Carbon balance, partitioning and photosynthetic acclimation in fruit-bearing grapevine (Vitis vinifera L. cv. Tempranillo) grown under simulated climate change (elevated CO2, elevated temperature and moderate drought) scenarios in temperature gradient

Although plant performance under elevated CO2 has been extensively studied in the past little is known about photosynthetic performance changing simultaneously CO2, water availability and temperature conditions. Moreover, despite of its relevancy in crop responsiveness to elevated CO2 conditions, pl...

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Autores: Morales, F. (Fermin)|||/items/a2b273a3-b8b3-49ae-b578-8fbbc20dc22b, Araus, J.L. (José Luis)|||/items/7812a9e1-da59-4fad-a732-41e63a7e2c4d, Irigoyen-Iparrea, J.J. (Juan Jose)|||/items/8ef56456-59a7-4eba-b376-37328752e352, Sanchez-Diaz, M. (Manuel)|||/items/2f6c4b7b-a737-4d01-83c3-f311de625562, Aguirreolea, J. (Jone)|||/items/94e68804-a4cc-43aa-85d7-dae6eb4700f0, Sanz-Saez, A. (Álvaro)|||/items/03e1bcf3-16ca-4296-a300-7a0702a469e0, Erice, G. (Gorka)|||/items/de4b61ae-38cc-4df0-8b18-6c86bd4cbd03, Pascual-Elizalde, I. (Inmaculada)|||/items/157d711d-67a5-463d-8743-0ad7ee50b3dc, Aranjuelo, I. (Iker)|||/items/0b4d2aa2-f67b-4c8a-aca2-0cb34b171630, Salazar-Parra, C. (Carolina)|||/items/d289f818-fc64-4e7c-ab3f-ac50e3551c45
Tipo de recurso: artículo
Fecha de publicación:2015
País:España
Institución:Universidad de Navarra
Repositorio:Dadun. Depósito Académico Digital de la Universidad de Navarra
Idioma:inglés
OAI Identifier:oai:dadun.unav.edu:10171/37381
Acceso en línea:https://hdl.handle.net/10171/37381
Access Level:acceso abierto
Palabra clave:Grapevine
Carbon balance
Climate change
Photosynthesis
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spelling Carbon balance, partitioning and photosynthetic acclimation in fruit-bearing grapevine (Vitis vinifera L. cv. Tempranillo) grown under simulated climate change (elevated CO2, elevated temperature and moderate drought) scenarios in temperature gradientMorales, F. (Fermin)|||/items/a2b273a3-b8b3-49ae-b578-8fbbc20dc22bAraus, J.L. (José Luis)|||/items/7812a9e1-da59-4fad-a732-41e63a7e2c4dIrigoyen-Iparrea, J.J. (Juan Jose)|||/items/8ef56456-59a7-4eba-b376-37328752e352Sanchez-Diaz, M. (Manuel)|||/items/2f6c4b7b-a737-4d01-83c3-f311de625562Aguirreolea, J. (Jone)|||/items/94e68804-a4cc-43aa-85d7-dae6eb4700f0Sanz-Saez, A. (Álvaro)|||/items/03e1bcf3-16ca-4296-a300-7a0702a469e0Erice, G. (Gorka)|||/items/de4b61ae-38cc-4df0-8b18-6c86bd4cbd03Pascual-Elizalde, I. (Inmaculada)|||/items/157d711d-67a5-463d-8743-0ad7ee50b3dcAranjuelo, I. (Iker)|||/items/0b4d2aa2-f67b-4c8a-aca2-0cb34b171630Salazar-Parra, C. (Carolina)|||/items/d289f818-fc64-4e7c-ab3f-ac50e3551c45GrapevineCarbon balanceClimate changePhotosynthesisAlthough plant performance under elevated CO2 has been extensively studied in the past little is known about photosynthetic performance changing simultaneously CO2, water availability and temperature conditions. Moreover, despite of its relevancy in crop responsiveness to elevated CO2 conditions, plant level C balance is a topic that, comparatively, has received little attention. In order to test responsiveness of grapevine photosynthetic apparatus to predicted climate change conditions, grapevine (Vitis vinifera L. cv. Tempranillo) fruit-bearing cuttings were exposed to different CO2 (elevated, 700 ppm vs. ambient, ca. 400 ppm), temperature (ambient vs. elevated, ambient +4 °C) and irrigation levels (partial vs. full irrigation). Carbon balance was followed monitoring net photosynthesis (AN, C gain), respiration (RD) and photorespiration (RL) (C losses). Modification of environment 13C isotopic composition (δ13C) under elevated CO2 (from −10.30 to −24.93‰) enabled the further characterization of C partitioning into roots, cuttings, shoots, petioles, leaves, rachides and berries. Irrespective of irrigation level and temperature, exposure to elevated CO2 induced photosynthetic acclimation of plants. C/N imbalance reflected the inability of plants grown at 700 ppm CO2 to develop strong C sinks. Partitioning of labeled C to storage organs (main