Fungal Endophytes Enhance Agronomically Important Traits in Severely Drought‐Stressed Barley          下载免费PDF全文

B. R. Murphy  L. Martin Nieto  F. M. Doohan  T. R. Hodkinson 《Journal of Agronomy and Crop Science》2015,201(6):419-427

Crops often face severe and damaging local drought events, and in some regions, these episodes are predicted to become more frequent due to climate change. Some micro‐organisms have been shown to improve drought tolerance and improve yield in crop plants. Here, we show that fungal root endophytes isolated from a wild barley species (Hordeum murinum subsp. murinum) induced significant improvements in agronomic traits for a severely drought‐stressed barley cultivar grown in a controlled environment, including number of tillers, grain yield and shoot biomass. Five endophyte strains were tested, and the trait that showed the greatest significant difference in the drought‐stressed plants was the number of tillers, where all of the endophyte treatments induced a greater number of tillers per plant. However, except in one case, the mean dry root weight for all plants was greater in the control plants, indicating preferential allocation of resources to aboveground parts in the endophyte treatments. Results were not consistent across all endophyte treatments, with some endophytes performing much better than others. As these growth studies were conducted using soil‐based compost, the results may translate to the field and suggest that some of these endophytes have potential as barley inoculants in arid growing conditions.  相似文献   

大麦种质资源成株期抗旱性鉴定及抗旱指标筛选   总被引：6，自引：0，他引：6  

Yin-Ping XU  Yong-Dong PAN  Qiang-De LIU  Yuan-Hu YAO  Yan-Chun JIA  Cheng REN  Ke-Cang HUO  Wen-Qing CHEN  Feng ZHAO  Qi-Jun BAO  Hua-Yu ZHANG 《作物学报》2020,46(3):448-461

干旱是影响大麦生产的主要因素之一。在鉴定大麦种质资源成株期抗旱性的基础上,筛选抗旱指标,可为培育抗旱品种提供依据。本研究在2016和2017年在大麦生长主要需水期平均降雨量不足40 mm的甘肃省武威市进行田间试验,以30份大麦种质资源为研究对象,设置正常灌水和干旱胁迫处理,测定大麦株高、穗长、分蘖数、单株粒数、单株粒重、穗粒数、千粒重和产量,采用抗旱性度量值(D)、综合抗旱系数(CDC)、加权抗旱系数(WDC)、相关分析、频次分析、主成分分析、灰色关联度分析、隶属函数分析、聚类分析和逐步回归分析相结合的办法,对其进行抗旱性鉴定及抗旱指标的筛选。干旱胁迫对测定的各指标均有极显著影响。频次分析表明,各指标对干旱胁迫反应的敏感程度依次为产量、株高、单株粒重、穗长、单株粒数、分蘖数、穗粒数和千粒重。相关分析表明,产量与株高、穗长、分蘖数、单株粒数和单株粒重呈极显著正相关,与穗粒数呈显著正相关、与千粒重呈不显著正相关。主成分分析表明,5个主成分可以代表大麦抗旱性86.39%的原始数据信息量。基于D值、CDC值和WDC值的大麦种质资源抗旱性排序基本一致。灰色关联度分析表明,各指标单项抗旱系数值与D值间的关联度依次为产量、单株粒重、单株粒数、穗长、株高、分蘖、穗粒数和千粒重,各指标DC值与WDC值间的关联大小依次为单株粒重、产量、单株粒数、分蘖、穗长、穗粒数、株高和千粒重。根据D值进行聚类分析,将供试大麦种质资源依据抗旱性从强到弱分为5个抗旱等级,其中1级5份、2级1份、3级11份、4级10份、5级3份。除分蘖和千粒重外,其余指标的隶属函数值、CDC值、D值和WDC值均随着抗旱级别的升高而增大。回归分析表明, 5个测定指标均与D值密切相关。干旱胁迫对大麦种质资源成株期各指标均有极显著影响。确定了D值为适宜的抗旱鉴定指标。筛选出成株期抗旱性强的大麦种质资源甘啤7号、Z06-278-9、MERIT、NEVADA和西藏25,可为大麦抗旱育种、抗旱机制以及干旱调控缓解机制的研究提供技术支持。穗长、单株粒数、单株粒重、穗粒数、产量可作为大麦种质资源成株期简单、直观的抗旱评价指标。  相似文献   

