Nut crop yield records show that budbreak-based chilling requirements may not reflect yield decline chill thresholds

Warming winters due to climate change may critically affect temperate tree species. Insufficiently cold winters are thought to result in fewer viable flower buds and the subsequent development of fewer fruits or nuts, decreasing the yield of an orchard or fecundity of a species. The best existing ap...

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Veröffentlicht in:	International journal of biometeorology 2015-06, Vol.59 (6), p.707-715
Hauptverfasser:	Pope, Katherine S., Dose, Volker, Da Silva, David, Brown, Patrick H., DeJong, Theodore M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Acclimatization - physiology Accumulation Agricultural production Animal Physiology Biological and Medical Physics Biophysics Climate change Cold Cold Climate Cold Temperature Crop yield Crops, Agricultural - classification Crops, Agricultural - growth & development Earth and Environmental Science Environment Environmental Health Environmental impact Fecundity Life Sciences Meteorology Nuts Nuts - classification Nuts - growth & development Original Paper Physiology Plant biology Plant Physiology Plant Shoots - classification Plant Shoots - growth & development Plant species Species Specificity Tree crops
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container_end_page	715
container_issue	6
container_start_page	707
container_title	International journal of biometeorology
container_volume	59
creator	Pope, Katherine S. Dose, Volker Da Silva, David Brown, Patrick H. DeJong, Theodore M.
description	Warming winters due to climate change may critically affect temperate tree species. Insufficiently cold winters are thought to result in fewer viable flower buds and the subsequent development of fewer fruits or nuts, decreasing the yield of an orchard or fecundity of a species. The best existing approximation for a threshold of sufficient cold accumulation, the “chilling requirement” of a species or variety, has been quantified by manipulating or modeling the conditions that result in dormant bud breaking. However, the physiological processes that affect budbreak are not the same as those that determine yield. This study sought to test whether budbreak-based chilling thresholds can reasonably approximate the thresholds that affect yield, particularly regarding the potential impacts of climate change on temperate tree crop yields. County-wide yield records for almond ( Prunus dulcis ), pistachio ( Pistacia vera ), and walnut ( Juglans regia ) in the Central Valley of California were compared with 50 years of weather records. Bayesian nonparametric function estimation was used to model yield potentials at varying amounts of chill accumulation. In almonds, average yields occurred when chill accumulation was close to the budbreak-based chilling requirement. However, in the other two crops, pistachios and walnuts, the best previous estimate of the budbreak-based chilling requirements was 19–32 % higher than the chilling accumulations associated with average or above average yields. This research indicates that physiological processes beyond requirements for budbreak should be considered when estimating chill accumulation thresholds of yield decline and potential impacts of climate change.
doi_str_mv	10.1007/s00484-014-0881-x
format	Article
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Insufficiently cold winters are thought to result in fewer viable flower buds and the subsequent development of fewer fruits or nuts, decreasing the yield of an orchard or fecundity of a species. The best existing approximation for a threshold of sufficient cold accumulation, the “chilling requirement” of a species or variety, has been quantified by manipulating or modeling the conditions that result in dormant bud breaking. However, the physiological processes that affect budbreak are not the same as those that determine yield. This study sought to test whether budbreak-based chilling thresholds can reasonably approximate the thresholds that affect yield, particularly regarding the potential impacts of climate change on temperate tree crop yields. County-wide yield records for almond ( Prunus dulcis ), pistachio ( Pistacia vera ), and walnut ( Juglans regia ) in the Central Valley of California were compared with 50 years of weather records. Bayesian nonparametric function estimation was used to model yield potentials at varying amounts of chill accumulation. In almonds, average yields occurred when chill accumulation was close to the budbreak-based chilling requirement. However, in the other two crops, pistachios and walnuts, the best previous estimate of the budbreak-based chilling requirements was 19–32 % higher than the chilling accumulations associated with average or above average yields. 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Insufficiently cold winters are thought to result in fewer viable flower buds and the subsequent development of fewer fruits or nuts, decreasing the yield of an orchard or fecundity of a species. The best existing approximation for a threshold of sufficient cold accumulation, the “chilling requirement” of a species or variety, has been quantified by manipulating or modeling the conditions that result in dormant bud breaking. However, the physiological processes that affect budbreak are not the same as those that determine yield. This study sought to test whether budbreak-based chilling thresholds can reasonably approximate the thresholds that affect yield, particularly regarding the potential impacts of climate change on temperate tree crop yields. County-wide yield records for almond ( Prunus dulcis ), pistachio ( Pistacia vera ), and walnut ( Juglans regia ) in the Central Valley of California were compared with 50 years of weather records. Bayesian nonparametric function estimation was used to model yield potentials at varying amounts of chill accumulation. In almonds, average yields occurred when chill accumulation was close to the budbreak-based chilling requirement. However, in the other two crops, pistachios and walnuts, the best previous estimate of the budbreak-based chilling requirements was 19–32 % higher than the chilling accumulations associated with average or above average yields. This research indicates that physiological processes beyond requirements for budbreak should be considered when estimating chill accumulation thresholds of yield decline and potential impacts of climate change.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><pmid>25119825</pmid><doi>10.1007/s00484-014-0881-x</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record>
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subjects	Acclimatization - physiology Accumulation Agricultural production Animal Physiology Biological and Medical Physics Biophysics Climate change Cold Cold Climate Cold Temperature Crop yield Crops, Agricultural - classification Crops, Agricultural - growth & development Earth and Environmental Science Environment Environmental Health Environmental impact Fecundity Life Sciences Meteorology Nuts Nuts - classification Nuts - growth & development Original Paper Physiology Plant biology Plant Physiology Plant Shoots - classification Plant Shoots - growth & development Plant species Species Specificity Tree crops
title	Nut crop yield records show that budbreak-based chilling requirements may not reflect yield decline chill thresholds
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