stem and roots) did not avoid accumulation of labeled photoassimilates in leaves, affecting negatively Rubisco carboxylation activity. The study also revealed that, after 20 days of treatment, no oxidative damage to chlorophylls or carotenoids was observed, suggesting a protective role of CO2 either at current or elevated temperatures against the adverse effect of water stress.Dadun. Depósito Académico Digital Universidad de Navarra20152015-01-2920152015-01-0120152015-01-01journal articlehttp://purl.org/coar/resource_type/c_6501info:eu-repo/semantics/articleapplication/pdfhttps://hdl.handle.net/10171/37381reponame:Dadun. Depósito Académico Digital de la Universidad de Navarrainstname:Universidad de NavarraInglésengopen accesshttp://purl.org/coar/access_right/c_abf2info:eu-repo/semantics/openAccessoai:dadun.unav.edu:10171/373812026-06-21T12:47:57Z
dc.title.none.fl_str_mv Carbon balance, partitioning and photosynthetic acclimation in fruit-bearing grapevine (Vitis vinifera L. cv. Tempranillo) grown under simulated climate change (elevated CO2, elevated temperature and moderate drought) scenarios in temperature gradient
title Carbon balance, partitioning and photosynthetic acclimation in fruit-bearing grapevine (Vitis vinifera L. cv. Tempranillo) grown under simulated climate change (elevated CO2, elevated temperature and moderate drought) scenarios in temperature gradient
spellingShingle Carbon balance, partitioning and photosynthetic acclimation in fruit-bearing grapevine (Vitis vinifera L. cv. Tempranillo) grown under simulated climate change (elevated CO2, elevated temperature and moderate drought) scenarios in temperature gradient
Morales, F. (Fermin)|||/items/a2b273a3-b8b3-49ae-b578-8fbbc20dc22b
Grapevine
Carbon balance
Climate change
Photosynthesis
title_short Carbon balance, partitioning and photosynthetic acclimation in fruit-bearing grapevine (Vitis vinifera L. cv. Tempranillo) grown under simulated climate change (elevated CO2, elevated temperature and moderate drought) scenarios in temperature gradient
title_full Carbon balance, partitioning and photosynthetic acclimation in fruit-bearing grapevine (Vitis vinifera L. cv. Tempranillo) grown under simulated climate change (elevated CO2, elevated temperature and moderate drought) scenarios in temperature gradient
title_fullStr Carbon balance, partitioning and photosynthetic acclimation in fruit-bearing grapevine (Vitis vinifera L. cv. Tempranillo) grown under simulated climate change (elevated CO2, elevated temperature and moderate drought) scenarios in temperature gradient
title_full_unstemmed Carbon balance, partitioning and photosynthetic acclimation in fruit-bearing grapevine (Vitis vinifera L. cv. Tempranillo) grown under simulated climate change (elevated CO2, elevated temperature and moderate drought) scenarios in temperature gradient
title_sort Carbon balance, partitioning and photosynthetic acclimation in fruit-bearing grapevine (Vitis vinifera L. cv. Tempranillo) grown under simulated climate change (elevated CO2, elevated temperature and moderate drought) scenarios in temperature gradient
dc.creator.none.fl_str_mv Morales, F. (Fermin)|||/items/a2b273a3-b8b3-49ae-b578-8fbbc20dc22b
Araus, J.L. (José Luis)|||/items/7812a9e1-da59-4fad-a732-41e63a7e2c4d
Irigoyen-Iparrea, J.J. (Juan Jose)|||/items/8ef56456-59a7-4eba-b376-37328752e352
Sanchez-Diaz, M. (Manuel)|||/items/2f6c4b7b-a737-4d01-83c3-f311de625562
Aguirreolea, J. (Jone)|||/items/94e68804-a4cc-43aa-85d7-dae6eb4700f0
Sanz-Saez, A. (Álvaro)|||/items/03e1bcf3-16ca-4296-a300-7a0702a469e0
Erice, G. (Gorka)|||/items/de4b61ae-38cc-4df0-8b18-6c86bd4cbd03
Pascual-Elizalde, I. (Inmaculada)|||/items/157d711d-67a5-463d-8743-0ad7ee50b3dc
Aranjuelo, I. (Iker)|||/items/0b4d2aa2-f67b-4c8a-aca2-0cb34b171630
Salazar-Parra, C. (Carolina)|||/items/d289f818-fc64-4e7c-ab3f-ac50e3551c45
author Morales, F. (Fermin)|||/items/a2b273a3-b8b3-49ae-b578-8fbbc20dc22b
author_facet Morales, F. (Fermin)|||/items/a2b273a3-b8b3-49ae-b578-8fbbc20dc22b
Araus, J.L. (José Luis)|||/items/7812a9e1-da59-4fad-a732-41e63a7e2c4d
Irigoyen-Iparrea, J.J. (Juan Jose)|||/items/8ef56456-59a7-4eba-b376-37328752e352
