Quantifying the effects of temperature and photoperiod on phenological development to flowering in rice

Quantifying the effects of temperature and photoperiod on phenological development to flowering in rice

Accurate prediction of crop phenology is important not only for modelling purposes but also for crop improvement and management actions. The objective of this study was to develop a model for predicting phenological development to flowering in rice ( Oryza sativa L.).Data from the literature were analysed to evaluate a basic equation for crop development. The Beta function, commonly used as a skewed probability density function in statistics, was found to accurately describe responses of rice development rate to both temperature and photoperiod. Controlled-environment experiments were then conducted for detailed understanding of the physiological basis of photothermal responses of preflowering development in rice. Effects of day and night temperature on development to flowering were found to be different. The plants did not respond to photoperiod throughout the entire preflowering period, instead, the photoperiod- sensitive phase was sandwiched by two photoperiod-insensitive phases. It appeared that responses to both day and night temperature were stronger during the photoperiod-sensitive phase than during the two photoperiod-insensitive phases. The results also indicated that leaf appearance occurring simultaneously during the preflowering development had a different thermal response from that of the development per se .Based on the experimental results, a detailed model for photothermal responses of flowering in rice was developed, using the Beta function. The model, referred to as the three-stage Beta (3s-Beta) model, describes different photothermal responses during the photoperiod-sensitive phase and the photoperiod-insensitive phases of preflowering ontogeny. Using parameter values derived from controlled-environment experiments, the 3s-Beta model adequately predicted rice flowering dates observed in field conditions. It preformed better than several existing models over a wide range of environments.In order to assist new plant type design, the 3s-Beta model was applied to determine optimal preflowering phenological traits of rice for an increased yield potential in three different irrigated environments in Asia.The results of this thesis were discussed in view of the experimental findings, the methodology of phenology modelling and model applications.

