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Growth and physiological response of canola (Brassica napus L.) tointeractive effect of temperature, moisture and nitrogen stressesunder controlled environment

Indian Agricultural Research Journals

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Title Growth and physiological response of canola (Brassica napus L.) tointeractive effect of temperature, moisture and nitrogen stressesunder controlled environment
 
Creator M R UMESH
GURBIR SINGH
KRISHNA REDDY
GURPREET KAUR
BHUPINDER SINGH
P SREENIVAS
 
Subject Moisture and nitrogen stresses
 
Description Present atmospheric limits growth of C3 crop plants, which show response to elevated CO2 via reduced photorespiration and enhanced photosynthetic rates thereby increased growth and yield. Global research on plant responses to raising atmospheric CO2 has primarily focused on C3 species, advancing our understanding of processes underlying C3 plant acclimation and response. Therefore extensive research has been conducted to project the potential impacts of global warming on agriculture productivity through laboratory by using crop and global climate models. Canola is one of the world’s most important oilseed crops and the most profitable commodity for Canadian farmers. As a C3 cool seasoncrop, it is more susceptible to heat stress than other C3 and C4 field crops (Wu and Ma, 2018). High temperature significantly changes the rate of plant metabolic processes that ultimately reduces biomass accumulation and grainformation. A field study in Eastern Canada reported that seed yield reduced as much as 40% in 2012 due to severeheat and drought stress over normal years (Ma and Herath, 2016). High or warm temperature has been shown toinduce the floral sterility or pollen abortion and shorten seed filling duration and subsequently reduce inflorescence size in canola plants. Even high temperature could alter the partitioning of photoassimilates to roots and suppress root growth extension or change root system architecture. Late seeded canola plants often produced a smaller root system, due to higher temperature and or drought stress encounters during the crop development. Keeping these facts trial was conducted under controlled condition to know the response of canola to drought stress, elevated CO2 and temperature. 
 
Publisher Indian Society of Oilseeds Research
 
Date 2023-12-14
 
Type info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
Peer-reviewed Article
 
Format application/pdf
 
Identifier https://epubs.icar.org.in/index.php/JOR/article/view/146397
10.56739/5fxsvn54
 
Source Journal of Oilseeds Research; Vol. 40 No. Specialissue (2023): Journal of Oilseeds Research
0970-2776
 
Language eng
 
Relation https://epubs.icar.org.in/index.php/JOR/article/view/146397/53383
 
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