Stability of 1000-grain weight and its relation with other traits of barley in dry areas     

A. Hadjichristodoulou 《Euphytica》1990,51(1):11-17

Summary The effects of 1000-grain weight, its stability and the correlation coefficients with other traits of 50 barley varieties were studied at 18–20 environments. Additional material was used to study genotypic correlations among traits. Significant differences in stability of 1000-grain weight were found among varieties. Two-row varieties were on average more stable than 6-row varieties. The 1000-grain weight was among the most stable and grain yield the most variable traits. This was discussed in connection with stem reserves translocation to the grain. Consistently high yielding varieties had around average stability of 1000-grain weight. Regression coefficient, b, for 1000-grain weight was positively correlated with variance of log transformed data, both valid estimates for stability of 1000-grain weight. The correlation coefficient of 1000-grain weight with grain yield was positive or non-significant, with number of grains per tiller mainly negative and with volume weight it was positive. In 6-row barley, 1000-grain weight was positively correlated with grain yield, straw yield, total biological yield, and plant height, and negatively with number of tillers per m² and number of grains per tiller.  相似文献   

Gene action controlling yield and yield‐related traits among tef (Eragrostis tef [Zucc.] Trotter) populations under drought‐stressed and nonstressed conditions          下载免费PDF全文

Mizan Tesfay Abraha  Hussien Shimelis  Mark Laing  Kebebew Assefa 《Plant Breeding》2018,137(4):585-597

This study was aimed to determine gene action for grain yield and yield‐related traits of newly developed tef populations under drought‐stressed and nonstressed conditions to improve drought tolerance. Ten crosses, along with the parents, were evaluated in the F₂ generation under drought‐stressed conditions at Hastebo and Adigdad sites in 2015 and Dura site in 2016 and under nonstressed conditions at Dura site in 2016. Additive gene action predominantly controlled the inheritance of the grain yield and majority of the yield‐related traits under drought‐stressed and nonstressed conditions. Under both test conditions, the genotypes DZ‐Cr‐387 and 9415 were the best general combiners for increased grain yield and morphological traits. Conversely, genotype 222076 was the best general combiner for reduced maturity period only. The selected parents are novel genetic materials for tef breeding programmes to improve grain yield and morphological traits with reduced days to maturity for drought tolerance breeding. The family of the cross DZ‐Cr‐387 × 222076 was selected for high grain yield and early maturity in both the drought‐stressed and nonstressed environments.  相似文献   

The relation between grain yield and some related traits of spring barley (Hordeum vulgare L.) and their usefulness in a breeding program     

A. G. Balkema-Boomstra 《Euphytica》1992,65(2):99-106

Summary The objective of this study was to evaluate traits which can facilitate and improve selection for grain yield of spring barley. Five experiments were conducted in different environments to measure grain yield and yield related traits of breeding lines and exotic varieties. Differences for rate of canopy expansion were significant and offer the opportunity to select for a high weed suppressing potential but there was no relation to grain yield. Dry matter yield/m² at anthesis and its water-soluble-carbohydrate content were not correlated with grain yield/m² and number of grains/m². Variation in biomass among breeding lines with a similar development and plant height was small. Biomass standardized for plant height was stable across environments and showed a good correlation with number of grains and grain yield. The contribution of pre-anthesis assimilation to grain yield was only important under low yielding experimental conditions, but the differences among the genotypes for this trait were inconsistent. It may be difficult to select genotypes with a high potential contribution of pre-anthesis assimilation to grain yield.  相似文献   

Selection of Barley Lines for Drought Tolerance in Low-Rainfall Areas   总被引：1，自引：0，他引：1  

