K. S. Singh scite author profile

K. S. Singh

5Publications

93Citation Statements Received

89Citation Statements Given

How they've been cited

129

How they cite others

Affiliations

Chitkara University, Punjab Agricultural University, Washington State University

Publications

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Heat Stress during Flowering Affects Time of Day of Flowering, Seed Set, and Grain Quality in Spring Wheat

et al. 2018

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Flowering in wheat (Triticum aestivum L.) is highly sensitive to heat stress. Eleven spring wheat genotypes were exposed to heat stress (34/16°C, day/night temperature) during flowering to investigate the impact on time of day of flowering, seed set, grain yield, and quality under controlled environment chambers. In general, all 11 wheat genotypes recorded peak flowering during cooler hours of the day (i.e. either early in the morning or late in the evening). The trend was more pronounced under heat stress, providing first evidence of an alternative mechanism (i.e. heat escape in wheat minimizing damage during flowering). On average, significant reduction in net CO2 assimilation (17%), starch (25%), and protein content in grain (21%), seed set (7–19%), kernel weight (11–15%), and grain yield (22–38%), but with 17% increase in flag leaves proline concentration, was recorded under heat stress over control. The negative impact of heat stress on seed set was greater among the primary spikes than for the main spike. This differential impact is mainly attributed to limited plasticity of early reproductive processes such as gametogenesis to escape heat stress, unlike heat escape phenomena observed at flowering. KSG1203 and KSG41 exhibited heat escape strategy, whereas KSG1194 emerged as a true heat‐tolerant line. Systematic characterization of time of day of flowering to introduce the heat escape trait and developing heat tolerance strategies for early reproductive stages in ongoing wheat breeding programs is an ideal strategy to minimize heat stress damage.

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Synthesis of nanocrystalline NiAl over a wide composition range by mechanical alloying

1996

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The paper reports the synthesis of nanocrystalline NiA1 by mechanical alloying of pure metal mixture and a mixture of prealloyed powder with Ni/AI. A large number of compositions have been studied to establish the phase field of NiA1 in the milled state. The phase field of NiAI in the ball milled condition was found to be much wider (10-68at.% Ni) than its equilibrium phase field (45-59 at.% Ni). The metastable equilibrium achieved by mechanical alloying was identical for a given composition irrespective of the starting ingredients. The crystallite size of NiAI reached a minimum (5 rim) at the phase boundary of NiA1/Ni 3 AI.

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Hematological and biochemical studies of stephanofilarial dermatitis in naturally infected cattle of West Bengal, India

Singh

Mukhopadhayay

Ganguly

et al. 2011

Research in Veterinary Science

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Post harvest technology of papaya fruits and it’s value added products-a review

Vikrant¹,

Singh²,

Chandra³

et al. 2019

Prog. Agri.

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Optimization of the process variables for the preparation of processed paneer using response surface methodology

Nanda

Singh

Raina

et al. 2004

European Food Research and Technology

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K. S. Singh

Heat Stress during Flowering Affects Time of Day of Flowering, Seed Set, and Grain Quality in Spring Wheat

Synthesis of nanocrystalline NiAl over a wide composition range by mechanical alloying

Hematological and biochemical studies of stephanofilarial dermatitis in naturally infected cattle of West Bengal, India

Post harvest technology of papaya fruits and it’s value added products-a review

Optimization of the process variables for the preparation of processed paneer using response surface methodology

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