PROBABILITY OF WHEAT QUALITY TRAITS FALLING WITHIN ACCEPTABLE LIMITS

被引：6

作者：

ESKRIDGE, KM ^{[1
]}

PETERSON, CJ ^{[1
]}

GROMBACHER, AW ^{[1
]}

机构：

[1] UNIV MINNESOTA,DEPT AGRON & PLANT GENET,ST PAUL,MN 55108

来源：

CROP SCIENCE | 1994年 / 34卷 / 04期

关键词：

D O I：

10.2135/cropsci1994.0011183X003400040007x

中图分类号：

S3 [农学（农艺学）];

学科分类号：

0901 ;

摘要：

Improving consistency of wheat (Triticum aestivum L.) end-use quality requires simultaneous consideration of a large number of quality traits evaluated in multiple growing environments. Stability analyses have inherent limitations that make analyses of large numbers of intercorrelated variables, or non-normally distributed values, difficult. Univariate and multivariate approaches were used to measure genotypic consistency of wheat quality traits based on the probability of traits falling within acceptable limits. Eighteen wheat genotypes were evaluated across 14 environments for flour protein concentration, mixograph mixing time and tolerance, sodium dodecylsulfate sedimentation volume, and kernel hardness. Acceptability of traits was defined by (i) values falling within chosen upper and lower limits of acceptability across environments, and (ii) values exceeding those for a check genotype at each location. Multivariate probabilities of all five traits falling within upper and lower limits of acceptability ranged from 0.0 to 0.45 among genotypes. Univariate probabilities of acceptance were calculated for each trait. They ranged from 0.03 to 1.00 for genotype-trait combinations and indicated the relative contributions of individual quality traits to the multivariate probability value. Several genotypes had low multivariate probabilities as the result of only one or two traits with low univariate probabilities. The probability based approach provides a simple and flexible decision-making tool to identify genotypes with high probability of providing acceptable quality when grown across multiple environments.

引用

页码：866 / 869

页数：4

共 16 条

[1] EFFECT OF CULTIVAR, ENVIRONMENT, AND THEIR INTERACTION AND STABILITY ANALYSES ON MILLING AND BAKING QUALITY OF SOFT RED WINTER-WHEAT [J].

BAENZIGER, PS ;

CLEMENTS, RL ;

MCINTOSH, MS ;

YAMAZAKI, WT ;

STARLING, TM ;

SAMMONS, DJ ;

JOHNSON, JW .

CROP SCIENCE, 1985, 25 (01) :5-8

[2] GENOTYPE X ENVIRONMENT INTERACTIONS ON SOFT WHITE WINTER-WHEAT QUALITY [J].

BASSETT, LM ;

ALLAN, RE ;

RUBENTHALER, GL .

AGRONOMY JOURNAL, 1989, 81 (06) :955-960

[3] RESPONSE OF HARD RED SPRING WHEAT (TRITICUM-AESTIVUM L) TO ENVIRONMENTS IN RELATION TO 6 QUALITY CHARACTERISTICS [J].

BUSCH, RH ;

SHUEY, WC ;

FROHBERG, RC .

CROP SCIENCE, 1969, 9 (06) :813-&

[4] A COMPARATIVE-STUDY OF TESTS FOR HOMOGENEITY OF VARIANCES, WITH APPLICATIONS TO THE OUTER CONTINENTAL-SHELF BIDDING DATA [J].

CONOVER, WJ ;

JOHNSON, ME ;

JOHNSON, MM .

TECHNOMETRICS, 1981, 23 (04) :351-361

[5] STABILITY PARAMETERS FOR COMPARING VARIETIES [J].

EBERHART, SA ;

RUSSELL, WA .

CROP SCIENCE, 1966, 6 (01) :36-&

[6] SELECTION OF STABLE CULTIVARS USING A SAFETY-1ST RULE [J].

ESKRIDGE, KM .

CROP SCIENCE, 1990, 30 (02) :369-374

[7] SELECTION OF STABLE VARIETIES BY MINIMIZING THE PROBABILITY OF DISASTER [J].

ESKRIDGE, KM ;

BYRNE, PF ;

CROSSA, J .

FIELD CROPS RESEARCH, 1991, 27 (1-2) :169-181

[8] CHOOSING PLANT CULTIVARS BASED ON THE PROBABILITY OF OUTPERFORMING A CHECK [J].

ESKRIDGE, KM ;

MUMM, RF .

THEORETICAL AND APPLIED GENETICS, 1992, 84 (3-4) :494-500

[9] COMPARING TEST CULTIVARS USING RELIABILITY FUNCTIONS OF TEST-CHECK DIFFERENCES FROM ON-FARM TRIALS [J].

ESKRIDGE, KM ;

SMITH, OS ;

BYRNE, PF .

THEORETICAL AND APPLIED GENETICS, 1993, 87 (1-2) :60-64

[10]

ESKRIDGE KM, 1991, MAYDICA, V36, P275

← 1 2 →