Do soil organisms affect aboveground litter decomposition in the semiarid Patagonian steppe, Argentina?

Do soil organisms affect aboveground litter decomposition in the semiarid Patagonian steppe, Argentina?

Surface litter decomposition in arid and semiarid ecosystems is often faster than predicted by climatic parameters such as annual precipitation or evapotranspiration, or based on standard indices of litter quality such as lignin or nitrogen concentrations. Abiotic photodegradation has been demonstrated to be an important factor controlling aboveground litter decomposition in aridland ecosystems, but soil fauna, particularly macrofauna such as termites and ants, have also been identified as key players affecting litter mass loss in warm deserts. Our objective was to quantify the importance of soil organisms on surface litter decomposition in the Patagonian steppe in the absence of photodegradative effects, to establish the relative importance of soil organisms on rates of mass loss and nitrogen release. We estimated the relative contribution of soil fauna and microbes to litter decomposition of a dominant grass using litterboxes with variable mesh sizes that excluded groups of soil fauna based on size class [10, 2, and 0. 01 mm], which were placed beneath shrub canopies. We also employed chemical repellents [naphthalene and fungicide]. The exclusion of macro- and mesofauna had no effect on litter mass loss over 3 years [P = 0. 36], as litter decomposition was similar in all soil fauna exclusions and naphthalene-treated litter. In contrast, reduction of fungal activity significantly inhibited litter decomposition [P less than 0. 001]. Although soil fauna have been mentioned as a key control of litter decomposition in warm deserts, biogeographic legacies and temperature limitation may constrain the importance of these organisms in temperate aridlands, particularly in the southern hemisphere.

Saved in:
Bibliographic Details
Main Authors: Araujo, Patricia Inés, Yahdjian, María Laura, Austin, Amy Theresa
Format: Texto biblioteca
Language:eng
Subjects:ARIDLANDS, CARBON TURNOVER, FUNGI, MACRO- AND MESOFAUNA, TERMITES, FUNGICIDE, NAPHTHALENE, NAPHTHALENE DERIVATIVE, NITROGEN, ARID ENVIRONMENT, CANOPY, CONCENTRATION [COMPOSITION], DECOMPOSITION, EVAPOTRANSPIRATION, IDENTIFICATION KEY, LIGNIN, LIMITING FACTOR, LITTER, PHOTODEGRADATION, PRECIPITATION [CLIMATOLOGY], SEMIARID REGION, SHRUB, SOIL FAUNA, SOIL MICROORGANISM, SOIL NITROGEN, STEPPE, DRUG EFFECT, METABOLISM, MICROBIOLOGY, PHYSIOLOGY, POACEAE, SOIL, ANIMALS, ARGENTINA, CLIMATE, FUNGICIDES, INDUSTRIAL, INSECTS, NAPHTHALENES, SOIL MICROBIOLOGY, PATAGONIA, FORMICIDAE, ISOPTERA, ,
Online Access:http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46545
Tags: Add Tag
No Tags, Be the first to tag this record!
