品质至上,客户至上,您的满意就是我们的目标
技术文章
当前位置: 首页 > 技术文章
Airphen多光谱表型相机:田间玉米表型研究
发表时间:2022-07-11 09:31:40点击:820
来源:北京博普特科技有限公司
分享:
Airphe是HI-PHEN开发出的一款多光谱相机系统,在UAV领域搭载进行移动光谱生长指数测量。相机设计来源于科研领域,轻便、紧凑、可配置功能强大(波段、视野)。可进行无线操作并与相辅助的热成像IR相机和高分辨率RGB相机结合使用。搭载AIRPHEN是一款多光谱相机系统是目前测量波段较多、速度较快、较轻便、功能较强大无人机多光谱相机系统,非常适合大面积林业、农业、生态调查勘测使用以及植物田间表型成像研究。
生理适应性性状是挑战性条件下玉米遗传进展的潜在等位基因库
摘要
需要结合表型和基因组方法来评估育种策略的进展幅度。在这里,我们分析了65年来玉米产量的遗传进展, 在欧洲种植区最常见的环境场景中,产量相似(101 kg ha−1 year−1 )。产量增加与生理上简单的性状(植物物候和结构)有关,这些性状间接影响所有研究环境中的生殖发育和光截获,以显著的基因组选择特征为标志。相反,所研究的与胁迫适应有关的生理过程在表型上保持不变(例如气孔导度和生长对干旱的敏感性),并且没有表现出选择的特征。通过产量选择,育种家间接选择了对产量有稳定影响的性状,但不选择对产量有正或负影响的生理性状,这取决于环境条件。由于气候变化下的产量稳定性是可取的,因此可能需要新的育种策略来利用控制生理适应性性状的等位基因。
Physiological adaptive traits are a potential allele reservoir for maize genetic progress under challenging conditions
Nature Communications volume 13, Article number: 3225 (2022)
Abstract
Combined phenomic and genomic approaches are required to evaluate the margin of progress of breeding strategies. Here, we analyze 65 years of genetic progress in maize yield, which was similar (101 kg ha−1 year−1) across most frequent environmental scenarios in the European growing area. Yield gains were linked to physiologically simple traits (plant phenology and architecture) which indirectly affected reproductive development and light interception in all studied environments, marked by significant genomic signatures of selection. Conversely, studied physiological processes involved in stress adaptation remained phenotypically unchanged (e.g. stomatal conductance and growth sensitivity to drought) and showed no signatures of selection. By selecting for yield, breeders indirectly selected traits with stable effects on yield, but not physiological traits whose effects on yield can be positive or negative depending on environmental conditions. Because yield stability under climate change is desirable, novel breeding strategies may be needed for exploiting alleles governing physiological adaptive traits.