Photosynthesis in guar: Recovery from water stress, basic parameter estimates, and intrinsic variation among germplasm

IF 1 Q3 AGRONOMY

Journal of Crop Improvement Pub Date : 2022-09-12 DOI:10.1080/15427528.2022.2121348

Rajan Shrestha, C. Adams

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引用次数: 2

Abstract

ABSTRACT Little is known about the photosynthetic physiology of guar (Cyamopsis tetragonoloba L. Taub), a legume crop, including how photosynthetic parameters intrinsically vary among germplasm and their recovery from water stress. To address this, two greenhouse studies were conducted: Study-1 to compare photosynthetic light response (A N–I) curves and related parameters in three contrasting guar genotypes under optimal and post-water deficit conditions; and Study-2 to quantify photosynthetic parameters in 44 guar genotypes and explore inter-relationships with plant growth parameters. In Study-1, the mean net photosynthetic rate (A N) statistically peaked with 1500 μmol (photons) m −2 s −1, though the maximum A N [33.29 μmol (CO2) m−2 s−1] was modeled to occur with 1950 μmol (photons) m −2 s −1. The light compensation point (I comp), dark respiration rate (R D), and maximum quantum yield (Ф(I 0)) were modeled to be 49.9 μmol (photons) m−2 s−1, 2.62 μmol (CO2) m−2 s−1, and 0.0526 μmol (CO2) μmol −1 (photons), respectively. Photosynthesis in guar was resilient to water stress. Despite reductions in growth, specific leaf area (SLA), and other growth parameters, persistently drought-stressed guar plants, on average, exhibited rapid and full recovery of photosynthetic functions when watered. Genotypes differed in their capacity to recover to some degree. In Study-2, A N differed only between two of the 44 genotypes tested, corresponding to the minimum and maximum A N values. There were no relationships between A N and most plant growth parameters. This finding suggested there is low potential to use point measurements of A N as a selection parameter for increased guar productivity.

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瓜尔豆的光合作用:从水分胁迫中恢复、基本参数估计和种质间的内在变异

瓜尔豆(Cyamopsis tetragonoloba L. Taub)是一种豆科作物，目前对瓜尔豆的光合生理学知之甚少，包括不同种质间光合参数的内在变化及其在水分胁迫下的恢复。为了解决这一问题，进行了两项温室研究:研究1比较了三种不同瓜尔豆基因型在最佳和后亏水条件下的光合光响应(A N-I)曲线和相关参数;和Study-2，量化44个瓜尔豆基因型的光合参数，并探索其与植物生长参数的相互关系。在Study-1中，平均净光合速率(A N)在1500 μmol(光子)m−2 s−1时达到统计峰值，而最大A N [33.29 μmol (CO2) m−2 s−1]在1950 μmol(光子)m−2 s−1时出现。光补偿点(I comp)、暗呼吸速率(R D)和最大量子产率(Ф(I 0))分别为49.9 μmol(光子)m−2 s−1、2.62 μmol (CO2) m−2 s−1和0.0526 μmol (CO2) μmol−1(光子)。瓜尔豆的光合作用对水分胁迫具有弹性。尽管持续干旱胁迫下瓜尔豆的生长、比叶面积(SLA)和其他生长参数有所降低，但平均而言，在浇水后，瓜尔豆的光合功能迅速恢复。基因型在一定程度上恢复能力不同。在Study-2中，测定的44个基因型中，只有2个基因型的氮素存在差异，对应于最小和最大氮素值。氮含量与大部分植物生长参数无显著相关性。这一发现表明，使用氮的点测量作为提高瓜产量的选择参数的潜力很低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Crop Improvement Multiple-

CiteScore

3.30

自引率

7.70%

发文量

期刊介绍： Journal of Crop Science and Biotechnology (JCSB) is a peer-reviewed international journal published four times a year. JCSB publishes novel and advanced original research articles on topics related to the production science of field crops and resource plants, including cropping systems, sustainable agriculture, environmental change, post-harvest management, biodiversity, crop improvement, and recent advances in physiology and molecular biology. Also covered are related subjects in a wide range of sciences such as the ecological and physiological aspects of crop production and genetic, breeding, and biotechnological approaches for crop improvement.