id KOHA-OAI-AGRO:46545
record_format koha
institution UBA FA
collection Koha
country Argentina
countrycode AR
component Bibliográfico
access En linea
En linea
databasecode cat-ceiba
tag biblioteca
region America del Sur
libraryname Biblioteca Central FAUBA
language eng
topic ARIDLANDS
CARBON TURNOVER
FUNGI
MACRO- AND MESOFAUNA
TERMITES
FUNGICIDE
NAPHTHALENE
NAPHTHALENE DERIVATIVE
NITROGEN
ARID ENVIRONMENT
CANOPY
CONCENTRATION [COMPOSITION]
DECOMPOSITION
EVAPOTRANSPIRATION
IDENTIFICATION KEY
LIGNIN
LIMITING FACTOR
LITTER
PHOTODEGRADATION
PRECIPITATION [CLIMATOLOGY]
SEMIARID REGION
SHRUB
SOIL FAUNA
SOIL MICROORGANISM
SOIL NITROGEN
STEPPE
DRUG EFFECT
METABOLISM
MICROBIOLOGY
PHYSIOLOGY
POACEAE
SOIL
ANIMALS
ARGENTINA
CLIMATE
FUNGICIDES, INDUSTRIAL
INSECTS
NAPHTHALENES
NITROGEN
SOIL MICROBIOLOGY
PATAGONIA
FORMICIDAE
FUNGI
ISOPTERA

ARIDLANDS
CARBON TURNOVER
FUNGI
MACRO- AND MESOFAUNA
TERMITES
FUNGICIDE
NAPHTHALENE
NAPHTHALENE DERIVATIVE
NITROGEN
ARID ENVIRONMENT
CANOPY
CONCENTRATION [COMPOSITION]
DECOMPOSITION
EVAPOTRANSPIRATION
IDENTIFICATION KEY
LIGNIN
LIMITING FACTOR
LITTER
PHOTODEGRADATION
PRECIPITATION [CLIMATOLOGY]
SEMIARID REGION
SHRUB
SOIL FAUNA
SOIL MICROORGANISM
SOIL NITROGEN
STEPPE
DRUG EFFECT
METABOLISM
MICROBIOLOGY
PHYSIOLOGY
POACEAE
SOIL
ANIMALS
ARGENTINA
CLIMATE
FUNGICIDES, INDUSTRIAL
INSECTS
NAPHTHALENES
NITROGEN
SOIL MICROBIOLOGY
PATAGONIA
FORMICIDAE
FUNGI
ISOPTERA
spellingShingle ARIDLANDS
CARBON TURNOVER
FUNGI
MACRO- AND MESOFAUNA
TERMITES
FUNGICIDE
NAPHTHALENE
NAPHTHALENE DERIVATIVE
NITROGEN
ARID ENVIRONMENT
CANOPY
CONCENTRATION [COMPOSITION]
DECOMPOSITION
EVAPOTRANSPIRATION
IDENTIFICATION KEY
LIGNIN
LIMITING FACTOR
LITTER
PHOTODEGRADATION
PRECIPITATION [CLIMATOLOGY]
SEMIARID REGION
SHRUB
SOIL FAUNA
SOIL MICROORGANISM
SOIL NITROGEN
STEPPE
DRUG EFFECT
METABOLISM
MICROBIOLOGY
PHYSIOLOGY
POACEAE
SOIL
ANIMALS
ARGENTINA
CLIMATE
FUNGICIDES, INDUSTRIAL
INSECTS
NAPHTHALENES
NITROGEN
SOIL MICROBIOLOGY
PATAGONIA
FORMICIDAE
FUNGI
ISOPTERA

ARIDLANDS
CARBON TURNOVER
FUNGI
MACRO- AND MESOFAUNA
TERMITES
FUNGICIDE
NAPHTHALENE
NAPHTHALENE DERIVATIVE
NITROGEN
ARID ENVIRONMENT
CANOPY
CONCENTRATION [COMPOSITION]
DECOMPOSITION
EVAPOTRANSPIRATION
IDENTIFICATION KEY
LIGNIN
LIMITING FACTOR
LITTER
PHOTODEGRADATION
PRECIPITATION [CLIMATOLOGY]
SEMIARID REGION
SHRUB
SOIL FAUNA
SOIL MICROORGANISM
SOIL NITROGEN
STEPPE
DRUG EFFECT
METABOLISM
MICROBIOLOGY
PHYSIOLOGY
POACEAE
SOIL
ANIMALS
ARGENTINA
CLIMATE
FUNGICIDES, INDUSTRIAL
INSECTS
NAPHTHALENES
NITROGEN
SOIL MICROBIOLOGY
PATAGONIA
FORMICIDAE
FUNGI
ISOPTERA
Araujo, Patricia Inés
Yahdjian, María Laura
Austin, Amy Theresa
Do soil organisms affect aboveground litter decomposition in the semiarid Patagonian steppe, Argentina?
