Can we improve the chilling tolerance of maize photosynthesis through breeding?

被引:19
作者
Burnett, Angela C. [1 ]
Kromdijk, Johannes [1 ]
机构
[1] Univ Cambridge, Dept Plant Sci, Downing St, Cambridge CB2 3EA, England
基金
英国科研创新办公室;
关键词
Breeding; chilling stress; chilling tolerance; cold stress; cold tolerance; genetics; maize; photosynthesis; quantitative trait loci (QTL); spectroscopy; QUANTITATIVE TRAIT LOCI; ZEA-MAYS L; COLD STRESS TOLERANCE; LOW-TEMPERATURE; ABSCISIC-ACID; CHLOROPHYLL FLUORESCENCE; ELECTRON-TRANSPORT; INBRED LINES; ORTHOPHOSPHATE DIKINASE; LEAF PHOTOSYNTHESIS;
D O I
10.1093/jxb/erac045
中图分类号
Q94 [植物学];
学科分类号
071001 ;
摘要
Chilling tolerance is necessary for crops to thrive in temperate regions where cold snaps and lower baseline temperatures place limits on life processes; this is particularly true for crops of tropical origin such as maize. Photosynthesis is often adversely affected by chilling stress, yet the maintenance of photosynthesis is essential for healthy growth and development, and most crucially for yield. In this review, we describe the physiological basis for enhancing chilling tolerance of photosynthesis in maize by examining nine key responses to chilling stress. We synthesize current knowledge of genetic variation for photosynthetic chilling tolerance in maize with respect to each of these traits and summarize the extent to which genetic mapping and candidate genes have been used to understand the genomic regions underpinning chilling tolerance. Finally, we provide perspectives on the future of breeding for photosynthetic chilling tolerance in maize. We advocate for holistic and high-throughput approaches to screen for chilling tolerance of photosynthesis in research and breeding programmes in order to develop resilient crops for the future. Photosynthetic chilling tolerance is composed of several physiological mechanisms, underpinned by differing amounts of genetic variation. A holistic, high-throughput approach is needed to improve chilling tolerance of photosynthesis in maize.
引用
收藏
页码:3138 / 3156
页数:19
相关论文
共 132 条
[1]   Genotypic variation within Zea mays for susceptibility to and rate of recovery from chill-induced photoinhibition of photosynthesis [J].
Aguilera, C ;
Stirling, CM ;
Long, SP .
PHYSIOLOGIA PLANTARUM, 1999, 106 (04) :429-436
[2]   Carbohydrate Export from the Leaf: A Highly Regulated Process and Target to Enhance Photosynthesis and Productivity [J].
Ainsworth, Elizabeth A. ;
Bush, Daniel R. .
PLANT PHYSIOLOGY, 2011, 155 (01) :64-69
[3]   Identification of QTLs involved in cold tolerance in sweet x field corn [J].
Allam, Mohamed ;
Revilla, Pedro ;
Djemel, Abderrahmane ;
Tracy, William F. ;
Ordas, Bernardo .
EUPHYTICA, 2016, 208 (02) :353-365
[4]   Photosynthetic characteristics and protective mechanisms against oxidative stress during chilling and subsequent recovery in two maize varieties differing in chilling sensitivity [J].
Aroca, R ;
Irigoyen, JJ ;
Sánchez-Diaz, M .
PLANT SCIENCE, 2001, 161 (04) :719-726
[5]   Shared and genetically distinct Zea mays transcriptome responses to ongoing and past low temperature exposure [J].
Avila, Luis M. ;
Obeidat, Wisam ;
Earl, Hugh ;
Niu, Xiaomu ;
Hargreaves, William ;
Lukens, Lewis .
BMC GENOMICS, 2018, 19
[6]   Chlorophyll fluorescence: A probe of photosynthesis in vivo [J].
Baker, Neil R. .
ANNUAL REVIEW OF PLANT BIOLOGY, 2008, 59 :89-113
[7]  
Bano S, 2015, J ANIM PLANT SCI, V25, P392
[8]   Leaf transcriptome analysis of Lancaster versus other heterotic groups' maize inbred lines revealed different regulation of cold-responsive genes [J].
Banovic Deri, Bojana ;
Bozic, Manja ;
Dudic, Dragana ;
Vicic, Ivan ;
Milivojevic, Marija ;
Ignjatovic-Micic, Dragana ;
Samardzic, Jelena ;
Vancetovic, Jelena ;
Delic, Nenad ;
Nikolic, Ana .
JOURNAL OF AGRONOMY AND CROP SCIENCE, 2022, 208 (04) :497-509
[9]   Expression of the Aeluropus littoralis AlSAP gene in rice confers broad tolerance to abiotic stresses through maintenance of photosynthesis [J].
Ben Saad, Rania ;
Fabre, Denis ;
Mieulet, Delphine ;
Meynard, Donaldo ;
Dingkuhn, Michael ;
Al-Doss, Abdullah ;
Guiderdoni, Emmanuel ;
Hassairi, Afif .
PLANT CELL AND ENVIRONMENT, 2012, 35 (03) :626-643
[10]   In situ localization and changes in the expression level of transcripts related to intercellular transport and phloem loading in leaves of maize (Zea mays L.) treated with low temperature [J].
Bilska-Kos, Anna ;
Grzybowski, Marcin ;
Jonczyk, Maciej ;
Sowinski, Pawel .
ACTA PHYSIOLOGIAE PLANTARUM, 2016, 38 (05)