Vulnerability of riparian ecosystems to elevated <scp><scp>CO<sub>2</sub></scp></scp> and climate change in arid and semiarid western <scp>N</scp>orth <scp>A</scp>merica

Perry, Laura G.; Andersen, Douglas C.; Reynolds, Lindsay V.; Nelson, S. Mark; Shafroth, Patrick B.

doi:10.1111/j.1365-2486.2011.02588.x

Cited by 157 publications

(107 citation statements)

References 273 publications

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“…In a review of the literature on the effects of climate change in semiarid riparian ecosystems, Perry et al (2012) noted that climate-driven changes in streamflow are expected to reduce the abundance of dominant, native, early-successional tree species and increase herbaceous, drought-tolerant, and late-successional woody species (including nonnative species), leading to reduced habitat quality for riparian fauna. Riparian systems will be especially important locations on which to focus monitoring for the early effects of climate change.…”

Section: Great Plainsmentioning

confidence: 99%

Effects of climatic variability and change on forest ecosystems: a comprehensive science synthesis for the U.S

Vose¹,

Peterson²,

Patel-Weynand³

2012

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Section: Great Plainsmentioning

confidence: 99%

Effects of climatic variability and change on forest ecosystems: a comprehensive science synthesis for the U.S

Vose¹,

Peterson²,

Patel-Weynand³

2012

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“…The effects of climate change on tree phenology have been investigated mostly in temperate and boreal ecosystems, for which an extension of the growing season is usually expected as a consequence of warming, because of earlier onset in the spring (Menzel and Fabian 1999) or delayed cessation in autumn . In arid and semi-arid regions, including the southwest USA (Perry et al 2012), there are difficulties in predicting the balance between increased evapotranspiration, changes in water-use efficiency, and photosynthesis (Le Houérou 1996). Since phenological responses to climate depend on local conditions (Nord and Lynch 2009), a wide range of responses may be expected (Cleland et al 2007), and in situ observations are crucial to improve the predictive quality of phenological models (Richardson et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Tree growth, cambial phenology, and wood anatomy of limber pine at a Great Basin (USA) mountain observatory

Ziaco

Biondi

2016

Trees

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Key message Anatomical features of Pinus flexilis under warmer and drier conditions along an altitudinal transect revealed a shorter growing season and shifts in the timing of wood formation. Abstract Future climate change driven by greenhouse warming is expected to increase both frequency and severity of drought events and heat waves. Possible consequences for forest ecosystems include changes in foundation species and extended die-off phenomena. We investigated tree growth under the set of biotic and abiotic conditions, and their interactions, that are expected in a drier and warmer world using mountain observatories designed to capture elevation gradients in the Great Basin of North America. Stem cambial activity, wood anatomy, and radial growth of limber pine (Pinus flexilis) were examined at two different elevations using automated dendrometers and repeated histological microcores in 2013-2014. Mean annual temperature was 3.7°cooler at the higher site, which received 170 mm year -1 of precipitation more than the lower site. Mean air temperature thresholds for xylogenesis computed using logistic regression were 7.7 and 12.0°C at the higher and lower site, respectively. No differences in the onset date of cambial activity were found under such naturally contrasted conditions, with the global change analog provided by the lower site. Growing season was shortened by increasing drought stress at the lower site, thereby reducing xylem production. Stem expansion was only detectable by automated dendrometers at the higher site. Using elevation to simulate climatic changes and their realized ecosystem feedbacks, it was possible to express tree responses in terms of xylem phenology and anatomical adaptations.

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“…The riparian ecosystem ensures the connection between the aquatic and terrestrial ecosystems having an obvious influence in the improvement of the aquatic systems habitat (Naiman and Décamps 1997;Naiman et al 2005) and biological conservation (Broadmeadow and Nisbet 2004;Van Looy et al 2013). The riparian vegetation is especially vulnerable to flow regime changes (Perry et al 2012) because its adaptations and life-histories are synchronized according to the variable conditions of the river dynamics (Stella et al 2006). This interaction between fluvial geomorphic processes and riparian vegetation dynamics can be traced on the topographic diversity, soil moisture gradients and fluvial disturbance patches (Bornette et al 1998).…”

Section: Introductionmentioning

confidence: 99%

Using CASIMIR-VEGETATION Model in the context of modeling riparian woods and fish species to support a holistic approach for environmental flows to be used on river management and conservation

et al. 2016

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ResumoO modelo CASiMiR-vegetation recria os processos físicos que influenciam a sobrevivência e recrutamento da vegetação ripária, baseando-se na relação entre componentes do regime hidrológico ecologicamente relevantes e métricas de vegetação que refletem a resposta às alterações do regime hidrológico. Trabalhando ao nível da guilda de resposta ao escoamento, esta ferramenta supera modelos equivalentes ultrapassando várias restrições presentes nas modelações convencionais. O potencial do modelo CASiMiR-vegetation é revelado na sua aplicação a diferentes casos de estudo durante o desenvolvimento de uma abordagem holística para determinação de caudais ambientais em rios mediterrânicos, sustentado na vegetação ripária e espécies piscícolas. São descritas várias circunstâncias de modelação recorrendo ao modelo CASiMiR-vegetation com o propósito de suportar a investigação que visa aos objetivos da tese. Os principais resultados já alcançados nesta investigação são realçados para ilustrar os desenvolvimentos que podem ser alcançados a partir do uso de tal modelo. Palavras-chave:Modelação de vegetação ripária, caudais ambientais, restauro fluvial. AbstractThe CASiMiR-vegetation model is a software that recreates the physical processes influencing the survival and recruitment of riparian vegetation, based on the relationship between ecologically relevant flow regime components and riparian vegetation metrics that reflect the vegetation's responses to flow regime change. Working at a flow response guild level, this tool outperforms equivalent models by overriding various restrictions of the conventional modeling approaches. The potential of the CASiMiR-vegetation model is revealed in its application to different case studies during the development of a holistic approach to determine environmental flows in lowland Mediterranean rivers, based on woody riparian vegetation and fish species. Various modeling circumstances are described where CASiMiR-vegetation model was used 2 with the purpose of sustaining the research addressing the thesis objectives. The main findings already accomplished in this research are highlighted to illustrate the outcomes that can be attained from the use of such a model.

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Vulnerability of riparian ecosystems to elevated CO₂ and climate change in arid and semiarid western North America

Cited by 157 publications

References 273 publications

Effects of climatic variability and change on forest ecosystems: a comprehensive science synthesis for the U.S

Effects of climatic variability and change on forest ecosystems: a comprehensive science synthesis for the U.S

Tree growth, cambial phenology, and wood anatomy of limber pine at a Great Basin (USA) mountain observatory

Using CASIMIR-VEGETATION Model in the context of modeling riparian woods and fish species to support a holistic approach for environmental flows to be used on river management and conservation

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Vulnerability of riparian ecosystems to elevated CO2 and climate change in arid and semiarid western North America

Cited by 157 publications

References 273 publications

Effects of climatic variability and change on forest ecosystems: a comprehensive science synthesis for the U.S

Effects of climatic variability and change on forest ecosystems: a comprehensive science synthesis for the U.S

Tree growth, cambial phenology, and wood anatomy of limber pine at a Great Basin (USA) mountain observatory

Using CASIMIR-VEGETATION Model in the context of modeling riparian woods and fish species to support a holistic approach for environmental flows to be used on river management and conservation

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Vulnerability of riparian ecosystems to elevated CO₂ and climate change in arid and semiarid western North America