Effects of increased summer precipitation and N deposition on Mojave Desert populations of the biological crust moss Syntrichia caninervis

L. R. Stark; J. C. Brinda; D. N. McLetchie

doi:10.1016/j.jaridenv.2010.12.015

Effects of increased summer precipitation and N deposition on Mojave Desert populations of the biological crust moss Syntrichia caninervis

L. R. Stark
, J. C. Brinda
, D. N. McLetchie

Biology

Producción científica: Article › revisión exhaustiva

32 Citas (Scopus)

Resumen

Climate change in the Mojave Desert (USA) may result in a greater intensity of summer (monsoon) rain events and greater atmospheric N deposition. Patches of the dominant biological crust moss Syntrichia caninervis were exposed to field treatments of low and high nitrogen supplementation, added summer rain, and combinations thereof, for a period of five years. In the lab, shoots were subjected to a moderate (single rapid-dry treatment) and a severe (double rapid-dry treatment) desiccation stress. Shoots were then hydrated and allowed to regenerate for 6 weeks on sterile sand. Shoots exhibited lower aboveground biomass from the +monsoon treatment, indicating carbon balance deficits under conditions of recurring summer rainfall. The low N treatment and the severe desiccation stress promoted shoot burning (chlorosis) and negatively affected regeneration responses. High N treatment, however, only adversely affected the resumption of apical meristematic growth. Summer irrigation and N application interacted to mitigate the effects of later protonemal emergence time, lower protonemal cover, and lower shoot numbers. Increased monsoonal frequency and higher N deposition as forecast for the northern Mojave Desert may result in declines in shoot biomass and reduced regenerational vigor in S. caninervis.

Idioma original	English
Páginas (desde-hasta)	457-463
Número de páginas	7
Publicación	Journal of Arid Environments
Volumen	75
N.º	5
DOI	https://doi.org/10.1016/j.jaridenv.2010.12.015
Estado	Published - may 2011

Nota bibliográfica

Funding Information:
We thank Lorenzo Nichols II for assistance in the laboratory, Lynn Fenstermaker, Dene Charlet, and Jon Titus for installing the initial field site treatments, and Eric Knight and Derek Babcock for providing field assistance and managing site operations. This research was supported by the Office of Science, Biological and Environmental Research Program (BER), U.S. Department of Energy (DOE), through the Western Regional Center of the National Institute for Climate Change Research (formerly known as Nat. Inst. for Global Environmental Change) under Cooperative Agreement No. DE-FCO2-03ER63613. Financial support does not constitute an endorsement by DOE of the views expressed in this article. DNM was supported by NSF grant IOB 0416407. LRS was supported by a UNLV faculty sabbatical leave during a portion of this project.

Financiación

We thank Lorenzo Nichols II for assistance in the laboratory, Lynn Fenstermaker, Dene Charlet, and Jon Titus for installing the initial field site treatments, and Eric Knight and Derek Babcock for providing field assistance and managing site operations. This research was supported by the Office of Science, Biological and Environmental Research Program (BER), U.S. Department of Energy (DOE), through the Western Regional Center of the National Institute for Climate Change Research (formerly known as Nat. Inst. for Global Environmental Change) under Cooperative Agreement No. DE-FCO2-03ER63613. Financial support does not constitute an endorsement by DOE of the views expressed in this article. DNM was supported by NSF grant IOB 0416407. LRS was supported by a UNLV faculty sabbatical leave during a portion of this project.

Financiadores	Número del financiador
Biological and Environmental Research Program
National Institute for Climate Change Research
National Science Foundation (NSF)	IOB 0416407
Michigan State University-U.S. Department of Energy (MSU-DOE) Plant Research Laboratory
Office of Science Programs
University of Nevada, Las Vegas

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

Climate action

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Ecology
Earth-Surface Processes

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title = "Effects of increased summer precipitation and N deposition on Mojave Desert populations of the biological crust moss Syntrichia caninervis",

abstract = "Climate change in the Mojave Desert (USA) may result in a greater intensity of summer (monsoon) rain events and greater atmospheric N deposition. Patches of the dominant biological crust moss Syntrichia caninervis were exposed to field treatments of low and high nitrogen supplementation, added summer rain, and combinations thereof, for a period of five years. In the lab, shoots were subjected to a moderate (single rapid-dry treatment) and a severe (double rapid-dry treatment) desiccation stress. Shoots were then hydrated and allowed to regenerate for 6 weeks on sterile sand. Shoots exhibited lower aboveground biomass from the +monsoon treatment, indicating carbon balance deficits under conditions of recurring summer rainfall. The low N treatment and the severe desiccation stress promoted shoot burning (chlorosis) and negatively affected regeneration responses. High N treatment, however, only adversely affected the resumption of apical meristematic growth. Summer irrigation and N application interacted to mitigate the effects of later protonemal emergence time, lower protonemal cover, and lower shoot numbers. Increased monsoonal frequency and higher N deposition as forecast for the northern Mojave Desert may result in declines in shoot biomass and reduced regenerational vigor in S. caninervis.",