description Surface litter decomposition in arid and semiarid ecosystems is often faster than predicted by climatic parameters such as annual precipitation or evapotranspiration, or based on standard indices of litter quality such as lignin or nitrogen concentrations. Abiotic photodegradation has been demonstrated to be an important factor controlling aboveground litter decomposition in aridland ecosystems, but soil fauna, particularly macrofauna such as termites and ants, have also been identified as key players affecting litter mass loss in warm deserts. Our objective was to quantify the importance of soil organisms on surface litter decomposition in the Patagonian steppe in the absence of photodegradative effects, to establish the relative importance of soil organisms on rates of mass loss and nitrogen release. We estimated the relative contribution of soil fauna and microbes to litter decomposition of a dominant grass using litterboxes with variable mesh sizes that excluded groups of soil fauna based on size class [10, 2, and 0. 01 mm], which were placed beneath shrub canopies. We also employed chemical repellents [naphthalene and fungicide]. The exclusion of macro- and mesofauna had no effect on litter mass loss over 3 years [P = 0. 36], as litter decomposition was similar in all soil fauna exclusions and naphthalene-treated litter. In contrast, reduction of fungal activity significantly inhibited litter decomposition [P less than 0. 001]. Although soil fauna have been mentioned as a key control of litter decomposition in warm deserts, biogeographic legacies and temperature limitation may constrain the importance of these organisms in temperate aridlands, particularly in the southern hemisphere.
format Texto
topic_facet
ARIDLANDS
CARBON TURNOVER
FUNGI
MACRO- AND MESOFAUNA
TERMITES
FUNGICIDE
NAPHTHALENE
NAPHTHALENE DERIVATIVE
NITROGEN
ARID ENVIRONMENT
CANOPY
CONCENTRATION [COMPOSITION]
DECOMPOSITION
EVAPOTRANSPIRATION
IDENTIFICATION KEY
LIGNIN
LIMITING FACTOR
LITTER
PHOTODEGRADATION
PRECIPITATION [CLIMATOLOGY]
SEMIARID REGION
SHRUB
SOIL FAUNA
SOIL MICROORGANISM
SOIL NITROGEN
STEPPE
DRUG EFFECT
METABOLISM
MICROBIOLOGY
PHYSIOLOGY
POACEAE
SOIL
ANIMALS
ARGENTINA
CLIMATE
FUNGICIDES, INDUSTRIAL
INSECTS
NAPHTHALENES
NITROGEN
SOIL MICROBIOLOGY
PATAGONIA
FORMICIDAE
FUNGI
ISOPTERA
author Araujo, Patricia Inés
Yahdjian, María Laura
Austin, Amy Theresa
author_facet Araujo, Patricia Inés
Yahdjian, María Laura
Austin, Amy Theresa
author_sort Araujo, Patricia Inés
title Do soil organisms affect aboveground litter decomposition in the semiarid Patagonian steppe, Argentina?
title_short Do soil organisms affect aboveground litter decomposition in the semiarid Patagonian steppe, Argentina?
title_full Do soil organisms affect aboveground litter decomposition in the semiarid Patagonian steppe, Argentina?
title_fullStr Do soil organisms affect aboveground litter decomposition in the semiarid Patagonian steppe, Argentina?
title_full_unstemmed Do soil organisms affect aboveground litter decomposition in the semiarid Patagonian steppe, Argentina?
title_sort do soil organisms affect aboveground litter decomposition in the semiarid patagonian steppe, argentina?
