosystems where tree functioning is already highly limited by soil water availability, atmospheric warming as anticipated with climate change may have less impact on foliar trait responses than previously thought.

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“…Unlike our findings, however, (Garcia-Forner et al, 2016;Grossiord et al, 2017) found no compounding effect of increased drought in addition to increased temperatures. This discrepancy could simply be the result of differing timescales; while a change in climate might not have a measurable response in vegetation in the short term (such as (Bates et al, 2006) observed in the initial years of their study), or be confounded by previous conditions, this climate pattern can have a large enough effect on tree survival to change species distribution in a climate scenario that has been run until steady state.…”

Section: South-facing Slopescontrasting

confidence: 57%

Using Landlab, a Fine Scale Biogeography Model, to Measure the Sustainability of Semi-Arid Vegetation in a Changing Climate

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Responses of two semiarid conifer tree species to reduced precipitation and warming reveal new perspectives for stomatal regulation

Cited by 118 publications

References 55 publications

Plant Water Status Indicators for Irrigation Scheduling Associated with Iso- and Anisohydric Behavior: Vine and Plum Trees

Plant Water Status Indicators for Irrigation Scheduling Associated with Iso- and Anisohydric Behavior: Vine and Plum Trees

Precipitation, not air temperature, drives functional responses of trees in semi‐arid ecosystems

Using Landlab, a Fine Scale Biogeography Model, to Measure the Sustainability of Semi-Arid Vegetation in a Changing Climate

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