Resolving the differences in plant burial responses
Identifieur interne : 005053 ( Main/Exploration ); précédent : 005052; suivant : 005054Resolving the differences in plant burial responses
Auteurs : Matthew E. Gilbert [Colombie] ; Brad S. Ripley [Colombie]Source :
- Austral Ecology [ 1442-9985 ] ; 2010-02.
Descripteurs français
- Wicri :
- topic : Biomasse, écologie, Production de masse, Plant.
English descriptors
- KwdEn :
- Allocation shifts, Ammophila, Ammophila breviligulata, Ammophila species, Australia synthesis, Authors journal compilation, Biomass, Biomass allocation, Breviligulata, Burial, Burial depth, Burial depths, Burial height, Burial response, Burial responses, Cakile edentula, Chamaecrista chamaecristoides, Clonal integration, Dech maun, Desert environments, Dune, Dune plants, Dune species, Ecol, Ecological society, Ecology, Enhancement, Experimental burial, Experimental conditions, Experimental procedure, Experimental procedures, Gilbert ripley, Greenhouse, Growth response, Growth responses, Harris davy, Laboratory experiments, Laboratory studies, Lapierre, Largest enhancements, Literature analysis, Literature survey, Little maun, Lower burial depths, Many species, Many studies, Mass fraction, Mass production, Maun, Maun lapierre, Maun perumal, More studies, More work, Nutrient limitation, Perumal, Perumal maun, Photosynthesis, Photosynthesis data, Photosynthetic, Photosynthetic rate, Photosynthetic rates, Plant burial response, Plant growth, Plant height, Plant mass, Plant species, Reproductive tissue, Rhodes university, Salt spray, Sand burial, Seedling, Single points, Sykes, Sykes wilson, Time courses, Total mass, Total mass accumulation, Total plant mass, Unburied, Unburied plants, Unburied treatment, Unburied treatment value, Unburied treatments, Yuan, Zhang.
- Teeft :
- Allocation shifts, Ammophila, Ammophila breviligulata, Ammophila species, Australia synthesis, Authors journal compilation, Biomass, Biomass allocation, Breviligulata, Burial, Burial depth, Burial depths, Burial height, Burial response, Burial responses, Cakile edentula, Chamaecrista chamaecristoides, Clonal integration, Dech maun, Desert environments, Dune, Dune plants, Dune species, Ecol, Ecological society, Ecology, Enhancement, Experimental burial, Experimental conditions, Experimental procedure, Experimental procedures, Gilbert ripley, Greenhouse, Growth response, Growth responses, Harris davy, Laboratory experiments, Laboratory studies, Lapierre, Largest enhancements, Literature analysis, Literature survey, Little maun, Lower burial depths, Many species, Many studies, Mass fraction, Mass production, Maun, Maun lapierre, Maun perumal, More studies, More work, Nutrient limitation, Perumal, Perumal maun, Photosynthesis, Photosynthesis data, Photosynthetic, Photosynthetic rate, Photosynthetic rates, Plant burial response, Plant growth, Plant height, Plant mass, Plant species, Reproductive tissue, Rhodes university, Salt spray, Sand burial, Seedling, Single points, Sykes, Sykes wilson, Time courses, Total mass, Total mass accumulation, Total plant mass, Unburied, Unburied plants, Unburied treatment, Unburied treatment value, Unburied treatments, Yuan, Zhang.
Abstract
Burial is one of the major factors influencing plant ecology in deserts and coastal areas. Consequently, many studies have measured the responses of dune plants to sand burial. However, there remains little agreement about the mechanisms and characteristics constituting the burial response of plants. In particular, stimulation of growth has been reported as the most common plant burial response; however, stimulation has not been reported consistently among studies. Here, a literature survey showed that the depth of burial relative to the height of the plant determined whether the growth of a species was stimulated by burial. Growth stimulation was limited to shallow burial depths, while burial depths greater than the height of the plant consistently resulted in reduced growth. As studies used widely differing burial depths or units of growth measurement, the variation in reported stimulation of plant growth can be partly attributed to differences in experimental procedure. The stimulation of growth in many species was accompanied by an increase in photosynthesis over a limited period and by a shift in biomass allocation from root to shoot. Most plants demonstrated stimulated growth (up to 200%) in response to shallow burial indicating that some burial response mechanisms are general to many species. However, a few specialist dune species displayed a much greater ability to respond to burial (up to 700% stimulation of plant mass). Although allocation shifts and increased photosynthesis have been shown to be associated with dune plant burial response, there remains a need for field measurements that focus on the diversity of mechanisms underlying plant response to burial.