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Bibliographic Details
Main Author: Yin, X.
Other Authors: Kropff, M.J.
Format: Doctoral thesis biblioteca
Language:English
Published: Landbouwuniversiteit Wageningen
Subjects:computer simulation, crops, flowering, growth, light, oryza sativa, photoperiod, photoperiodism, rice, shade, simulation, simulation models, bloei, computersimulatie, fotoperiode, fotoperiodiciteit, gewassen, groei, licht, rijst, schaduw, simulatie, simulatiemodellen,
Online Access:https://research.wur.nl/en/publications/quantifying-the-effects-of-temperature-and-photoperiod-on-phenolo
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spelling dig-wur-nl-wurpubs-335772024-10-23 Yin, X. Kropff, M.J. Goudriaan, J. Doctoral thesis Quantifying the effects of temperature and photoperiod on phenological development to flowering in rice 1996 Accurate prediction of crop phenology is important not only for modelling purposes but also for crop improvement and management actions. The objective of this study was to develop a model for predicting phenological development to flowering in rice ( Oryza sativa L.).Data from the literature were analysed to evaluate a basic equation for crop development. The Beta function, commonly used as a skewed probability density function in statistics, was found to accurately describe responses of rice development rate to both temperature and photoperiod. Controlled-environment experiments were then conducted for detailed understanding of the physiological basis of photothermal responses of preflowering development in rice. Effects of day and night temperature on development to flowering were found to be different. The plants did not respond to photoperiod throughout the entire preflowering period, instead, the photoperiod- sensitive phase was sandwiched by two photoperiod-insensitive phases. It appeared that responses to both day and night temperature were stronger during the photoperiod-sensitive phase than during the two photoperiod-insensitive phases. The results also indicated that leaf appearance occurring simultaneously during the preflowering development had a different thermal response from that of the development per se .Based on the experimental results, a detailed model for photothermal responses of flowering in rice was developed, using the Beta function. The model, referred to as the three-stage Beta (3s-Beta) model, describes different photothermal responses during the photoperiod-sensitive phase and the photoperiod-insensitive phases of preflowering ontogeny. Using parameter values derived from controlled-environment experiments, the 3s-Beta model adequately predicted rice flowering dates observed in field conditions. It preformed better than several existing models over a wide range of environments.In order to assist new plant type design, the 3s-Beta model was applied to determine optimal preflowering phenological traits of rice for an increased yield potential in three different irrigated environments in Asia.The results of this thesis were discussed in view of the experimental findings, the methodology of phenology modelling and model applications. en Landbouwuniversiteit Wageningen application/pdf https://research.wur.nl/en/publications/quantifying-the-effects-of-temperature-and-photoperiod-on-phenolo 10.18174/210270 https://edepot.wur.nl/210270 computer simulation crops flowering growth light oryza sativa photoperiod photoperiodism rice shade simulation simulation models bloei computersimulatie fotoperiode fotoperiodiciteit gewassen groei licht oryza sativa rijst schaduw simulatie simulatiemodellen Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic computer simulation
crops
flowering
growth
light
oryza sativa
photoperiod
photoperiodism
rice
shade
simulation
simulation models
bloei
computersimulatie
fotoperiode
fotoperiodiciteit
gewassen
groei
licht
oryza sativa
rijst
schaduw
simulatie
simulatiemodellen
computer simulation
crops
flowering
growth
light
oryza sativa
photoperiod
photoperiodism
rice
shade
simulation
simulation models
bloei
computersimulatie
fotoperiode
fotoperiodiciteit
gewassen
groei
licht
oryza sativa
rijst
schaduw
simulatie
simulatiemodellen
spellingShingle computer simulation
crops
flowering
growth
light
oryza sativa
photoperiod
photoperiodism
rice
shade
simulation
simulation models
bloei
computersimulatie
fotoperiode
fotoperiodiciteit
gewassen
groei
licht
oryza sativa
rijst
schaduw
simulatie
simulatiemodellen
computer simulation
crops
flowering
growth
light
oryza sativa
photoperiod
photoperiodism
rice
shade
simulation
simulation models
bloei
computersimulatie
fotoperiode
fotoperiodiciteit
gewassen
groei
licht
oryza sativa
rijst
schaduw
simulatie
simulatiemodellen
Yin, X.
Quantifying the effects of temperature and photoperiod on phenological development to flowering in rice
description Accurate prediction of crop phenology is important not only for modelling purposes but also for crop improvement and management actions. The objective of this study was to develop a model for predicting phenological development to flowering in rice ( Oryza sativa L.).Data from the literature were analysed to evaluate a basic equation for crop development. The Beta function, commonly used as a skewed probability density function in statistics, was found to accurately describe responses of rice development rate to both temperature and photoperiod. Controlled-environment experiments were then conducted for detailed understanding of the physiological basis of photothermal responses of preflowering development in rice. Effects of day and night temperature on development to flowering were found to be different. The plants did not respond to photoperiod throughout the entire preflowering period, instead, the photoperiod- sensitive phase was sandwiched by two photoperiod-insensitive phases. It appeared that responses to both day and night temperature were stronger during the photoperiod-sensitive phase than during the two photoperiod-insensitive phases. The results also indicated that leaf appearance occurring simultaneously during the preflowering development had a different thermal response from that of the development per se .Based on the experimental results, a detailed model for photothermal responses of flowering in rice was developed, using the Beta function. The model, referred to as the three-stage Beta (3s-Beta) model, describes different photothermal responses during the photoperiod-sensitive phase and the photoperiod-insensitive phases of preflowering ontogeny. Using parameter values derived from controlled-environment experiments, the 3s-Beta model adequately predicted rice flowering dates observed in field conditions. It preformed better than several existing models over a wide range of environments.In order to assist new plant type design, the 3s-Beta model was applied to determine optimal preflowering phenological traits of rice for an increased yield potential in three different irrigated environments in Asia.The results of this thesis were discussed in view of the experimental findings, the methodology of phenology modelling and model applications.
author2 Kropff, M.J.
author_facet Kropff, M.J.
Yin, X.
format Doctoral thesis
topic_facet computer simulation
crops
flowering
growth
light
oryza sativa
photoperiod
photoperiodism
rice
shade
simulation
simulation models
bloei
computersimulatie
fotoperiode
fotoperiodiciteit
gewassen
groei
licht
oryza sativa
rijst
schaduw
simulatie
simulatiemodellen
author Yin, X.
author_sort Yin, X.
title Quantifying the effects of temperature and photoperiod on phenological development to flowering in rice
title_short Quantifying the effects of temperature and photoperiod on phenological development to flowering in rice
title_full Quantifying the effects of temperature and photoperiod on phenological development to flowering in rice
title_fullStr Quantifying the effects of temperature and photoperiod on phenological development to flowering in rice
title_full_unstemmed Quantifying the effects of temperature and photoperiod on phenological development to flowering in rice
title_sort quantifying the effects of temperature and photoperiod on phenological development to flowering in rice
publisher Landbouwuniversiteit Wageningen
url https://research.wur.nl/en/publications/quantifying-the-effects-of-temperature-and-photoperiod-on-phenolo
work_keys_str_mv AT yinx quantifyingtheeffectsoftemperatureandphotoperiodonphenologicaldevelopmenttofloweringinrice
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