Y. Shakhatreh  O. Kafawin  S. Ceccarelli  & H. Saoub 《Journal of Agronomy and Crop Science》2001,186(2):119-127

An experiment was conducted at five locations in Jordan (Khanasri, annual rainfall 150 mm; Ramtha, 225 mm; Muwaqar, 150 mm; Rabba, 350 mm; Ghweer, 250 mm) during the 1996/1997 growing season, to evaluate the yield performance and some agronomic traits of 84 barley breeding lines and three long‐term checks (Zanbaka, Arta and Klaxon) for drought tolerance. An α‐lattice design with two replications and six incomplete blocks for each replication was used. Genotype 6 (WI2291/Tadmor) was found to be superior in grain yield, especially compared to the best check (Arta) at the two wettest locations (Rabba and Ghweer). Genotype 21 (Mo.B1337/WI2291/5/Emir/Sb//CM67/3/F8‐HB‐854‐23/121//148‐221/4/CI 08887/CI05761) out‐yielded the best check (Arta) at the driest location (Khanasri), while genotype 61 (Salmas/Arabia Aswad) produced a higher grain yield than the best check (Zanbaka) at Ramtha. The correlations amongst grain yield, biological yield, straw yield, plant height and harvest index were always significant and positive regardless of the location. The correlations amongst days to heading, days to maturity and grain yield were significant at the two driest locations only. This suggests that different phonologies are required to maximize grain yield in wet and dry environments. Also, the relationship between grain yield and the length of grain‐filling period was positive in the wettest location (Rabba), negative in the driest (Khanasri) and not significant at the two intermediate locations. These results emphasize the importance of selection in the target environment and the need to develop early‐maturing genotypes as a way of withstanding drought and high temperatures during the grain‐filling period. A high and negative correlation coefficient was found between the drought susceptibility index and grain yield at the driest site, whereas at the wettest site the correlation coefficient was lower and in some cases positive, indicating the existence of traits that are desirable under drought and undesirable under favourable conditions.  相似文献   

Estimation of genetic distance and its predictability of F<Subscript>1</Subscript> hybrid performance in barley     

Hong-Sik Kim  Jung-Gon Kim  Seong-Bum Baek  Jong-Jin Hwang 《Journal of Crop Science and Biotechnology》2010,13(1):47-52

Heterotic performance of hybrids is dependent upon the amount of genetic variability among parents and combining ability of alleles at the loci associated with target traits. This study was carried out to determine if (1) pedigree-based genetic distance could explain molecular levels of genetic diversity, and (2) molecular marker-based genetic distance could predict the degree of hybrid performance in barley. The average value of Random Amplified Polymorphic DNA (RAPD)-based genetic similarity for all 58 genotypes was 0.641. Twenty-two hulless barley and eight malt barley varieties showed low levels of genetic diversity with higher similarity values than the average of all or of the hulled barley variety pool. Coefficients of parentage (COPs) computed for 1,653 pairs of 58 Korean barley varieties ranged from 0 to 0.984 with a mean of 0.048. Correlation between the genealogical and RAPD-based genetic similarity matrices was 0.256 (P < 0.01). Correlation values for the related and for all (related + unrelated) genotype pairs were almost similar to each other, indicating that the unrelated genotypes share a large portion of genomes alike in state, not identical by descent. RAPD-based genetic similarity estimates among parents were poorly correlated with their hybrid performance such as 1,000-grain weight (r = 0.34), biomass yield (r = −0.12), and grain yield (r = −0.04) for 11 genotype pairs of hulled barley. However, correlations between heterozygosity at marker loci and hybrid performance for biomass and grain yield slightly increased when two F1 hybrids were excluded in the analysis due to their low yield.  相似文献   

Transgressive segregation in inter and intraspecific crosses of barley     

Urbano Vega  K. J. Frey 《Euphytica》1980,29(3):585-594

Summary Six populations of F₂-derived lines of barley and their parents were evaluated for heading date, plant height, grain yield, bundle weight, and harvest index in a replicated experiment in the field. These data were used to estimate the minimum number of effective factor pairs segregating for each trait, the number of favorable factors contributed by each parent in a cross, and the frequencies and magnitudes of transgressive segregates.Heading date, plant height, and harvest index were controlled by three to four effective factor pairs, whereas grain yield and bundle weight were controlled by five or more.All three H. spontaneum strains used in our study contributed one or more useful genes for each of the traits, grain yield, heading date, plant height, bundle weight, and harvest index. Therefore, it seems that H. spontaneum can be a useful source of favorable genes for quantitative traits, especially for grain yield, which could be incorporated into barley varieties readily by backcrossing. Transgressive segregates for grain yield in the interspecific crosses may provide the basic materials for improving the productivity of cultivated barley varieties.Journal Paper No. J-9760 of the Iowa Agric. and Home Econ. Exp. Stn., Ames, IA 50011. Project 2227. Supported in part by a grant from the Science and Education Administration-Cooperative Research, United States Department of Agriculture.  相似文献   