Url:
DOI: 10.1111/j.1442-9993.2009.02011.x
Affiliations:
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type="ISSN">1442-9985</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Allocation shifts</term><term>Ammophila</term><term>Ammophila breviligulata</term><term>Ammophila species</term><term>Australia synthesis</term><term>Authors journal compilation</term><term>Biomass</term><term>Biomass allocation</term><term>Breviligulata</term><term>Burial</term><term>Burial depth</term><term>Burial depths</term><term>Burial height</term><term>Burial response</term><term>Burial responses</term><term>Cakile edentula</term><term>Chamaecrista chamaecristoides</term><term>Clonal integration</term><term>Dech maun</term><term>Desert environments</term><term>Dune</term><term>Dune plants</term><term>Dune species</term><term>Ecol</term><term>Ecological society</term><term>Ecology</term><term>Enhancement</term><term>Experimental burial</term><term>Experimental conditions</term><term>Experimental procedure</term><term>Experimental procedures</term><term>Gilbert ripley</term><term>Greenhouse</term><term>Growth response</term><term>Growth responses</term><term>Harris davy</term><term>Laboratory experiments</term><term>Laboratory studies</term><term>Lapierre</term><term>Largest enhancements</term><term>Literature analysis</term><term>Literature survey</term><term>Little maun</term><term>Lower burial depths</term><term>Many species</term><term>Many studies</term><term>Mass fraction</term><term>Mass production</term><term>Maun</term><term>Maun lapierre</term><term>Maun perumal</term><term>More studies</term><term>More work</term><term>Nutrient limitation</term><term>Perumal</term><term>Perumal maun</term><term>Photosynthesis</term><term>Photosynthesis data</term><term>Photosynthetic</term><term>Photosynthetic rate</term><term>Photosynthetic rates</term><term>Plant burial response</term><term>Plant growth</term><term>Plant height</term><term>Plant mass</term><term>Plant species</term><term>Reproductive tissue</term><term>Rhodes university</term><term>Salt spray</term><term>Sand burial</term><term>Seedling</term><term>Single points</term><term>Sykes</term><term>Sykes wilson</term><term>Time courses</term><term>Total mass</term><term>Total mass accumulation</term><term>Total plant mass</term><term>Unburied</term><term>Unburied plants</term><term>Unburied treatment</term><term>Unburied treatment value</term><term>Unburied treatments</term><term>Yuan</term><term>Zhang</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Allocation shifts</term><term>Ammophila</term><term>Ammophila breviligulata</term><term>Ammophila species</term><term>Australia synthesis</term><term>Authors journal compilation</term><term>Biomass</term><term>Biomass allocation</term><term>Breviligulata</term><term>Burial</term><term>Burial depth</term><term>Burial depths</term><term>Burial height</term><term>Burial response</term><term>Burial responses</term><term>Cakile edentula</term><term>Chamaecrista chamaecristoides</term><term>Clonal integration</term><term>Dech maun</term><term>Desert environments</term><term>Dune</term><term>Dune plants</term><term>Dune species</term><term>Ecol</term><term>Ecological society</term><term>Ecology</term><term>Enhancement</term><term>Experimental burial</term><term>Experimental conditions</term><term>Experimental procedure</term><term>Experimental procedures</term><term>Gilbert ripley</term><term>Greenhouse</term><term>Growth response</term><term>Growth responses</term><term>Harris davy</term><term>Laboratory experiments</term><term>Laboratory studies</term><term>Lapierre</term><term>Largest enhancements</term><term>Literature analysis</term><term>Literature survey</term><term>Little maun</term><term>Lower burial depths</term><term>Many species</term><term>Many studies</term><term>Mass fraction</term><term>Mass production</term><term>Maun</term><term>Maun lapierre</term><term>Maun perumal</term><term>More studies</term><term>More work</term><term>Nutrient limitation</term><term>Perumal</term><term>Perumal maun</term><term>Photosynthesis</term><term>Photosynthesis data</term><term>Photosynthetic</term><term>Photosynthetic rate</term><term>Photosynthetic rates</term><term>Plant burial response</term><term>Plant growth</term><term>Plant height</term><term>Plant mass</term><term>Plant species</term><term>Reproductive tissue</term><term>Rhodes university</term><term>Salt spray</term><term>Sand burial</term><term>Seedling</term><term>Single points</term><term>Sykes</term><term>Sykes wilson</term><term>Time courses</term><term>Total mass</term><term>Total mass accumulation</term><term>Total plant mass</term><term>Unburied</term><term>Unburied plants</term><term>Unburied treatment</term><term>Unburied treatment value</term><term>Unburied treatments</term><term>Yuan</term><term>Zhang</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Biomasse</term><term>écologie</term><term>Production de masse</term><term>Plant</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Burial is one of the major factors influencing plant ecology in deserts and coastal areas. Consequently, many studies have measured the responses of dune plants to sand burial. However, there remains little agreement about the mechanisms and characteristics constituting the burial response of plants. In particular, stimulation of growth has been reported as the most common plant burial response; however, stimulation has not been reported consistently among studies. Here, a literature survey showed that the depth of burial relative to the height of the plant determined whether the growth of a species was stimulated by burial. Growth stimulation was limited to shallow burial depths, while burial depths greater than the height of the plant consistently resulted in reduced growth. As studies used widely differing burial depths or units of growth measurement, the variation in reported stimulation of plant growth can be partly attributed to differences in experimental procedure. The stimulation of growth in many species was accompanied by an increase in photosynthesis over a limited period and by a shift in biomass allocation from root to shoot. Most plants demonstrated stimulated growth (up to 200%) in response to shallow burial indicating that some burial response mechanisms are general to many species. However, a few specialist dune species displayed a much greater ability to respond to burial (up to 700% stimulation of plant mass). Although allocation shifts and increased photosynthesis have been shown to be associated with dune plant burial response, there remains a need for field measurements that focus on the diversity of mechanisms underlying plant response to burial.</div></front></TEI><affiliations><list><country><li>Colombie</li></country></list><tree><country name="Colombie"><noRegion><name sortKey="Gilbert, Matthew E" sort="Gilbert, Matthew E" uniqKey="Gilbert M" first="Matthew E." last="Gilbert">Matthew E. Gilbert</name></noRegion><name sortKey="Ripley, Brad S" sort="Ripley, Brad S" uniqKey="Ripley B" first="Brad S." last="Ripley">Brad S. Ripley</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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