Genetic gain in yield of Australian faba bean since 1980 and associated shifts in the phenotype: Growth, partitioning, phenology, and resistance to lodging and disease

IF 5.6 1区农林科学 Q1 AGRONOMY

Field Crops Research Pub Date : 2024-09-14 DOI:10.1016/j.fcr.2024.109575

James B. Manson , Kedar N. Adhikari , Sara N. Blake , Samuel C. Catt , Matthew D. Denton , Lachlan Lake , Jason Brand , Cassandra Walker , Julian Taylor , Victor O. Sadras

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引用次数: 0

Abstract

Context

Feeding a growing human population with limited arable land requires greater crop yield that is, in turn, driven by improved agronomy, better varieties, and their synergy. Here we focus on faba bean, Vicia faba L., an under-researched grain legume for which on-farm yield in Australia has increased at 0.8 % y⁻¹ since 1990.

Objective

We aimed to quantify genetic gain in seed yield of Australian faba bean varieties released since 1980, and to identify associated shifts in physiological and agronomic traits.

Methods

We combined three studies: the complete historical collection of Australian faba bean varieties was grown in 1) a vintage experiment of three field trials; and 2) a pot experiment inoculated with old and new strains of Ascochyta fabae. Since most varieties were grown in a national network of trials, we 3) estimated genetic gain in seed yield and individual seed weight in 129 environments.

Results

In the vintage experiment, genetic gain in seed yield varied from 0.4 % y⁻¹ to almost zero; low rates of genetic gain were also apparent in the national network of trials. Biomass, harvest index, and crop growth rate in the critical period had low rates of genetic change, and there were strong trade-offs between yield components and in their responses to selection. Breeding increased seed size at 0.5 % y⁻¹. Visual lodging scores decreased at 4.9 % y⁻¹. There was breakdown in resistance to Ascochyta blight, but it was restored in new varieties.

Conclusions

Australian faba bean breeding contributed to on-farm yield and profitability through improved agronomic traits and seed quality. Low genetic gain in yield can be partially attributed to physiological trade-offs between traits, economic trade-offs between multiple breeding targets, and genotype-by-environment interaction.

Implication

Under-researched crops require greater investment to match the genetic gain in yield of major crops.

查看原文本刊更多论文

澳大利亚蚕豆自 1980 年以来的遗传增产及相关表型变化：生长、分配、表型以及抗倒伏和抗病性

背景以有限的耕地养活不断增长的人口，需要提高作物产量，而提高作物产量又离不开改进农艺、改良品种及其协同作用。在此，我们重点介绍蚕豆（Vicia faba L.）、我们的目标是量化自 1980 年以来发布的澳大利亚蚕豆品种种子产量的遗传增益，并确定生理和农艺性状的相关变化。方法我们结合了三项研究：在 1）三个田间试验的年份试验；2）接种了新老蚕豆菌株的盆栽试验中，种植了完整的澳大利亚蚕豆品种历史收集。由于大多数品种都是在全国性试验网络中种植的，因此我们 3) 估计了 129 种环境下种子产量和单粒种子重量的遗传增益。结果在年份试验中，种子产量的遗传增益从 0.4 % y-1 到几乎为零；全国性试验网络中的遗传增益率也很低。临界期的生物量、收获指数和作物生长率的遗传变化率较低，产量成分之间及其对选择的反应之间存在很强的权衡。育种以 0.5% y-1 的速度增加了种子大小。视觉结瘤率以每年 4.9% 的速度下降。结论澳大利亚蚕豆育种通过改良农艺性状和种子质量提高了农场产量和盈利能力。产量遗传增益低的部分原因是性状之间的生理权衡、多个育种目标之间的经济权衡以及基因型与环境之间的相互作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Field Crops Research 农林科学-农艺学

CiteScore

9.60

自引率

12.10%

发文量

307

审稿时长

46 days

期刊介绍： Field Crops Research is an international journal publishing scientific articles on: √ experimental and modelling research at field, farm and landscape levels on temperate and tropical crops and cropping systems, with a focus on crop ecology and physiology, agronomy, and plant genetics and breeding.