Does land use change alter water and nutrient dynamics of phreatophytic trees in the Central Monte desert?

In the woodlands of the Central Monte desert (Argentina), phreatophyte vegetation is exposed to different levels of disturbance. Livestock and settlement activity produce mainly nutrient inputs and partial vegetation removal, with a consequent reduction on water use by vegetation. We hypothesize tha...

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Detalles Bibliográficos
Publicado: 2016
Materias:
Algarrobo woodlands
disturbed arid land
drought responses
phreatophytes
Prosopis woodlands
tree physiology
water relationships
Balloons
Forestry
Land use
Landforms
Nitrogen
Nutrients
Physiological models
Physiology
Plants (botany)
Soil moisture
Vegetation
Water absorption
Arid lands
Drought response
Phreatophytes
Agriculture
arid region
drought
ecohydrology
ecophysiology
environmental factor
growth response
land use change
nutrient dynamics
physiological response
soil water
tree
woodland
Argentina
Mendoza
Monte Desert
Prosopis
Prosopis flexuosa
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_19360584_v9_n5_p738_Meglioli
http://hdl.handle.net/20.500.12110/paper_19360584_v9_n5_p738_Meglioli
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_19360584_v9_n5_p738_Meglioli
record_format dspace
spelling paper:paper_19360584_v9_n5_p738_Meglioli2023-06-08T16:32:07Z Does land use change alter water and nutrient dynamics of phreatophytic trees in the Central Monte desert? Algarrobo woodlands disturbed arid land drought responses phreatophytes Prosopis woodlands tree physiology water relationships Balloons Forestry Land use Landforms Nitrogen Nutrients Physiological models Physiology Plants (botany) Soil moisture Vegetation Water absorption Algarrobo woodlands Arid lands Drought response Phreatophytes Prosopis woodlands Agriculture arid region drought ecohydrology ecophysiology environmental factor growth response land use change nutrient dynamics physiological response soil water tree woodland Argentina Mendoza Monte Desert Prosopis Prosopis flexuosa In the woodlands of the Central Monte desert (Argentina), phreatophyte vegetation is exposed to different levels of disturbance. Livestock and settlement activity produce mainly nutrient inputs and partial vegetation removal, with a consequent reduction on water use by vegetation. We hypothesize that because of the increased soil water and nutrient resources associated with livestock stations, water stress will be relieved for the remaining Prosopis flexuosa trees, favouring water and nutrient status, and plant growth at the plant scale. The goal of this research was to analyse the physiological responses of P. flexuosa trees that grow in interdune valleys under different land uses, and the changes in relative importance of environmental factors controlling these responses. We compared the ecophysiological responses of adult P. flexuosa trees in two contrasting types of disturbance: disturbed (livestock stations) and relatively undisturbed (control woodlands) stands, in the 2011–2013 growing seasons. Pre-dawn and midday leaf water potential and stomatal conductance were higher in livestock stations than in control woodlands, suggesting a better water status of P. flexuosa in livestock stations. Isotopic composition (lower δ13C, and higher δ15N) and foliar nitrogen concentration (lower C:N ratios) indicated lower water use efficiency and higher nitrogen absorption from the soil in livestock stations. Both growth of new leaves (foliar area) and the length of young branches were higher in the first season for both land uses, but branch length was higher in livestock stations. This is consistent with the idea that vegetation removal and nutrient contribution of settlement activities improved water and nutrient status of remaining vegetation, and modified the relative importance of factors controlling ecophysiological processes. We concluded that physiological responses and vegetative growth of P. flexuosa were not only affected by meteorological conditions (rainfalls, vapour pressure deficit), but also by the ecohydrological changes caused by changes in land use. Copyright © 2015 John Wiley & Sons, Ltd. Copyright © 2015 John Wiley & Sons, Ltd. 2016 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_19360584_v9_n5_p738_Meglioli http://hdl.handle.net/20.500.12110/paper_19360584_v9_n5_p738_Meglioli
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Algarrobo woodlands
disturbed arid land
drought responses
phreatophytes
Prosopis woodlands
tree physiology
water relationships
Balloons
Forestry
Land use
Landforms
Nitrogen
Nutrients
Physiological models
Physiology
Plants (botany)
Soil moisture
Vegetation
Water absorption
Algarrobo woodlands
