Inheritance and QTL Mapping of Leaf Nutrient Concentration in a Cotton Inter-Specific Derived RIL Population

Publication Overview
TitleInheritance and QTL Mapping of Leaf Nutrient Concentration in a Cotton Inter-Specific Derived RIL Population
AuthorsLiu S, Lacape JM, Constable GA, Llewellyn DJ
TypeJournal Article
Journal NamePloS one
Volume10
Issue5
Year2015
Page(s)e0128100
CitationLiu S, Lacape JM, Constable GA, Llewellyn DJ. Inheritance and QTL Mapping of Leaf Nutrient Concentration in a Cotton Inter-Specific Derived RIL Population. PloS one. 2015; 10(5):e0128100.

Abstract

Developing and deploying cotton cultivars with high nutrient uptake, use efficiency and tolerance to nutrient related soil stresses is desirable to assist sustainable soil management. Genetic variation, heritability, selection response and quantitative trait loci (QTLs) were investigated for five macronutrients (P, K, Ca, Mg, S) and five micronutrients (Fe, Mn, B, Zn, and Cu) in a recombinant inbred line (RIL) population from an inter-specific cross between Gossypium hirsutum cv. Guazuncho 2, and G. barbadense accession VH8-4602. Na and K/Na ratio were also studied as the imbalance between Na and other nutrients is detrimental to cotton growth and development. The concentrations of nutrients were measured for different plant parts of the two parents and for leaf samples of the whole population collected at early to peak flowering in field experiments over two years in a sodic Vertosol soil. Parental contrast was large for most nutrient concentrations in leaves when compared with other plant parts. Segregation for leaf nutrient concentration was observed within the population with transgression for P, K, K/Na ratio and all micronutrients. Genotypic difference was the major factor behind within-population variation for most nutrients, while narrow sense heritability was moderate (0.27 for Mn and Cu, and 0.43 for B). At least one significant QTL was identified for each nutrient except K and more than half of those QTLs were clustered on chromosomes 14, 18 and 22. Selection response was predicted to be low for P and all micronutrients except B, high for K, Na and B, and very high for K/Na ratio. Correlations were more common between macronutrients, Na and K/Na ratio where the nature and strength of the relations varied (r=-0.69 to 0.76). We conclude that there is sufficient genetic diversity between these two tetraploid cotton species that could be exploited to improve cotton nutrient status by introgressing species-unique favourable alleles.

Features
This publication contains information about 47 features:
Feature NameUniquenameType
boron concentrationqBCONC.GV-RIL_ch10.1QTL
boron concentrationqBCONC.GV-RIL_ch10.2QTL
boron concentrationqBCONC.GV-RIL_ch14QTL
boron concentrationqBCONC.GV-RIL_ch19QTL
boron concentrationqBCONC.GV-RIL_ch25QTL
calcium concentrationqCACONC.GV-RIL_ch14QTL
calcium concentrationqCACONC.GV-RIL_ch18QTL
calcium concentrationqCACONC.GV-RIL_ch24QTL
copper concentrationqCUCONC.GV-RIL_ch12QTL
copper concentrationqCUCONC.GV-RIL_ch18QTL
copper concentrationqCUCONC.GV-RIL_ch05QTL
copper concentrationqCUCONC.GV-RIL_ch08QTL
Iron concentrationqFECONC.GV-RIL_ch14QTL
Iron concentrationqFECONC.GV-RIL_ch22QTL
Iron concentrationqFECONC.GV-RIL_ch08QTL
potassium to sodium concentration ratioqKNACONCR.GV-RIL_ch01QTL
potassium to sodium concentration ratioqKNACONCR.GV-RIL_ch11QTL
potassium to sodium concentration ratioqKNACONCR.GV-RIL_ch14QTL
potassium to sodium concentration ratioqKNACONCR.GV-RIL_ch03QTL
potassium to sodium concentration ratioqKNACONCR.GV-RIL_ch05QTL
potassium concentrationqKCONC.GV-RIL_ch11QTL
potassium concentrationqKCONC.GV-RIL_ch14QTL
potassium concentrationqKCONC.GV-RIL_ch02QTL
potassium concentrationqKCONC.GV-RIL_ch22QTL
magnesium concentrationqMGCONC.GV-RIL_ch01QTL

Pages

Projects
This publication contains information about 1 projects:
Project NameDescription
GV-RIL-2015
Properties
Additional details for this publication include:
Property NameValue
Publication ModelElectronic-eCollection
ISSN1932-6203
eISSN1932-6203
Publication Date2015
Publication TypeJournal Article
Journal AbbreviationPLoS ONE
Elocation10.1371/journal.pone.0128100
LanguageEnglish
Language AbbrENG