Sanchez-Diaz, M. (Manuel)|||/items/2f6c4b7b-a737-4d01-83c3-f311de625562
Aguirreolea, J. (Jone)|||/items/94e68804-a4cc-43aa-85d7-dae6eb4700f0
Sanz-Saez, A. (Álvaro)|||/items/03e1bcf3-16ca-4296-a300-7a0702a469e0
Erice, G. (Gorka)|||/items/de4b61ae-38cc-4df0-8b18-6c86bd4cbd03
Pascual-Elizalde, I. (Inmaculada)|||/items/157d711d-67a5-463d-8743-0ad7ee50b3dc
Aranjuelo, I. (Iker)|||/items/0b4d2aa2-f67b-4c8a-aca2-0cb34b171630
Salazar-Parra, C. (Carolina)|||/items/d289f818-fc64-4e7c-ab3f-ac50e3551c45
author_role author
author2 Araus, J.L. (José Luis)|||/items/7812a9e1-da59-4fad-a732-41e63a7e2c4d
Irigoyen-Iparrea, J.J. (Juan Jose)|||/items/8ef56456-59a7-4eba-b376-37328752e352
Sanchez-Diaz, M. (Manuel)|||/items/2f6c4b7b-a737-4d01-83c3-f311de625562
Aguirreolea, J. (Jone)|||/items/94e68804-a4cc-43aa-85d7-dae6eb4700f0
Sanz-Saez, A. (Álvaro)|||/items/03e1bcf3-16ca-4296-a300-7a0702a469e0
Erice, G. (Gorka)|||/items/de4b61ae-38cc-4df0-8b18-6c86bd4cbd03
Pascual-Elizalde, I. (Inmaculada)|||/items/157d711d-67a5-463d-8743-0ad7ee50b3dc
Aranjuelo, I. (Iker)|||/items/0b4d2aa2-f67b-4c8a-aca2-0cb34b171630
Salazar-Parra, C. (Carolina)|||/items/d289f818-fc64-4e7c-ab3f-ac50e3551c45
author2_role author
author
author
author
author
author
author
author
author
dc.contributor.none.fl_str_mv Dadun. Depósito Académico Digital Universidad de Navarra
dc.subject.none.fl_str_mv Grapevine
Carbon balance
Climate change
Photosynthesis
topic Grapevine
Carbon balance
Climate change
Photosynthesis
description Although plant performance under elevated CO2 has been extensively studied in the past little is known about photosynthetic performance changing simultaneously CO2, water availability and temperature conditions. Moreover, despite of its relevancy in crop responsiveness to elevated CO2 conditions, plant level C balance is a topic that, comparatively, has received little attention. In order to test responsiveness of grapevine photosynthetic apparatus to predicted climate change conditions, grapevine (Vitis vinifera L. cv. Tempranillo) fruit-bearing cuttings were exposed to different CO2 (elevated, 700 ppm vs. ambient, ca. 400 ppm), temperature (ambient vs. elevated, ambient +4 °C) and irrigation levels (partial vs. full irrigation). Carbon balance was followed monitoring net photosynthesis (AN, C gain), respiration (RD) and photorespiration (RL) (C losses). Modification of environment 13C isotopic composition (δ13C) under elevated CO2 (from −10.30 to −24.93‰) enabled the further characterization of C partitioning into roots, cuttings, shoots, petioles, leaves, rachides and berries. Irrespective of irrigation level and temperature, exposure to elevated CO2 induced photosynthetic acclimation of plants. C/N imbalance reflected the inability of plants grown at 700 ppm CO2 to develop strong C sinks. Partitioning of labeled C to storage organs (main stem and roots) did not avoid accumulation of labeled photoassimilates in leaves, affecting negatively Rubisco carboxylation activity. The study also revealed that, after 20 days of treatment, no oxidative damage to chlorophylls or carotenoids was observed, suggesting a protective role of CO2 either at current or elevated temperatures against the adverse effect of water stress.
publishDate 2015
dc.date.none.fl_str_mv 2015
2015-01-29
2015
2015-01-01
2015
2015-01-01
dc.type.none.fl_str_mv journal article
http://purl.org/coar/resource_type/c_6501
dc.type.openaire.fl_str_mv info:eu-repo/semantics/article
format article
dc.identifier.none.fl_str_mv https://hdl.handle.net/10171/37381
url https://hdl.handle.net/10171/37381
dc.language.none.fl_str_mv Inglés
eng
language_invalid_str_mv Inglés
language eng
dc.rights.none.fl_str_mv open access
http://purl.org/coar/access_right/c_abf2
dc.rights.openaire.fl_str_mv info:eu-repo/semantics/openAccess
rights_invalid_str_mv open access
http://purl.org/coar/access_right/c_abf2
eu_rights_str_mv openAccess
dc.format.none.fl_str_mv application/pdf
dc.source.none.fl_str_mv reponame:Dadun. Depósito Académico Digital de la Universidad de Navarra
instname:Universidad de Navarra
instname_str Universidad de Navarra
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