二棱大麦品种（系）的综合评价     

郜战宁  王树杰  冯辉  薛正刚  杨永乾  宋晓朋  介元芬 《作物杂志》2022,38(1):70-27

为更精准筛选和选育不同用途二棱大麦品种,对38份不同来源及用途的二棱大麦品种（系）的株高、穗长、千粒重、穗粒数、有效穗数、籽粒产量和不孕粒数等主要农艺性状及籽粒蛋白质含量进行综合评价。结果表明,参试二棱大麦品种（系）有效穗数、产量、穗长、不孕粒数及蛋白质含量变异丰富,株高、千粒重及穗粒数变异相对较小,二棱大麦育种的增产效应主要体现在穗长和有效穗数的适度增加。相关性分析表明,二棱大麦各性状间存在复杂的相关性,且多个性状均可影响产量,有效穗数与产量呈极显著正相关。供试二棱大麦品种（系）在遗传距离10水平上可聚为中秆大粒型和矮秆多穗型两类。主成分分析将38份二棱大麦品种（系）的主要农艺性状分为4个主成分,其累计贡献率达85.5807%;以前4个主成分得分值为指标进行主成分二维排序分析,分析38份二棱大麦品种（系）在特定因子性状上的差异,结果为创制优异种质及亲本选择提供依据。  相似文献   

The Effect of Late-terminal Drought Stress on Yield Components of Four Barley Cultivars     

N. H. Samarah  A. M. Alqudah  J. A. Amayreh  & G. M. McAndrews 《Journal of Agronomy and Crop Science》2009,195(6):427-441

Barley (Hordeum vulgare L.) is an important winter cereal crop grown in the semiarid Mediterranean, where late‐terminal drought stress during grain filling has recently become more common. The objectives of this study were to investigate the growth performance and grain yield of four barley cultivars under late‐terminal drought stress under both glasshouse and field conditions. At grain filling, four barley cultivars (Rum, ACSAD176, Athroh and Yarmouk) were exposed to three watering treatments: (1) well‐watered [soil maintained at 75 % field capacity (FC)], (2) mild drought stress at 50 % FC, (3) severe drought stress at 25 % FC in the glasshouse experiment and (1) well‐watered (irrigated once a week), (2) mild drought (irrigated once every 2 weeks), (3) severe drought (non‐irrigated; rainfed) in the field. As drought stress severity increased, gross photosynthetic rate, water potential, plant height, grain filling duration, spike number per plant, grain number per spike, 1000‐grain weight, straw yield, grain yield and harvest index decreased. In the glasshouse experiment, the six‐row barley cultivars (Rum, ACSAD176, and Athroh) had higher grain yield than the two‐row barley cultivar (Yarmouk), but the difference was not significant among the six‐row cultivars under all treatments. In the field experiment, Rum had the highest grain yield among all cultivars under the mild drought stress treatment. The two‐row cultivar (Yarmouk) had the lowest grain yield. In general, the traditional cultivar Rum had either similar or higher grain yield than the other three cultivars under all treatments. However, the yield response to drought differed between the cultivars. Those, Rum and ACSAD176, that were capable of maintaining a higher proportion of their spikes and grains per spike during drought also maintained a higher proportion of their yield compared with those in well‐watered treatment. In conclusion, cultivar differences in grain yield were related to spike number per plant and grain number per spike, but not days to heading or grain filling duration.  相似文献   

Genetic analysis and phenotypic associations for drought tolerance in Hordeum spontaneum introgression lines using SSR and SNP markers     

