Solar irradiance as the proximate cue for flowering in a tropical moist forest

We compared flowering times predicted by six possible proximate cues involving seasonal changes in rainfall and irradiance and flowering times observed over 30 years of weekly censuses for 19 tree and liana species from Barro Colorado Island (BCI), Panama. Hypotheses concerning variation in the timi...

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Published in	Biotropica Vol. 50; no. 3; pp. 374 - 383
Main Authors	Wright, S. Joseph, Calderón, Osvaldo
Format	Journal Article
Language	English
Published	Hoboken Wiley 01.05.2018 Wiley Subscription Services, Inc
Subjects	Annual variations Barro Colorado Island censuses Cloud cover Convergence Cues Flowering flowering times Forests Intertropical convergence zone Irradiance islands Lianas light intensity moisture availability Panama phenology Rain Rainfall Rainfall intensity Seasonal variation Seasonal variations solar insolation solar radiation SPECIAL SECTION Species Transmissivity trees Tropical climate Tropical forests tropical rain forests Panama
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Abstract	We compared flowering times predicted by six possible proximate cues involving seasonal changes in rainfall and irradiance and flowering times observed over 30 years of weekly censuses for 19 tree and liana species from Barro Colorado Island (BCI), Panama. Hypotheses concerning variation in the timing and intensity of rainfall failed to predict flowering times in any species. In contrast, 10 to 12 weeks of consistent high levels of irradiance predicted flowering times well for eight species, and six or seven weeks of rapidly increasing levels of irradiance predicted flowering times well for two species. None of the six possible proximate cues predicted flowering times adequately for the nine remaining species. We conclude that high and increasing levels of irradiance are the proximate cues for flowering in many BCI species. The seasonal movements of the Intertropical Convergence Zone cause strong seasonal changes in cloud cover, atmospheric transmissivity, and irradiance reaching the BCI forest. Inter-annual variation in the timing of movements of the Intertropical Convergence Zone is the most likely cause of inter-annual variation in the timing of flowering in these species. Much work remains to be done as the physiological mechanisms linking flowering and irradiance are unknown and the proximate cues for flowering remain to be identified for many other BCI species.
AbstractList	We compared flowering times predicted by six possible proximate cues involving seasonal changes in rainfall and irradiance and flowering times observed over 30 years of weekly censuses for 19 tree and liana species from Barro Colorado Island (BCI), Panama. Hypotheses concerning variation in the timing and intensity of rainfall failed to predict flowering times in any species. In contrast, 10 to 12 weeks of consistent high levels of irradiance predicted flowering times well for eight species, and six or seven weeks of rapidly increasing levels of irradiance predicted flowering times well for two species. None of the six possible proximate cues predicted flowering times adequately for the nine remaining species. We conclude that high and increasing levels of irradiance are the proximate cues for flowering in many BCI species. The seasonal movements of the Intertropical Convergence Zone cause strong seasonal changes in cloud cover, atmospheric transmissivity, and irradiance reaching the BCI forest. Inter‐annual variation in the timing of movements of the Intertropical Convergence Zone is the most likely cause of inter‐annual variation in the timing of flowering in these species. Much work remains to be done as the physiological mechanisms linking flowering and irradiance are unknown and the proximate cues for flowering remain to be identified for many other BCI species. We compared flowering times predicted by six possible proximate cues involving seasonal changes in rainfall and irradiance and flowering times observed over 30 years of weekly censuses for 19 tree and liana species from Barro Colorado Island (BCI), Panama. Hypotheses concerning variation in the timing and intensity of rainfall failed to predict flowering times in any species. In contrast, 10 to 12 weeks of consistent high levels of irradiance predicted flowering times well for eight species, and six or seven weeks of rapidly increasing levels of irradiance predicted flowering times well for two species. None of the six possible proximate cues predicted flowering times adequately for the nine remaining species. We conclude that high and increasing levels of irradiance are the proximate cues for flowering in many BCI species. The seasonal movements of the Intertropical Convergence Zone cause strong seasonal changes in cloud cover, atmospheric transmissivity, and irradiance reaching the BCI forest. Inter‐annual variation in the timing of movements of the Intertropical Convergence Zone is the most likely cause of inter‐annual variation in the timing of flowering in these species. Much work remains to be done as the physiological mechanisms linking flowering and irradiance are unknown and the proximate cues for flowering remain to be identified for many other BCI species. Se compararon los tiempos de floración predichos por seis señales proximales posibles con lluvia e irradiación y tiempos de floración observados durante 30 años de censos semanales para 19 especies de árboles y lianas de la Isla Barro Colorado (BCI), Panamá. Las hipótesis relativas a la variación en el tiempo y la intensidad de la precipitación no pudieron predecir los tiempos de floración en ninguna especie. Por el contrario, entre 10 y 12 semanas de consistentes niveles altos de irradiancia pronosticaron buenos tiempos de floración para ocho especies, y seis o siete semanas de niveles de irradiancia de rápido aumento pronosticaron los tiempos de floración