Arid lands
Drought response
Phreatophytes
Prosopis woodlands
Agriculture
arid region
drought
ecohydrology
ecophysiology
environmental factor
growth response
land use change
nutrient dynamics
physiological response
soil water
tree
woodland
Argentina
Mendoza
Monte Desert
Prosopis
Prosopis flexuosa
spellingShingle Algarrobo woodlands
disturbed arid land
drought responses
phreatophytes
Prosopis woodlands
tree physiology
water relationships
Balloons
Forestry
Land use
Landforms
Nitrogen
Nutrients
Physiological models
Physiology
Plants (botany)
Soil moisture
Vegetation
Water absorption
Algarrobo woodlands
Arid lands
Drought response
Phreatophytes
Prosopis woodlands
Agriculture
arid region
drought
ecohydrology
ecophysiology
environmental factor
growth response
land use change
nutrient dynamics
physiological response
soil water
tree
woodland
Argentina
Mendoza
Monte Desert
Prosopis
Prosopis flexuosa
Does land use change alter water and nutrient dynamics of phreatophytic trees in the Central Monte desert?
topic_facet Algarrobo woodlands
disturbed arid land
drought responses
phreatophytes
Prosopis woodlands
tree physiology
water relationships
Balloons
Forestry
Land use
Landforms
Nitrogen
Nutrients
Physiological models
Physiology
Plants (botany)
Soil moisture
Vegetation
Water absorption
Algarrobo woodlands
Arid lands
Drought response
Phreatophytes
Prosopis woodlands
Agriculture
arid region
drought
ecohydrology
ecophysiology
environmental factor
growth response
land use change
nutrient dynamics
physiological response
soil water
tree
woodland
Argentina
Mendoza
Monte Desert
Prosopis
Prosopis flexuosa
description In the woodlands of the Central Monte desert (Argentina), phreatophyte vegetation is exposed to different levels of disturbance. Livestock and settlement activity produce mainly nutrient inputs and partial vegetation removal, with a consequent reduction on water use by vegetation. We hypothesize that because of the increased soil water and nutrient resources associated with livestock stations, water stress will be relieved for the remaining Prosopis flexuosa trees, favouring water and nutrient status, and plant growth at the plant scale. The goal of this research was to analyse the physiological responses of P. flexuosa trees that grow in interdune valleys under different land uses, and the changes in relative importance of environmental factors controlling these responses. We compared the ecophysiological responses of adult P. flexuosa trees in two contrasting types of disturbance: disturbed (livestock stations) and relatively undisturbed (control woodlands) stands, in the 2011–2013 growing seasons. Pre-dawn and midday leaf water potential and stomatal conductance were higher in livestock stations than in control woodlands, suggesting a better water status of P. flexuosa in livestock stations. Isotopic composition (lower δ13C, and higher δ15N) and foliar nitrogen concentration (lower C:N ratios) indicated lower water use efficiency and higher nitrogen absorption from the soil in livestock stations. Both growth of new leaves (foliar area) and the length of young branches were higher in the first season for both land uses, but branch length was higher in livestock stations. This is consistent with the idea that vegetation removal and nutrient contribution of settlement activities improved water and nutrient status of remaining vegetation, and modified the relative importance of factors controlling ecophysiological processes. We concluded that physiological responses and vegetative growth of P. flexuosa were not only affected by meteorological conditions (rainfalls, vapour pressure deficit), but also by the ecohydrological changes caused by changes in land use. Copyright © 2015 John Wiley & Sons, Ltd. Copyright © 2015 John Wiley & Sons, Ltd.
title Does land use change alter water and nutrient dynamics of phreatophytic trees in the Central Monte desert?
title_short Does land use change alter water and nutrient dynamics of phreatophytic trees in the Central Monte desert?
title_full Does land use change alter water and nutrient dynamics of phreatophytic trees in the Central Monte desert?
title_fullStr Does land use change alter water and nutrient dynamics of phreatophytic trees in the Central Monte desert?
title_full_unstemmed Does land use change alter water and nutrient dynamics of phreatophytic trees in the Central Monte desert?
title_sort does land use change alter water and nutrient dynamics of phreatophytic trees in the central monte desert?
publishDate 2016
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_19360584_v9_n5_p738_Meglioli
http://hdl.handle.net/20.500.12110/paper_19360584_v9_n5_p738_Meglioli
_version_ 1768546419269959680

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