The small scale spatial pattern of C3 and C4 grasses depends on shrub distribution

The small scale spatial pattern of C3 and C4 grasses depends on shrub distribution

Abstract: At micro-site scale, the spatial pattern of a plant species depends on several factors including interactions with neighbours. It has been seen that unfavourable effects generate a negative association between plants, while beneficial effects generate a positive association. In grasslands, the presence of shrubby species promotes a particular microenvironment beneath their canopy that could affect differently the spatial distribution of plants with different tolerance to abiotic conditions. We measured photosynthetic active radiation, air temperature and wind speed under shrub canopies and in adjacent open sites and analysed the spatial distribution of four grass species [two C3 and two C4] in relation to shrub canopy in a grazed sub-humid natural grassland in southern Uruguay. Radiation, air temperature and wind speed were lower under shrubs than in adjacent open sites. The spatial distribution of grasses relative to the shrub canopy varied depending on the photosynthetic metabolism of grasses. C4 grasses showed a negative association or no correlation with the shrubs, whereas C3 grasses showed a positive association. Our results highlight the importance of the photosynthetic metabolism of the grasses in the final outcome of interactions between grasses and shrubs. Micro-environmental conditions generated underneath shrubs create a more suitable site for the establishment of C3 than for C4 grasses. These results show that facilitation could be more important than previously thought in sub-humid grasslands.