Berhane Lakew  Robert J. Henry  Salvatore Ceccarelli  Stefania Grando  Jason Eglinton  Michael Baum 《Euphytica》2013,189(1):9-29

Associations between markers and drought related traits were investigated on a set of 57 advanced barley breeding lines, carrying various levels of introgression from Hordeum spontaneum lines 41-1 and 41-5, the best sources of drought tolerance in the ICARDA barley breeding program, using 74 simple sequences repeats (SSR) and 20 single nucleotide polymorphism markers. The 57 lines were evaluated for grain yield and drought related traits for three years (2003/04, 2004/05, 2005/06) in nine Mediterranean low rainfall environments. A high level of polymorphism was found with SSR markers, and the mean polymorphism information content and gene diversity values were 0.67 and 0.71, respectively. The number of alleles per locus varied from 2 to 11, with an average of 5.8 alleles per marker. Considering all the 57 lines, the linkage disequilibrium (LD) analysis was significant at a comparison-wise P?<?0.01 level in nearly 9 % of the SSR marker pairs used and a decay of LD was observed to a value of r ²?<?0.2 at a genetic distance of 40?cM. The association analysis revealed a total of 147 significant marker?Ctrait associations for grain yield and drought related traits. A total of 72 (49 %) marker?Ctrait associations showed favorable effects of the exotic germplasm where the H. spontaneum lines contributed to an improvement of the trait under drought stress conditions. The number of significant marker?Ctrait associations per trait were: 12 for growth habit; 2 for growth vigor; 11 for peduncle extrusion; 5 for number of grains per spike; 20 for peduncle length; 16 for days to heading; 20 for plant height; 8 for spike length; 17 for thousand kernel weight; 30 for grain yield; 4 for harvest index and 2 for biological yield. The phenotypic variation explained by individual marker?Ctrait associations ranged from 7.6 % to 36.2 %. The identification of genomic regions associated with grain yield and drought related traits is useful for the genetic improvement of cultivars better adapted to drought stress environments. Thus, the present study is encouraging in identifying significant marker?Ctrait associations through LD based association mapping analysis, which could complement and augment previous quantitative trait loci information for the potential use of Marker Assisted Selection for drought.  相似文献   

Thermal phenotyping of stomatal sensitivity in spring barley          下载免费PDF全文

P. Rischbeck  P. Cardellach  B. Mistele  U. Schmidhalter 《Journal of Agronomy and Crop Science》2017,203(6):483-493

Thermometry and thermography are alternative methods used for measuring stomatal conductivity via transpirative cooling. However, the influence of mixed soil–plant information contained in thermal images compared to thermometric spot measurements on the measurement quality and relationships to agronomic traits remains unclear. To evaluate their respective influence, canopy temperature was measured simultaneously by two infrared thermometers (thermometry), which were oriented oblique to the plant canopy and mounted on a tractor, and a hand‐held, nadir oriented thermal camera (thermography) in irrigated and drought‐stressed spring barley cultivar trials in 2011. Canopy temperatures were separated from soil temperatures and extracted from the thermal images by matching thermal and RGB images. Thermometric measurements conducted at the beginning of shooting during a stable period of high radiation were more closely related to total plant biomass and straw yield at harvest than thermography under both irrigated and drought‐stressed conditions. Taking into account the results of this evaluation, thermometry was used for assessing the agronomic importance of stomatal sensitivity, the earliness of stomatal closure, of spring barley cultivars subjected to different water supply in 2013. In this year, 16 spring barley cultivars were grown under mild drought stress and rainfed conditions. A stomatal sensitivity index was derived relating canopy temperatures of the cultivars grown under rainfed and drought‐stressed conditions to each other. Under rainfed conditions, stomatal sensitivity was negatively related to grain protein yield with a coefficient of determination of R² = .43. Under increasing terminal drought stress, positive regression slopes of stomatal sensitivity to grain yield, biomass yield and culms/m² were observed with coefficients of determination amounting to R² = .22, .31 and .36, respectively. Stomatal sensitivity negatively impacts agricultural production under well‐watered conditions, but maintains productivity under conditions of terminal drought.  相似文献   

Genetic Analysis of Grain Yield and Other Traits of Early‐Maturing Maize Inbreds under Drought and Well‐Watered Conditions     

