Your search keyword '"Stendal, C."' showing total 3 results

1. Marker-assisted selection for neutral detergent fiber in smooth bromegrass

Author

Stendal, C., Casler, M.D., and Jung, G.

Subjects

Forage -- Environmental aspects, Forage plants -- Environmental aspects, Grasses -- Environmental aspects, Agricultural industry, Business, Environmental aspects

Abstract

Neutral detergent fiber (NDF) is the most effective and measurable predictor of animal intake. About 70% of the variation in animal production is attributed to differences in intake potential of livestock feed. Sixteen molecular markers associated with NDF in four divergently selected smooth brumegrass (Bromus inermis L.) populations were selected from a previous study for further examination for possible use in a marker-assisted selection (MAS) breeding program. The objectives of this experiment were to confirm the association of previously identified markers to NDF concentration in smooth bromegrass populations and to develop a marker-based selection index. Marker and NDF data were analyzed and marker indices were constructed using data from the current and previous studies. Index scores were used to rank genotypes and create selection differentials on the basis of phenotypic data. Marker frequencies calculated on a subpopulation basis between the previous and current studies were highly unrepeatable. Nevertheless, of the 14 groups of marker indices, seven of which accounted for pedigree structure, one marker index appears to provide the greatest potential for use in MAS to reduce NDF across all four populations of smooth bromegrass. Where pedigree structure is known, selections made using this index would lead to the largest expected response per year and eliminate the need to collect phenotypic data for as long as linkage relationships remain intact. Where pedigree structure is unknown, a general marker index may be used, or phenotypic data can be utilized along with a marker index. However, inclusion of phenotypic data would necessitate a cost-benefit analysis., SMOOTH BROMEGRASS is a cool-season forage grass that was introduced to North America in 1884. It gained recognition during the droughts of the 1930s because of its ability to survive [...]

Published

2006

2. Maximizing efficiency of recurrent phenotypic selection for neutral detergent fiber concentration in smooth bromegrass

Author

Stendal, C. and Casler, M.D.

Subjects

Grasses -- Environmental aspects -- Genetic aspects -- Research, Phenotype -- Research -- Genetic aspects -- Environmental aspects, Agricultural industry, Business, Genetic aspects, Research, Environmental aspects

Abstract

Resources are always limited in plant breeding programs, limiting the number of plots or plants that can be utilized in recurrent selection. Replication of selection units in space or time provides a mechanism to improve the precision of measurements. For smooth bromegrass (Bromus inermis L.), neutral detergent fiber (NDF) is the most effective and measurable predictor of animal intake, a major source of variation for livestock production. The objective of this experiment was to determine the potential benefits and costs of replication in time and space for divergent recurrent selection on NDF of smooth bromegrass. Phenotypic data was used to predict selection response and derive a benefit-cost ratio for a variety of selection criteria based on various numbers of blocks and harvests. Three of the 70 selection criteria examined had an expected selection response significantly greater than that predicted by a log-linear regression of expected selection response as a function of cost. These selection criteria were based on two or three harvests and one or two blocks. Two of the selection criteria, emphasizing one harvest of unreplicated plants, had a benefit-cost ratio significantly above the mean. If financial resources are not a concern, selection based on the mean of multiple harvests in I yr results in the highest expected response per year. If financial resources are greatly limited, one harvest of unreplicated plants provides an adequate expected response per cycle but maximizes gain per unit cost., RECURRENT SELECTION is a breeding strategy that increases the frequency of favorable alleles of a specific trait in a population by eliminating the gametes of inferior parents from contributing to [...]

Published

2006

3. Heterosis and inbreeding depression for forage yield and fiber concentration in smooth bromegrass

Author

Casler, M.D., Diaby, M., and Stendal, C.

Subjects

Plant cytogenetics -- Research -- Genetic aspects, Forage -- Genetic aspects -- Research, Crop yields -- Research, Forage plants -- Genetic aspects -- Research, Agricultural industry, Business, Research, Genetic aspects

Abstract

Voluntary intake is generally considered to be the single most important factor limiting animal performance on high-forage diets. Neutral detergent fiber (NDF) is the laboratory variable most closely associated with voluntary intake potential. However, selection for low NDF generally leads to reduced forage yield. The objectives of this study were to estimate the correlation between forage yield and NDF and to determine heterotic responses for both traits. Seven clones of smooth bromegrass (Bromus inermis Leyss.) were crossed in a diallel and four of the clones were self-pollinated to create S1 families. The seven parent clones showed considerable diversity, as measured by 329 random amplified polymorphic DNA (RAPD) markers, mostly related to their pedigrees. The phenotypic correlation between forage yield and NDF decreased across generations, from 0.86 for parents, to 0.63 for GCA effects, and 0.49 for the 21 cross means. The genotypic correlation between forage yield and NDF was reduced from 0.99 for parents to 0.71 for the 21 crosses. Forage yield heterosis effects averaged 14% with a range of -4 to 39%, with 15 of 21 values significantly different from zero. Midparent heterosis effects for NDF averaged -0.5% with a range of -3.1 to 2.6%, with seven of 21 values significantly different from zero. Midparent heterosis effects for forage yield and NDF had a moderate correlation of 0.44. The change in correlations across generations suggested that a part of the genetic correlation between forage yield and NDF is regulated by linkage., VOLUNTARY INTAKE is generally considered to be the single most important factor limiting animal performance on high-forage diets (Fahey and Hussein, 1999). Physical distension of the rumen is the major [...]

Published

2005