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Main Authors: Fernández, Gastón, Texeira, Marcos, Altesor, Alice
Format: Texto biblioteca
Language:spa
Subjects:AIR TEMPERATURE, C3 PLANT, C4 PLANT, CANOPY ARCHITECTURE, FACILITATION, GRASS, GRASSLAND, NEGATIVE INTERACTIONS, PHOTOSYNTHETICALLY ACTIVE RADIATION, POACEAE, POSITIVE INTERACTIONS, SHRUB, SHRUBS, SOUTH AMERICA, SPATIAL DISTRIBUTION, SUB-HUMID GRASSLAND, URUGUAY, VEGETATION STRUCTURE, WIND VELOCITY,
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spelling KOHA-OAI-AGRO:470782023-05-16T09:50:58Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=47078http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=AAGThe small scale spatial pattern of C3 and C4 grasses depends on shrub distributionFernández, GastónTexeira, MarcosAltesor, Alicetextspaapplication/pdfAbstract: At micro-site scale, the spatial pattern of a plant species depends on several factors including interactions with neighbours. It has been seen that unfavourable effects generate a negative association between plants, while beneficial effects generate a positive association. In grasslands, the presence of shrubby species promotes a particular microenvironment beneath their canopy that could affect differently the spatial distribution of plants with different tolerance to abiotic conditions. We measured photosynthetic active radiation, air temperature and wind speed under shrub canopies and in adjacent open sites and analysed the spatial distribution of four grass species [two C3 and two C4] in relation to shrub canopy in a grazed sub-humid natural grassland in southern Uruguay. Radiation, air temperature and wind speed were lower under shrubs than in adjacent open sites. The spatial distribution of grasses relative to the shrub canopy varied depending on the photosynthetic metabolism of grasses. C4 grasses showed a negative association or no correlation with the shrubs, whereas C3 grasses showed a positive association. Our results highlight the importance of the photosynthetic metabolism of the grasses in the final outcome of interactions between grasses and shrubs. Micro-environmental conditions generated underneath shrubs create a more suitable site for the establishment of C3 than for C4 grasses. These results show that facilitation could be more important than previously thought in sub-humid grasslands.Abstract: At micro-site scale, the spatial pattern of a plant species depends on several factors including interactions with neighbours. It has been seen that unfavourable effects generate a negative association between plants, while beneficial effects generate a positive association. In grasslands, the presence of shrubby species promotes a particular microenvironment beneath their canopy that could affect differently the spatial distribution of plants with different tolerance to abiotic conditions. We measured photosynthetic active radiation, air temperature and wind speed under shrub canopies and in adjacent open sites and analysed the spatial distribution of four grass species [two C3 and two C4] in relation to shrub canopy in a grazed sub-humid natural grassland in southern Uruguay. Radiation, air temperature and wind speed were lower under shrubs than in adjacent open sites. The spatial distribution of grasses relative to the shrub canopy varied depending on the photosynthetic metabolism of grasses. C4 grasses showed a negative association or no correlation with the shrubs, whereas C3 grasses showed a positive association. Our results highlight the importance of the photosynthetic metabolism of the grasses in the final outcome of interactions between grasses and shrubs. Micro-environmental conditions generated underneath shrubs create a more suitable site for the establishment of C3 than for C4 grasses. These results show that facilitation could be more important than previously thought in sub-humid grasslands.AIR TEMPERATUREC3 PLANTC4 PLANTCANOPY ARCHITECTUREFACILITATIONGRASSGRASSLANDNEGATIVE INTERACTIONSPHOTOSYNTHETICALLY ACTIVE RADIATIONPOACEAEPOSITIVE INTERACTIONSSHRUBSHRUBSSOUTH AMERICASPATIAL DISTRIBUTIONSUB-HUMID GRASSLANDURUGUAYVEGETATION STRUCTUREWIND VELOCITYAustral Ecology : a journal of ecology in the southern hemisphere
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 spa
topic AIR TEMPERATURE
C3 PLANT
C4 PLANT
CANOPY ARCHITECTURE
FACILITATION
GRASS
GRASSLAND
NEGATIVE INTERACTIONS
PHOTOSYNTHETICALLY ACTIVE RADIATION
POACEAE
POSITIVE INTERACTIONS
SHRUB
SHRUBS
SOUTH AMERICA
SPATIAL DISTRIBUTION
SUB-HUMID GRASSLAND
URUGUAY
VEGETATION STRUCTURE
WIND VELOCITY
AIR TEMPERATURE
C3 PLANT
C4 PLANT
CANOPY ARCHITECTURE
FACILITATION
GRASS
GRASSLAND
NEGATIVE INTERACTIONS
PHOTOSYNTHETICALLY ACTIVE RADIATION
POACEAE
POSITIVE INTERACTIONS
SHRUB
SHRUBS
SOUTH AMERICA
SPATIAL DISTRIBUTION
SUB-HUMID GRASSLAND
URUGUAY
VEGETATION STRUCTURE
WIND VELOCITY
spellingShingle AIR TEMPERATURE
C3 PLANT
C4 PLANT
CANOPY ARCHITECTURE
FACILITATION
GRASS
GRASSLAND
NEGATIVE INTERACTIONS
PHOTOSYNTHETICALLY ACTIVE RADIATION
POACEAE
POSITIVE INTERACTIONS
SHRUB
SHRUBS
SOUTH AMERICA
SPATIAL DISTRIBUTION
SUB-HUMID GRASSLAND
URUGUAY
VEGETATION STRUCTURE
WIND VELOCITY
AIR TEMPERATURE
C3 PLANT
C4 PLANT
CANOPY ARCHITECTURE
FACILITATION
GRASS
GRASSLAND
NEGATIVE INTERACTIONS
PHOTOSYNTHETICALLY ACTIVE RADIATION
POACEAE
POSITIVE INTERACTIONS
SHRUB
SHRUBS
SOUTH AMERICA
SPATIAL DISTRIBUTION
SUB-HUMID GRASSLAND
URUGUAY
VEGETATION STRUCTURE
WIND VELOCITY
Fernández, Gastón
Texeira, Marcos
Altesor, Alice
The small scale spatial pattern of C3 and C4 grasses depends on shrub distribution
description Abstract: At micro-site scale, the spatial pattern of a plant species depends on several factors including interactions with neighbours. It has been seen that unfavourable effects generate a negative association between plants, while beneficial effects generate a positive association. In grasslands, the presence of shrubby species promotes a particular microenvironment beneath their canopy that could affect differently the spatial distribution of plants with different tolerance to abiotic conditions. We measured photosynthetic active radiation, air temperature and wind speed under shrub canopies and in adjacent open sites and analysed the spatial distribution of four grass species [two C3 and two C4] in relation to shrub canopy in a grazed sub-humid natural grassland in southern Uruguay. Radiation, air temperature and wind speed were lower under shrubs than in adjacent open sites. The spatial distribution of grasses relative to the shrub canopy varied depending on the photosynthetic metabolism of grasses. C4 grasses showed a negative association or no correlation with the shrubs, whereas C3 grasses showed a positive association. Our results highlight the importance of the photosynthetic metabolism of the grasses in the final outcome of interactions between grasses and shrubs. Micro-environmental conditions generated underneath shrubs create a more suitable site for the establishment of C3 than for C4 grasses. These results show that facilitation could be more important than previously thought in sub-humid grasslands.
format Texto
topic_facet AIR TEMPERATURE
C3 PLANT
C4 PLANT
CANOPY ARCHITECTURE
FACILITATION
GRASS
GRASSLAND
NEGATIVE INTERACTIONS
PHOTOSYNTHETICALLY ACTIVE RADIATION
POACEAE
POSITIVE INTERACTIONS
SHRUB
SHRUBS
SOUTH AMERICA
SPATIAL DISTRIBUTION
SUB-HUMID GRASSLAND
URUGUAY
VEGETATION STRUCTURE
WIND VELOCITY
author Fernández, Gastón
Texeira, Marcos
Altesor, Alice
author_facet Fernández, Gastón
Texeira, Marcos
Altesor, Alice
author_sort Fernández, Gastón
title The small scale spatial pattern of C3 and C4 grasses depends on shrub distribution
title_short The small scale spatial pattern of C3 and C4 grasses depends on shrub distribution
title_full The small scale spatial pattern of C3 and C4 grasses depends on shrub distribution
title_fullStr The small scale spatial pattern of C3 and C4 grasses depends on shrub distribution
title_full_unstemmed The small scale spatial pattern of C3 and C4 grasses depends on shrub distribution
title_sort small scale spatial pattern of c3 and c4 grasses depends on shrub distribution
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=47078
http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=
http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=
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AT texeiramarcos thesmallscalespatialpatternofc3andc4grassesdependsonshrubdistribution
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AT fernandezgaston smallscalespatialpatternofc3andc4grassesdependsonshrubdistribution
AT texeiramarcos smallscalespatialpatternofc3andc4grassesdependsonshrubdistribution
AT altesoralice smallscalespatialpatternofc3andc4grassesdependsonshrubdistribution
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