para dos especies. Ninguna de las seis señales proximales posibles predijo los tiempos de floración adecuadamente para las nueve especies restantes. Concluimos que niveles altos y crecientes de irradiancia son las señales cercanas para la floración en muchas especies de BCI. Los movimientos estacionales de la zona de convergencia intertropical causan fuertes cambios estacionales en la cobertura de las nubes, la transmisividad atmosférica y la irradiancia alcanzan el bosque de BCI. La variación interanual en el momento de los movimientos de la zona de convergencia intertropical es la causa más probable de la variación interanual en el momento de la floración en estas especies. Todavía queda mucho por hacer, ya que los mecanismos fisiológicos que vinculan la floración y la irradiación son desconocidos y las señales cercanas para la floración aún deben identificarse para muchas otras especies de BCI. We compared flowering times predicted by six possible proximate cues involving seasonal changes in rainfall and irradiance and flowering times observed over 30 years of weekly censuses for 19 tree and liana species from Barro Colorado Island (BCI), Panama. Hypotheses concerning variation in the timing and intensity of rainfall failed to predict flowering times in any species. In contrast, 10 to 12 weeks of consistent high levels of irradiance predicted flowering times well for eight species, and six or seven weeks of rapidly increasing levels of irradiance predicted flowering times well for two species. None of the six possible proximate cues predicted flowering times adequately for the nine remaining species. We conclude that high and increasing levels of irradiance are the proximate cues for flowering in many BCI species. The seasonal movements of the Intertropical Convergence Zone cause strong seasonal changes in cloud cover, atmospheric transmissivity, and irradiance reaching the BCI forest. Inter‐annual variation in the timing of movements of the Intertropical Convergence Zone is the most likely cause of inter‐annual variation in the timing of flowering in these species. Much work remains to be done as the physiological mechanisms linking flowering and irradiance are unknown and the proximate cues for flowering remain to be identified for many other BCI species. Resumen Se compararon los tiempos de floración predichos por seis señales proximales posibles con lluvia e irradiación y tiempos de floración observados durante 30 años de censos semanales para 19 especies de árboles y lianas de la Isla Barro Colorado (BCI), Panamá. Las hipótesis relativas a la variación en el tiempo y la intensidad de la precipitación no pudieron predecir los tiempos de floración en ninguna especie. Por el contrario, entre 10 y 12 semanas de consistentes niveles altos de irradiancia pronosticaron buenos tiempos de floración para ocho especies, y seis o siete semanas de niveles de irradiancia de rápido aumento pronosticaron los tiempos de floración para dos especies. Ninguna de las seis señales proximales posibles predijo los tiempos de floración adecuadamente para las nueve especies restantes. Concluimos que niveles altos y crecientes de irradiancia son las señales cercanas para la floración en muchas especies de BCI. Los movimientos estacionales de la zona de convergencia intertropical causan fuertes cambios estacionales en la cobertura de las nubes, la transmisividad atmosférica y la irradiancia alcanzan el bosque de BCI. La variación interanual en el momento de los movimientos de la zona de convergencia intertropical es la causa más probable de la variación interanual en el momento de la floración en estas especies. Todavía queda mucho por hacer, ya que los mecanismos fisiológicos que vinculan la floración y la irradiación son desconocidos y las señales cercanas para la floración aún deben identificarse para muchas otras especies de BCI.
Author	Calderón, Osvaldo Wright, S. Joseph
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Cites_doi	10.1017/S0266467406003890 10.1146/annurev.es.16.110185.000311 10.1007/s00468-009-0364-6 10.2307/2261176 10.1007/s00468-010-0456-3 10.1017/S0014479701001090 10.2307/1939307 10.1111/btp.12522 10.1086/284837 10.1038/1831598a0 10.1146/annurev.es.24.110193.002033 10.1111/j.1461-0248.2005.00851.x 10.1371/journal.pone.0052114 10.2307/2260006 10.1038/ncomms3303 10.1086/285600 10.1890/02-0038 10.1093/oso/9780195096026.001.0001 10.2307/1938945 10.1017/S0266467400007239 10.1111/nph.12981 10.1111/j.1469-8137.2007.02089.x 10.1093/treephys/28.12.1873 10.2307/1937384 10.3732/ajb.93.8.1134
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Copyright	2017. This article is a U.S. Government work and is in the public domain in the USA Copyright © 2018 Association for Tropical Biology and Conservation Inc.
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Snippet	We compared flowering times predicted by six possible proximate cues involving seasonal changes in rainfall and irradiance and flowering times observed over 30... We compared flowering times predicted by six possible proximate cues involving seasonal changes in rainfall and irradiance and flowering times observed over...
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SubjectTerms	Annual variations Barro Colorado Island censuses Cloud cover Convergence Cues Flowering flowering times Forests Intertropical convergence zone Irradiance islands Lianas light intensity moisture availability Panama phenology Rain Rainfall Rainfall intensity Seasonal variation Seasonal variations solar insolation solar radiation SPECIAL SECTION Species Transmissivity trees Tropical climate Tropical forests tropical rain forests
Title	Solar irradiance as the proximate cue for flowering in a tropical moist forest
URI	https://www.jstor.org/stable/48576428 https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fbtp.12522 https://www.proquest.com/docview/2047382054 https://www.proquest.com/docview/2131865840
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