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46545
work_keys_str_mv AT araujopatriciaines dosoilorganismsaffectabovegroundlitterdecompositioninthesemiaridpatagoniansteppeargentina
AT yahdjianmarialaura dosoilorganismsaffectabovegroundlitterdecompositioninthesemiaridpatagoniansteppeargentina
AT austinamytheresa dosoilorganismsaffectabovegroundlitterdecompositioninthesemiaridpatagoniansteppeargentina
_version_ 1787218004714455040
spelling KOHA-OAI-AGRO:465452023-11-21T14:28:26Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46545AAGDo soil organisms affect aboveground litter decomposition in the semiarid Patagonian steppe, Argentina?Araujo, Patricia InésYahdjian, María LauraAustin, Amy Theresatextengapplication/pdfSurface litter decomposition in arid and semiarid ecosystems is often faster than predicted by climatic parameters such as annual precipitation or evapotranspiration, or based on standard indices of litter quality such as lignin or nitrogen concentrations. Abiotic photodegradation has been demonstrated to be an important factor controlling aboveground litter decomposition in aridland ecosystems, but soil fauna, particularly macrofauna such as termites and ants, have also been identified as key players affecting litter mass loss in warm deserts. Our objective was to quantify the importance of soil organisms on surface litter decomposition in the Patagonian steppe in the absence of photodegradative effects, to establish the relative importance of soil organisms on rates of mass loss and nitrogen release. We estimated the relative contribution of soil fauna and microbes to litter decomposition of a dominant grass using litterboxes with variable mesh sizes that excluded groups of soil fauna based on size class [10, 2, and 0. 01 mm], which were placed beneath shrub canopies. We also employed chemical repellents [naphthalene and fungicide]. The exclusion of macro- and mesofauna had no effect on litter mass loss over 3 years [P = 0. 36], as litter decomposition was similar in all soil fauna exclusions and naphthalene-treated litter. In contrast, reduction of fungal activity significantly inhibited litter decomposition [P less than 0. 001]. Although soil fauna have been mentioned as a key control of litter decomposition in warm deserts, biogeographic legacies and temperature limitation may constrain the importance of these organisms in temperate aridlands, particularly in the southern hemisphere.Surface litter decomposition in arid and semiarid ecosystems is often faster than predicted by climatic parameters such as annual precipitation or evapotranspiration, or based on standard indices of litter quality such as lignin or nitrogen concentrations. Abiotic photodegradation has been demonstrated to be an important factor controlling aboveground litter decomposition in aridland ecosystems, but soil fauna, particularly macrofauna such as termites and ants, have also been identified as key players affecting litter mass loss in warm deserts. Our objective was to quantify the importance of soil organisms on surface litter decomposition in the Patagonian steppe in the absence of photodegradative effects, to establish the relative importance of soil organisms on rates of mass loss and nitrogen release. We estimated the relative contribution of soil fauna and microbes to litter decomposition of a dominant grass using litterboxes with variable mesh sizes that excluded groups of soil fauna based on size class [10, 2, and 0. 01 mm], which were placed beneath shrub canopies. We also employed chemical repellents [naphthalene and fungicide]. The exclusion of macro- and mesofauna had no effect on litter mass loss over 3 years [P = 0. 36], as litter decomposition was similar in all soil fauna exclusions and naphthalene-treated litter. In contrast, reduction of fungal activity significantly inhibited litter decomposition [P less than 0. 001]. Although soil fauna have been mentioned as a key control of litter decomposition in warm deserts, biogeographic legacies and temperature limitation may constrain the importance of these organisms in temperate aridlands, particularly in the southern hemisphere.ARIDLANDSCARBON TURNOVERFUNGIMACRO- AND MESOFAUNATERMITESFUNGICIDENAPHTHALENENAPHTHALENE DERIVATIVENITROGENARID ENVIRONMENTCANOPYCONCENTRATION [COMPOSITION]DECOMPOSITIONEVAPOTRANSPIRATIONIDENTIFICATION KEYLIGNINLIMITING FACTORLITTERPHOTODEGRADATIONPRECIPITATION [CLIMATOLOGY]SEMIARID REGIONSHRUBSOIL FAUNASOIL MICROORGANISMSOIL NITROGENSTEPPEDRUG EFFECTMETABOLISMMICROBIOLOGYPHYSIOLOGYPOACEAESOILANIMALSARGENTINACLIMATEFUNGICIDES, INDUSTRIALINSECTSNAPHTHALENESNITROGENSOIL MICROBIOLOGYPATAGONIAFORMICIDAEFUNGIISOPTERAOecologia

Similar Items