M. Oyekunle  B. Badu‐Apraku 《Journal of Agronomy and Crop Science》2014,200(2):92-107

Maize (Zea mays L.) is an important staple food crop in West and Central Africa (WCA). However, its production is constrained by drought. Knowledge and understanding of the genetics of hybrid performance under drought is invaluable in designing breeding strategies for improving maize yield. One hundred and fifty hybrids obtained by crossing 30 inbreds in sets using the North Carolina Design II plus six checks were evaluated under drought and well‐watered conditions for 2 years at three locations in Nigeria. The objectives of the studies were to (i) determine the mode of gene action controlling grain yield and other important agronomic traits of selected early inbred lines, (ii) examine the relationship between per se performance of inbreds and their hybrids and (iii) identify appropriate testers for maize breeding programmes in WCA. General combining ability (GCA) and specific combining ability (SCA) mean squares were significant (P < 0.01) for grain yield and other traits under the research environments. The GCA accounted for 64.5 % and 62.3 % of the total variation for grain yield under drought and well‐watered conditions, indicating that additive gene action largely controlled the inheritance of grain yield of the hybrids. Narrow‐sense heritability was 67 % for grain yield under drought and 49 % under well‐watered conditions. The correlations between traits of early‐maturing parental lines and their hybrids were significant (P < 0.01) under drought, well‐watered and across environments. Mid‐parent and better‐parent heterosis for grain yield were 45.3 % and 18.4 % under drought stress and 111.9 % and 102.6 % under well‐watered conditions. Inbreds TZEI 31, TZEI 17, TZEI 129 and TZEI 157 were identified as the best testers. Drought‐tolerant hybrids with superior performance under stress and non‐stress conditions could be obtained through the accumulation of favourable alleles for drought tolerance in both parental lines.  相似文献   

基于GGE双标图的高粱品种农艺性状和稳产性分析     

肖继兵  刘志  孔凡信  辛宗绪  吴宏生 《作物杂志》2023,39(2):36-10

为了筛选丰产稳产、适应性强的高粱新品种,促进辽西地区高粱产业健康可持续发展。2019-2020年采用随机不完全区组设计（alpha-格子设计）,通过R语言GGE双标图分析了30个高粱品种的产量和相关农艺性状。方差分析表明,年份、基因型、基因型与年份互作对高粱产量和相关农艺性状均有显著影响（P<0.05）,其产量变异的平方和占总平方和的比例分别为32.1%、41.3%和11.3%,基因型效应对产量和相关农艺性状的变异贡献率最大,株高和穗长指标遗传力较大。GGE双标图分析表明,辽杂19号、平试13和济粱2丰产稳产性较好;辽杂19号和平试13在株高、产量、穗重和穗粒重方面综合性状表现较好;辽杂19号距离“理想品种”最近,其次为平试13。皮尔逊相关分析表明,高粱籽粒产量与株高、穗重、穗粒重和穗粒数均呈极显著正相关（P<0.01）。从参试品种看,辽西半干旱地区高秆品种比矮秆品种更具产量优势。在朝阳地区,辽杂19号、平试13和济粱2具有较高的产量和稳定性。在特定生态区域,基因型是产量和相关农艺性状差异的主要因素。  相似文献   

小麦收获指数与主要农艺性状的相关性探析?   总被引：1，自引：0，他引：1  

邵旭平  王平  李卫民  代立兰 《中国农学通报》2015,31(3):88-93

小麦收获指数是指籽粒产量占地上部生物产量的百分率。研究小麦品种主要农艺性状和经济性状间与其产量的相互关系,采用相关性分析与回归方法,对影响收获指数的10个主要农艺性状及因素进行了研究分析。结果表明：供试小麦HI具有较大的改良空间;HI与穗颈长、株高、穗长、小穗数、主茎生物产量有显著负相关,与单穗质量、产量呈正相关,与生物产量没有显著相关性;主成分分析结果显示,3个主成分累积贡献率达 87.427%,表明 3 个主成分已覆盖所有性状的主要信息;通过回归分析,小麦HI与单穗籽粒产量、生物产量、千粒质量有显著回归关系。结论: 通过对10份小麦材料农艺性状的统计分析,得出如下结论。HI受单穗质量、生物产量、千粒重影响较为明显有显著回归关系,与单穗质量、产量和穗粒数有明显正效应,生物产量对其有负效应。小麦HI提高可通过选育生物产量不宜过大,而穗粒数较高、单穗重较大的小麦品种。  相似文献   

