Individual and Combined Effects of Booting and Flowering High-Temperature Stress on Rice Biomass Accumulation

Individual and Combined Effects of Booting and Flowering High-Temperature Stress on Rice Biomass Accumulation

Extreme temperature events as a consequence of global climate change result in a significant decline in rice production. A two-year phytotron experiment was conducted using three temperature levels and two heating durations to compare the effects of heat stress at booting, flowering, and combined (b...

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Main Authors: Aqib Mahmood, Wei Wang, Iftikhar Ali, Fengxian Zhen, Raheel Osman, Bing Liu, Leilei Liu, Yan Zhu, Weixing Cao, Liang Tang
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Plants
Subjects:
booting
flowering
multiple high-temperature stress
photosynthetic production
biomass
yield
Online Access:https://www.mdpi.com/2223-7747/10/5/1021
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spelling doaj-e92122d5668a457e9d8e9f494e58fe1d2021-06-01T00:33:03ZengMDPI AGPlants2223-77472021-05-01101021102110.3390/plants10051021Individual and Combined Effects of Booting and Flowering High-Temperature Stress on Rice Biomass AccumulationAqib Mahmood0Wei Wang1Iftikhar Ali2Fengxian Zhen3Raheel Osman4Bing Liu5Leilei Liu6Yan Zhu7Weixing Cao8Liang Tang9National Engineering and Technology Center for Information Agriculture, Nanjing Agricultural University, Nanjing 210095, ChinaNational Engineering and Technology Center for Information Agriculture, Nanjing Agricultural University, Nanjing 210095, ChinaNational Engineering and Technology Center for Information Agriculture, Nanjing Agricultural University, Nanjing 210095, ChinaNational Engineering and Technology Center for Information Agriculture, Nanjing Agricultural University, Nanjing 210095, ChinaNational Engineering and Technology Center for Information Agriculture, Nanjing Agricultural University, Nanjing 210095, ChinaNational Engineering and Technology Center for Information Agriculture, Nanjing Agricultural University, Nanjing 210095, ChinaNational Engineering and Technology Center for Information Agriculture, Nanjing Agricultural University, Nanjing 210095, ChinaNational Engineering and Technology Center for Information Agriculture, Nanjing Agricultural University, Nanjing 210095, ChinaNational Engineering and Technology Center for Information Agriculture, Nanjing Agricultural University, Nanjing 210095, ChinaNational Engineering and Technology Center for Information Agriculture, Nanjing Agricultural University, Nanjing 210095, ChinaExtreme temperature events as a consequence of global climate change result in a significant decline in rice production. A two-year phytotron experiment was conducted using three temperature levels and two heating durations to compare the effects of heat stress at booting, flowering, and combined (booting + flowering) stages on the production of photosynthates and yield formation. The results showed that high temperature had a significant negative effect on mean net assimilation rate (MNAR), harvest index (HI), and grain yield per plant (YPP), and a significant positive effect under treatment T<sub>3</sub> on mean leaf area index (MLAI) and duration of photosynthesis (DOP), and no significant effect on biomass per plant at maturity (BPP<sub>M</sub>), except at the flowering stage. Negative linear relationships between heat degree days (HDD) and MNAR, HI, and YPP were observed. Conversely, HDD showed positive linear relationships with MLAI and DOP. In addition, BPP<sub>M</sub> also showed a positive relationship with HDD, except at flowering, for both cultivars and Wuyunjing-24 at combined stages. The variation of YPP in both cultivars was mainly attributed to HI compared to BPP<sub>M</sub>. However, for biomass, from the first day of high-temperature treatment to maturity (BPP<sub>T-M</sub>), the main change was caused by MNAR followed by DOP and then MLAI. The projected alleviation effects of multiple heat stress at combined stages compared to single-stage heat stress would help to understand and evaluate rice yield formation and screening of heat-tolerant rice cultivars under current scenarios of high temperature during the rice-growing season.https://www.mdpi.com/2223-7747/10/5/1021bootingfloweringmultiple high-temperature stressphotosynthetic productionbiomassyield
collection DOAJ
language English
format Article
sources DOAJ
author Aqib Mahmood
Wei Wang
Iftikhar Ali
Fengxian Zhen
Raheel Osman
Bing Liu
Leilei Liu
Yan Zhu
Weixing Cao
Liang Tang
spellingShingle Aqib Mahmood
Wei Wang
Iftikhar Ali
Fengxian Zhen
Raheel Osman
Bing Liu
Leilei Liu
Yan Zhu
Weixing Cao
Liang Tang
Individual and Combined Effects of Booting and Flowering High-Temperature Stress on Rice Biomass Accumulation
Plants
booting
flowering
multiple high-temperature stress
photosynthetic production
biomass
yield
author_facet Aqib Mahmood
Wei Wang
Iftikhar Ali
Fengxian Zhen
Raheel Osman
Bing Liu
Leilei Liu
Yan Zhu
Weixing Cao
Liang Tang
author_sort Aqib Mahmood
title Individual and Combined Effects of Booting and Flowering High-Temperature Stress on Rice Biomass Accumulation
title_short Individual and Combined Effects of Booting and Flowering High-Temperature Stress on Rice Biomass Accumulation
title_full Individual and Combined Effects of Booting and Flowering High-Temperature Stress on Rice Biomass Accumulation
title_fullStr Individual and Combined Effects of Booting and Flowering High-Temperature Stress on Rice Biomass Accumulation
title_full_unstemmed Individual and Combined Effects of Booting and Flowering High-Temperature Stress on Rice Biomass Accumulation
title_sort individual and combined effects of booting and flowering high-temperature stress on rice biomass accumulation
publisher MDPI AG
series Plants
issn 2223-7747
publishDate 2021-05-01
description Extreme temperature events as a consequence of global climate change result in a significant decline in rice production. A two-year phytotron experiment was conducted using three temperature levels and two heating durations to compare the effects of heat stress at booting, flowering, and combined (booting + flowering) stages on the production of photosynthates and yield formation. The results showed that high temperature had a significant negative effect on mean net assimilation rate (MNAR), harvest index (HI), and grain yield per plant (YPP), and a significant positive effect under treatment T<sub>3</sub> on mean leaf area index (MLAI) and duration of photosynthesis (DOP), and no significant effect on biomass per plant at maturity (BPP<sub>M</sub>), except at the flowering stage. Negative linear relationships between heat degree days (HDD) and MNAR, HI, and YPP were observed. Conversely, HDD showed positive linear relationships with MLAI and DOP. In addition, BPP<sub>M</sub> also showed a positive relationship with HDD, except at flowering, for both cultivars and Wuyunjing-24 at combined stages. The variation of YPP in both cultivars was mainly attributed to HI compared to BPP<sub>M</sub>. However, for biomass, from the first day of high-temperature treatment to maturity (BPP<sub>T-M</sub>), the main change was caused by MNAR followed by DOP and then MLAI. The projected alleviation effects of multiple heat stress at combined stages compared to single-stage heat stress would help to understand and evaluate rice yield formation and screening of heat-tolerant rice cultivars under current scenarios of high temperature during the rice-growing season.
topic booting
flowering
multiple high-temperature stress
photosynthetic production
biomass
yield
url https://www.mdpi.com/2223-7747/10/5/1021
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