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Michael D. Casler
Great Lakes Bioenergy Research Center
77Publications
21H-index
1,749Citations
Publications 77
Newest
#1Megan Taylor (Purdue University)H-Index: 2
#2Carl-Erik Tornqvist (Great Lakes Bioenergy Research Center)H-Index: 1
Last.Yiwei Jiang (Purdue University)H-Index: 20
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Switchgrass (Panicum virgatum) is a perennial warm-season grass that produces high biomass yield. Identification of mechanisms for genetic regulation of biomass traits has potential to facilitate genetic manipulation of switchgrass for enhancing biomass yield. The objective of this study was to identify quantitative trait loci for biomass-related traits in a pseudo-F2 population of switchgrass derived from an upland cross with a lowland switchgrass cultivar. Plant height (HT), crown diameter (CD...
#1Valentín Picasso (UW: University of Wisconsin-Madison)H-Index: 9
#2Michael D. Casler (UW: University of Wisconsin-Madison)H-Index: 21
Last.Dan Undersander (UW: University of Wisconsin-Madison)H-Index: 4
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#1Sai Krishna Arojju (Teagasc)H-Index: 3
#2Patrick Conaghan (Teagasc)H-Index: 4
Last.Stephen Byrne (Teagasc)H-Index: 16
view all 8 authors...
Background Genomic selection (GS) can accelerate genetic gains in breeding programmes by reducing the time it takes to complete a cycle of selection. Puccinia coronata f. sp lolli (crown rust) is one of the most widespread diseases of perennial ryegrass and can lead to reductions in yield, persistency and nutritional value. Here, we used a large perennial ryegrass population to assess the accuracy of using genome wide markers to predict crown rust resistance and to investigate the factors affect...
#1Guillaume P. Ramstein (UW: University of Wisconsin-Madison)H-Index: 4
#2Joseph Evans (Great Lakes Bioenergy Research Center)H-Index: 5
Last.Michael D. Casler (UW: University of Wisconsin-Madison)H-Index: 21
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#1Stephen Byrne (Teagasc)H-Index: 16
#2Patrick Conaghan (Teagasc)H-Index: 4
Last.Dan Milbourne (Teagasc)H-Index: 20
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Prior knowledge on heading date enables the selection of parents of synthetic cultivars that are well matched with respect to time of heading, which is essential to ensure plants put together will cross pollinate. Heading date of individual plants can be determined via direct phenotyping, which has a time and labour cost. It can also be inferred from family means, although the spread in days to heading within families demands roguing in first generation synthetics. Another option is to predict h...
#1Andrew R. Jakubowski (UW: University of Wisconsin-Madison)H-Index: 9
#2Randall D. Jackson (Great Lakes Bioenergy Research Center)H-Index: 22
Last.Michael D. Casler (Great Lakes Bioenergy Research Center)H-Index: 21
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#1Andrew R. Jakubowski (Great Lakes Bioenergy Research Center)H-Index: 1
#2Michael D. Casler (Great Lakes Bioenergy Research Center)H-Index: 21
Last.Randall D. Jackson (Great Lakes Bioenergy Research Center)H-Index: 22
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#1Joseph Evans (Great Lakes Bioenergy Research Center)H-Index: 5
#2Millicent D. Sanciangco (Great Lakes Bioenergy Research Center)H-Index: 1
Last.Govindarajan Kunde-Ramamoorthy (JGI: Joint Genome Institute)H-Index: 3
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#1Claudio Gratton (Great Lakes Bioenergy Research Center)H-Index: 39
#2Michael D. Casler (Great Lakes Bioenergy Research Center)H-Index: 21
Last.Tania N. Kim (Great Lakes Bioenergy Research Center)H-Index: 7
view all 4 authors...
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