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note = "Funding Information: We thank Lorenzo Nichols II for assistance in the laboratory, Lynn Fenstermaker, Dene Charlet, and Jon Titus for installing the initial field site treatments, and Eric Knight and Derek Babcock for providing field assistance and managing site operations. This research was supported by the Office of Science, Biological and Environmental Research Program (BER), U.S. Department of Energy (DOE), through the Western Regional Center of the National Institute for Climate Change Research (formerly known as Nat. Inst. for Global Environmental Change) under Cooperative Agreement No. DE-FCO2-03ER63613. Financial support does not constitute an endorsement by DOE of the views expressed in this article. DNM was supported by NSF grant IOB 0416407. LRS was supported by a UNLV faculty sabbatical leave during a portion of this project. ",

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AU - Brinda, J. C.

AU - McLetchie, D. N.

N1 - Funding Information: We thank Lorenzo Nichols II for assistance in the laboratory, Lynn Fenstermaker, Dene Charlet, and Jon Titus for installing the initial field site treatments, and Eric Knight and Derek Babcock for providing field assistance and managing site operations. This research was supported by the Office of Science, Biological and Environmental Research Program (BER), U.S. Department of Energy (DOE), through the Western Regional Center of the National Institute for Climate Change Research (formerly known as Nat. Inst. for Global Environmental Change) under Cooperative Agreement No. DE-FCO2-03ER63613. Financial support does not constitute an endorsement by DOE of the views expressed in this article. DNM was supported by NSF grant IOB 0416407. LRS was supported by a UNLV faculty sabbatical leave during a portion of this project.

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N2 - Climate change in the Mojave Desert (USA) may result in a greater intensity of summer (monsoon) rain events and greater atmospheric N deposition. Patches of the dominant biological crust moss Syntrichia caninervis were exposed to field treatments of low and high nitrogen supplementation, added summer rain, and combinations thereof, for a period of five years. In the lab, shoots were subjected to a moderate (single rapid-dry treatment) and a severe (double rapid-dry treatment) desiccation stress. Shoots were then hydrated and allowed to regenerate for 6 weeks on sterile sand. Shoots exhibited lower aboveground biomass from the +monsoon treatment, indicating carbon balance deficits under conditions of recurring summer rainfall. The low N treatment and the severe desiccation stress promoted shoot burning (chlorosis) and negatively affected regeneration responses. High N treatment, however, only adversely affected the resumption of apical meristematic growth. Summer irrigation and N application interacted to mitigate the effects of later protonemal emergence time, lower protonemal cover, and lower shoot numbers. Increased monsoonal frequency and higher N deposition as forecast for the northern Mojave Desert may result in declines in shoot biomass and reduced regenerational vigor in S. caninervis.

AB - Climate change in the Mojave Desert (USA) may result in a greater intensity of summer (monsoon) rain events and greater atmospheric N deposition. Patches of the dominant biological crust moss Syntrichia caninervis were exposed to field treatments of low and high nitrogen supplementation, added summer rain, and combinations thereof, for a period of five years. In the lab, shoots were subjected to a moderate (single rapid-dry treatment) and a severe (double rapid-dry treatment) desiccation stress. Shoots were then hydrated and allowed to regenerate for 6 weeks on sterile sand. Shoots exhibited lower aboveground biomass from the +monsoon treatment, indicating carbon balance deficits under conditions of recurring summer rainfall. The low N treatment and the severe desiccation stress promoted shoot burning (chlorosis) and negatively affected regeneration responses. High N treatment, however, only adversely affected the resumption of apical meristematic growth. Summer irrigation and N application interacted to mitigate the effects of later protonemal emergence time, lower protonemal cover, and lower shoot numbers. Increased monsoonal frequency and higher N deposition as forecast for the northern Mojave Desert may result in declines in shoot biomass and reduced regenerational vigor in S. caninervis.

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KW - Bryophyte

KW - Desiccation tolerance

KW - Monsoon

KW - Moss

KW - N deposition

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JO - Journal of Arid Environments

JF - Journal of Arid Environments

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ER -

Effects of increased summer precipitation and N deposition on Mojave Desert populations of the biological crust moss Syntrichia caninervis

Resumen

Nota bibliográfica

Financiación

ODS de las Naciones Unidas

ASJC Scopus subject areas

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