Journal ArticleDOI
Yield Physiology of Rice
TLDR
The reproductive growth stage is the most sensitive to biotic and abiotic stresses, followed by spikelet filling and vegetative growth stage, and new opportunities for improving rice yield components in favor of higher yield are offered.Abstract:
Rice (Oryza sativa L.) is a staple food for more than 50% of the world's population, including regions of high population density and rapid growth. Rice is produced under both upland and lowland ecosystems with about 76% of the global rice produced from irrigated lowland rice systems. The objective of this article is to discuss growth and formation of yield components in rice during crop growth cycles. The yield components of rice are the number of panicles per unit area, number of spikelets per panicle, weight of spikelet and spikelet sterility or filled spikelet. In addition, shoot dry weight, grain harvest index, and nitrogen (N) harvest index are also positively associated with grain yield. These yield components and yield associated parameters are formed during crop growth cycle. Growth cycle of the rice plant is divided into three stages. These stages are designated as vegetative, reproductive and spikelet filling or ripening. Yield potential of rice is formed or defined during these growth stages. Plant height, tillering (associated with panicle number), root growth, leaf area, and morphology are the main features of vegetative growth stage. In the reproductive growth stage panicle development takes place. Booting and flowering are part of the reproductive growth stage. Panicle size or spikelets per panicle are determined in the reproductive growth stage. Spikelet size or weight is determined during the spikelet filling growth stage. The reproductive growth stage is the most sensitive to biotic and abiotic stresses, followed by spikelet filling and vegetative growth stage. Recent advances in molecular linkage maps of rice and other developments of molecular biology offer new opportunities for improving rice yield components in favor of higher yield.read more
Citations
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Journal ArticleDOI
Grain-filling problem in ‘super’ rice
Jianchang Yang,Jianhua Zhang +1 more
TL;DR: Modern rice (Oryza sativa L.) cultivars, especially the newly bred 'super' rice, have numerous spikelets on a panicle with a large yield capacity, but often fail to achieve their high yield potential due to poor grain-filling of later-flowering inferior spikelets.
Journal ArticleDOI
Crop management techniques to enhance harvest index in rice
Jianchang Yang,Jianhua Zhang +1 more
TL;DR: Several practices such as post-anthesis controlled soil drying, alternate wetting and moderate soil drying regimes during the whole growing season, and non-flooded straw mulching cultivation, could substantially enhance WUE and maintain or even increase grain yield of rice.
Book ChapterDOI
The Role of Mineral Nutrition on Root Growth of Crop Plants
TL;DR: The use of crop species and cultivars tolerant to biotic and abiotic stresses, as well as the use of appropriate cultural practices, can improve plant root system function under favorable and unfavorable environmental conditions.
Journal ArticleDOI
Grain unloading of arsenic species in rice.
Anne-Marie Carey,Kirk G. Scheckel,Enzo Lombi,Enzo Lombi,Matthew Newville,Yongseong Choi,Gareth J. Norton,John M. Charnock,John M. Charnock,Joerg Feldmann,Adam H. Price,Andrew A. Meharg +11 more
TL;DR: DMA is translocated to the rice grain with over an order magnitude greater efficiency than inorganic species and is more mobile than arsenite in both the phloem and the xylem, demonstrating that DMA speciation is altered in planta, potentially through complexation with thiols.
References
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Fundamentals of rice crop science
TL;DR: Yoshida, Shouichi as discussed by the authors, et al. 1981.Fundamentals of rice crop science, report,Laguna, PhilippinesInternational Rice Research Institute (IRI),
Book ChapterDOI
A critical evaluation of traits for improving crop yields in water-limited environments.
M.M. Ludlow,R.C. Muchow +1 more
TL;DR: This chapter describes the components of yield and the determinants of survival against which the proposed and demonstrated contributions by traits are critically assessed and presents simulation models, which are very powerful tools for critically assessing the value of putative traits.
Book ChapterDOI
Enhancing nitrogen use efficiency in crop plants
TL;DR: In this article, the authors discuss N dynamics in soil plant systems, and outline management options for enhancing N use by annual crops, including livestock production with cropping, to improve N efficiency in agriculture.
Journal ArticleDOI
Leaf Nitrogen, Photosynthesis, and Crop Radiation Use Efficiency: A Review
Thomas R. Sinclair,Takeshi Horie +1 more
TL;DR: Three crop species were considered and a relationship was developed predicting crop radiation use efficiency for each of the crops as a function of both leaf CO 2 assimilation rate and leaf N content.
Book ChapterDOI
The Biological Yield and Harvest Index of Cereals as Agronomic and Plant Breeding Criteria
C.M. Donald,John Hamblin +1 more
TL;DR: The chapter examines the interaction of biological yield, grain yield, and harvest index with plant density and the situation in which a number of varieties have precisely the same biological yield but different grain yields is graphically presented.
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