Krishna S V Jagadish
Overview
Explore the profile of Krishna S V Jagadish including associated specialties, affiliations and a list of published articles.
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Articles
22
Citations
633
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Recent Articles
11.
Peraudeau S, Lafarge T, Roques S, Quinones C, Clement-Vidal A, Ouwerkerk P, et al.
J Exp Bot
. 2015 May;
66(13):3931-44.
PMID: 25954047
Global warming causes night temperature (NT) to increase faster than day temperature in the tropics. According to crop growth models, respiration incurs a loss of 40-60% of photosynthate. The thermal...
12.
Ye C, Tenorio F, Argayoso M, Laza M, Koh H, Redona E, et al.
BMC Genet
. 2015 Apr;
16:41.
PMID: 25895682
Background: Climate change is affecting rice production in many countries. Developing new rice varieties with heat tolerance is an essential way to sustain rice production in future global warming. We...
13.
Li X, Lawas L, Malo R, Glaubitz U, Erban A, Mauleon R, et al.
Plant Cell Environ
. 2015 Apr;
38(10):2171-92.
PMID: 25828772
Heat and drought stress are projected to become major challenges to sustain rice (Oryza sativa L.) yields with global climate change. Both stresses lead to yield losses when they coincide...
14.
Kadam N, Yin X, Bindraban P, Struik P, Jagadish K
Plant Physiol
. 2015 Jan;
167(4):1389-401.
PMID: 25614066
Water scarcity and the increasing severity of water deficit stress are major challenges to sustaining irrigated rice (Oryza sativa) production. Despite the technologies developed to reduce the water requirement, rice...
15.
Hirabayashi H, Sasaki K, Kambe T, Gannaban R, Miras M, Mendioro M, et al.
J Exp Bot
. 2014 Dec;
66(5):1227-36.
PMID: 25534925
A decline in rice (Oryza sativa L.) production caused by heat stress is one of the biggest concerns resulting from future climate change. Rice spikelets are most susceptible to heat...
16.
Tack J, Singh R, Nalley L, Viraktamath B, Krishnamurthy S, Lyman N, et al.
Glob Chang Biol
. 2014 Nov;
21(4):1668-78.
PMID: 25379616
Flooded rice is grown across wide geographic boundaries from as far north as Manchuria and as far south as Uruguay and New South Wales, primarily because of its adaptability across...
17.
Coast O, Murdoch A, Ellis R, Hay F, Jagadish K
Plant Cell Environ
. 2014 Oct;
39(1):26-37.
PMID: 25346255
Resilience of rice cropping systems to potential global climate change will partly depend on the temperature tolerance of pollen germination (PG) and tube growth (PTG). Pollen germination of high temperature-susceptible...
18.
Bahuguna R, Jha J, Pal M, Shah D, Lawas L, Khetarpal S, et al.
Physiol Plant
. 2014 Oct;
154(4):543-59.
PMID: 25302555
The predicted increase in the frequency and magnitude of extreme heat spikes under future climate can reduce rice yields significantly. Rice sensitivity to high temperatures during the reproductive stage is...
19.
Shimono H, Ozaki Y, Jagadish K, Sakai H, Usui Y, Hasegawa T, et al.
Physiol Plant
. 2014 Apr;
152(3):520-8.
PMID: 24697641
Identifying CO(2) responsive genotypes is a major target for enhancing crop productivity under future global elevated atmospheric CO(2) concentration ([CO(2)]). However, [CO(2)]-fumigation facilities are extremely expensive and are not easily...
20.
Lyman N, Jagadish K, Nalley L, Dixon B, Siebenmorgen T
PLoS One
. 2013 Aug;
8(8):e72157.
PMID: 23991056
Future increases in global surface temperature threaten those worldwide who depend on rice production for their livelihoods and food security. Past analyses of high-temperature stress on rice production have focused...