Self/Non-Self Discrimination in Roots

1 Competition usually involves the allocation of limiting resources to non-reproductive functions. Natural selection is expected to favour mechanisms that increase competition with non-self neighbours and limit wasteful competition with self. 2 We used Pisum sativum plants that had two roots and �...

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Veröffentlicht in:	The Journal of ecology 2003-08, Vol.91 (4), p.525-531
Hauptverfasser:	Falik, Omer, Reides, Perla, Gersani, Mordechai, Novoplansky, Ariel
Format:	Artikel
Sprache:	eng
Schlagworte:	allorecognition Animal and plant ecology Animal, plant and microbial ecology Autoecology Biological and medical sciences Botany clonality Cloning competition double plants Ecological competition Ecological genetics Evolution Flowers & plants Fundamental and applied biological sciences. Psychology Human ecology Marine ecology phenotypic plasticity physiological coordination physiological integration Plant ecology Plant genetics Plant roots Plants Plants and fungi roots Social discrimination split roots Studies two‐shoot plants
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container_issue	4
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container_title	The Journal of ecology
container_volume	91
creator	Falik, Omer Reides, Perla Gersani, Mordechai Novoplansky, Ariel
description	1 Competition usually involves the allocation of limiting resources to non-reproductive functions. Natural selection is expected to favour mechanisms that increase competition with non-self neighbours and limit wasteful competition with self. 2 We used Pisum sativum plants that had two roots and 'double plants' with two shoots and two roots that could be either longitudinally separated into two genetically identical but physiologically distinct individuals or left intact. 3 Root development was significantly greater in split-root plants whose neighbours belonged to different plants. Furthermore, root development was relatively greater in the presence of roots of a different plant, regardless of its identity. This discrimination had a vectorial component whereby plants developed more and longer lateral roots towards neighbouring roots of different plants than towards other roots of the same plant. 4 The results thus demonstrate a mechanism of avoiding self-competition that is based on physiological co-ordination among different organs of the same plant rather than on allochemical recognition that depends on genetic differences. 5 The ability to discriminate between self and non-self could be expected to increase resource use efficiency and ecological performance in plants. It could also be expected that tight physiological co-ordination will be selected for between organs of the same plant that have greater probability of being engaged in direct competitive interactions with each other.
doi_str_mv	10.1046/j.1365-2745.2003.00795.x
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Natural selection is expected to favour mechanisms that increase competition with non-self neighbours and limit wasteful competition with self. 2 We used Pisum sativum plants that had two roots and 'double plants' with two shoots and two roots that could be either longitudinally separated into two genetically identical but physiologically distinct individuals or left intact. 3 Root development was significantly greater in split-root plants whose neighbours belonged to different plants. Furthermore, root development was relatively greater in the presence of roots of a different plant, regardless of its identity. This discrimination had a vectorial component whereby plants developed more and longer lateral roots towards neighbouring roots of different plants than towards other roots of the same plant. 4 The results thus demonstrate a mechanism of avoiding self-competition that is based on physiological co-ordination among different organs of the same plant rather than on allochemical recognition that depends on genetic differences. 5 The ability to discriminate between self and non-self could be expected to increase resource use efficiency and ecological performance in plants. It could also be expected that tight physiological co-ordination will be selected for between organs of the same plant that have greater probability of being engaged in direct competitive interactions with each other.</description><identifier>ISSN: 0022-0477</identifier><identifier>EISSN: 1365-2745</identifier><identifier>DOI: 10.1046/j.1365-2745.2003.00795.x</identifier><identifier>CODEN: JECOAB</identifier><language>eng</language><publisher>Oxford, UK: British Ecological Society</publisher><subject>allorecognition ; Animal and plant ecology ; Animal, plant and microbial ecology ; Autoecology ; Biological and medical sciences ; Botany ; clonality ; Cloning ; competition ; double plants ; Ecological competition ; Ecological genetics ; Evolution ; Flowers & plants ; Fundamental and applied biological sciences. Psychology ; Human ecology ; Marine ecology ; phenotypic plasticity ; physiological coordination ; physiological integration ; Plant ecology ; Plant genetics ; Plant roots ; Plants ; Plants and fungi ; roots ; Social discrimination ; split roots ; Studies ; two‐shoot plants</subject><ispartof>The Journal of ecology, 2003-08, Vol.91 (4), p.525-531</ispartof><rights>Copyright 2003 British Ecological Society</rights><rights>2003 INIST-CNRS</rights><rights>Copyright Blackwell Science Ltd. 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Natural selection is expected to favour mechanisms that increase competition with non-self neighbours and limit wasteful competition with self. 2 We used Pisum sativum plants that had two roots and 'double plants' with two shoots and two roots that could be either longitudinally separated into two genetically identical but physiologically distinct individuals or left intact. 3 Root development was significantly greater in split-root plants whose neighbours belonged to different plants. Furthermore, root development was relatively greater in the presence of roots of a different plant, regardless of its identity. This discrimination had a vectorial component whereby plants developed more and longer lateral roots towards neighbouring roots of different plants than towards other roots of the same plant. 4 The results thus demonstrate a mechanism of avoiding self-competition that is based on physiological co-ordination among different organs of the same plant rather than on allochemical recognition that depends on genetic differences. 5 The ability to discriminate between self and non-self could be expected to increase resource use efficiency and ecological performance in plants. It could also be expected that tight physiological co-ordination will be selected for between organs of the same plant that have greater probability of being engaged in direct competitive interactions with each other.</description><subject>allorecognition</subject><subject>Animal and plant ecology</subject><subject>Animal, plant and microbial ecology</subject><subject>Autoecology</subject><subject>Biological and medical sciences</subject><subject>Botany</subject><subject>clonality</subject><subject>Cloning</subject><subject>competition</subject><subject>double plants</subject><subject>Ecological competition</subject><subject>Ecological genetics</subject><subject>Evolution</subject><subject>Flowers & plants</subject><subject>Fundamental and applied biological sciences. 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Natural selection is expected to favour mechanisms that increase competition with non-self neighbours and limit wasteful competition with self. 2 We used Pisum sativum plants that had two roots and 'double plants' with two shoots and two roots that could be either longitudinally separated into two genetically identical but physiologically distinct individuals or left intact. 3 Root development was significantly greater in split-root plants whose neighbours belonged to different plants. Furthermore, root development was relatively greater in the presence of roots of a different plant, regardless of its identity. 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subjects	allorecognition Animal and plant ecology Animal, plant and microbial ecology Autoecology Biological and medical sciences Botany clonality Cloning competition double plants Ecological competition Ecological genetics Evolution Flowers & plants Fundamental and applied biological sciences. Psychology Human ecology Marine ecology phenotypic plasticity physiological coordination physiological integration Plant ecology Plant genetics Plant roots Plants Plants and fungi roots Social discrimination split roots Studies two‐shoot plants
title	Self/Non-Self Discrimination in Roots
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