RICE ORYZA-SATIVA
; ATMOSPHERIC CARBON-DIOXIDE
; SPRING WHEAT CULTIVARS
; QUANTITATIVE TRAIT LOCI
; CO2 ENRICHMENT FACE
; INTRASPECIFIC VARIATION
; GROWTH-RESPONSES
; POPULUS-TREMULOIDES
; SEED YIELD
; PROJECTED INCREASES
WOS学科分类:
Plant Sciences
WOS研究方向:
Plant Sciences
英文摘要:
Elevated atmospheric CO2 concentration (e[CO2]) can stimulate the photosynthesis and productivity of C-3 species including food and forest crops. Intraspecific variation in responsiveness to e[CO2] can be exploited to increase productivity under e[CO2]. However, active selection of genotypes to increase productivity under e[CO2] is rarely performed across a wide range of germplasm, because of constraints of space and the cost of CO2 fumigation facilities. If we are to capitalise on recent advances in whole genome sequencing, approaches are required to help overcome these issues of space and cost. Here, we discuss the advantage of applying prescreening as a tool in large genome x e[CO2] experiments, where a surrogate for e[CO2] was used to select cultivars for more detailed analysis under e[CO2] conditions. We discuss why phenotypic prescreening in population-wide screening for e[CO2] responsiveness is necessary, what approaches could be used for prescreening for e[CO2] responsiveness, and how the data can be used to improve genetic selection of high-performing cultivars. We do this within the framework of understanding the strengths and limitations of genotype-phenotype mapping.
1.Iwate Univ, Crop Sci Lab, Fac Agr, Morioka, Iwate 2032162, Japan 2.CSIRO Land & Water, Hobart, Tas 7000, Australia 3.Australian Natl Univ, Res Sch Biol, Canberra, ACT 2600, Australia 4.Univ Birmingham, Birmingham Inst Forest Res, Birmingham, W Midlands, England
Recommended Citation:
Shimono, Hiroyuki,Farquhar, Graham,Brookhouse, Matthew,et al. Prescreening in large populations as a tool for identifying elevated CO2-responsive genotypes in plants[J]. FUNCTIONAL PLANT BIOLOGY,2019-01-01,46(1):1-14