Solar radiation exposure accelerates decomposition and biotic activity in surface litter but not soil in a semiarid woodland ecosystem in Patagonia, Argentina

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Aims Photodegradation of senescent plant material has been identified as an important vector of aboveground carbon (C) loss in aridland ecosystems, but the consequences for biotic activity and soil C in the field are not well understood.Methods We established an experiment in a semiarid woodlandin P...

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Detalles Bibliográficos
Otros Autores: Méndez, M. Soledad (CONICET – Universidad de Buenos Aires. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura (IFEVA). Buenos Aires, Argentina.), Martínez, María Laura, Araujo, Patricia Inés, Austin, Amy Theresa
Formato: Artículo
Lenguaje:Inglés
Materias:
ß - GLUCOSIDASE
CARBON CYCLE
LITTER DECOMPOSITION
PHOTODEGRADATION
PHOTOFACILITATION
SEMI ARID ECOSYSTEMS
SOLAR RADIATION
UV RADIATION
PATAGONIA
Acceso en línea:http://ri.agro.uba.ar/files/intranet/articulo/2019mendez.pdf
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Biblioteca Central (FAUBA) de Universidad de Buenos Aires
Descripción
Sumario:Aims Photodegradation of senescent plant material has been identified as an important vector of aboveground carbon (C) loss in aridland ecosystems, but the consequences for biotic activity and soil C in the field are not well understood.Methods We established an experiment in a semiarid woodlandin Patagonia, Argentina with attenuation of solar radiation and additions of leaf litter to evaluate impacts of photo degradation on changes in labile C and biotic activity in aboveground litter and surface soils. Results Litter decomposition was significantly accelerated by exposure to solar radiation. Moreover, labile sugars (hexoses and pentoses), microbial enzymatic activity (βglucosidase activity) and available carbohydrates for cellulase degradation (saccharification) all significantly increased in sunlight - exposed litter. None of these stimulatory effects were observed in the surface soils exposed to sunlight. On the contrary, soil microbial biomass and ßglucosidase activity in surface soils were significantly greater only with litter addition and attenuated sunlight. Conclusions Our results suggest that photodegradation of plant litter (production of volatile compounds through photochemical mineralization) and photofacilitation (stimulation of biotic activity due to change in litter chemistry with exposure to sunlight) generate rapid turnover of C in aboveground litter. The consequences of this accelerated C turnover may be that a fraction of leaf litter de composes indisdirectly released back tothe atmosphere as CO2 and never enters soil organic matter pool. Taken together, these results highlight the functional importance of solarradiation indeterminingthe C balance in semiarid ecosystems.
ISSN:1573-5036 (en línea)
0032-079X (impreso)

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