Association genetics of carbon isotope discrimination and leaf morphology in a breeding population of Juglans regia L.

English walnut (Juglans regia L.) is an economically important crop with > 99% of US walnuts produced in California. Changes in climate and recent drought cycles have raised concerns regarding the future of nut production and responsible water use in California agriculture. Our study used an association genetics approach to characterize ecophysiological traits such as water use efficiency as estimated by carbon isotope discrimination (Δ13C), and photosynthetic capacity through foliar nitrogen composition, in important individuals of the Walnut Improvement Program, located at the University of California, Davis. Stable isotope and leaf measurements of 241 mature trees, representing 60 scion genotypes in established orchards were sampled in 2015 and 2016, followed by genotyping with the Walnut Axiom 700 k SNP Array. A mean Δ13C of 21.7‰ (σ: 0.9‰) was calculated for all individuals, as well as a mean nitrogen/leaf area (N/area) of 3.0 gN/m2 (σ: 0.5 gN/m2). A Bayesian analysis utilizing genomic relationships revealed rankings of the most water use efficient accessions as Solano (95-011-16), 67-013 (unreleased cross), and Tulare (67-011). 126,554 SNPs were used in a two-step association genetics approach identifying four loci associated with Δ13C after correction for multiple testing. Investigation of identified loci revealed an annotation on the J. regia genome of protein FAR1-related sequence 5-like, related to abiotic stress response. For uncharacterized markers, homologs were identified in Arabidopsis for two loci, similarly related to drought stress.