Evaluation of and selection criteria for drought resistance in Chinese semiwinter rapeseed varieties at different developmental stages          下载免费PDF全文

Qian Huang  Yongguo Zhao  Chunqing Liu  Xiling Zou  Yong Cheng  Guiping Fu  Jingsong Xu  Xuekun Zhang  Guangyuan Lu 《Plant Breeding》2015,134(5):542-550

The impacts of water deficit imposed at either the germination stage or the reproductive stage on biological traits of 37 semiwinter rapeseed varieties were analysed. The osmotic stress induced by 14% polyethylene glycol had a substantial impact on seed germination and caused significant reductions in plant growth and seed vigour. Relative water content was identified as a good indicator for early screening of drought resistance. At the reproductive stage, seed yield, 1000‐seed weight, height of the first branch, plant height and number of pods per plant were all markedly reduced under the exceptionally long and severe drought condition. Two of the top three resistant genotypes at the germination stage were also shown to be resistant based on the drought susceptibility index for seed yield. Phenotypic correlation and path analyses were employed to rank the relative importance of other agronomic traits with regard to seed yield. The important contributors to seed yield under drought conditions, in descending order, were as follows: 1000‐seed weight, days to maturity, number of pods per plant and plant height.  相似文献   

Spanish barley landraces outperform modern cultivars at low‐productivity sites     

Samia Yahiaoui  Alfonso Cuesta‐Marcos  Maria P. Gracia  Blanca Medina  José M. Lasa  Ana M. Casas  Francisco J. Ciudad  José L. Montoya  Marian Moralejo  José L. Molina‐Cano  Ernesto Igartua 《Plant Breeding》2014,133(2):218-226

Barley landraces from the western Mediterranean area have not been thoroughly exploited by modern breeding. This study aims at assessing the agronomic value of a core collection of lines derived from landraces of Spanish origin and to compare them with sets of successful old and modern cultivars. The agronomic performance of a set of 175 barley genotypes, comprising 159 landrace‐derived lines and 26 cultivars, was evaluated in a series of 10 field trials, carried out over 3 years and several locations. The most relevant trait of the landraces was higher grain yield at low production sites than cultivars, which may be related with better ability to fill the grain under stressful conditions. On the other hand, lateness, excessive plant height and lodging were negative traits frequently found in the landraces. Large genotype‐by‐environment interaction (GEI) for grain yield was detected, related partly with differences between germplasm groups, probably indicating local adaptation. GEI was also associated with the interaction of heading time and powdery mildew resistance with temperature.  相似文献   

Identification of genetic factors affecting plant density response through QTL mapping of yield component traits in maize (<Emphasis Type="Italic">Zea mays</Emphasis> L.)     

Jinjie Guo  Zongliang Chen  Zhipeng Liu  Baobao Wang  Weibin Song  Wei Li  Jing Chen  Jingrui Dai  Jinsheng Lai 《Euphytica》2011,182(3):409-422

It is generally believed that grain yield per unit area of modern maize hybrids is related to their adaptability to high plant population density. In this study, the effects of two different plant densities (52,500 and 90,000 plants/hm²) on 12 traits associated with yield were evaluated using a set of 231 F_2:3 families derived from two elite inbred lines, Zheng58 and Chang7-2. Evaluation of the phenotypes expressed under the two plant density conditions showed that high plant density condition could decrease the value of 10 measured yield component traits, while the final grain yield per hectare and the rate of kernel production were increased. Twenty-seven quantitative trait loci (QTLs) for 10 traits were detected in both high and low plant density conditions; among them, some QTLs were shown to locate in five clusters. Thirty QTLs were only detected under high plant density. These results suggest that some of the yield component traits perhaps were controlled by a common set of genes, and that kernel number per row, ear length, row number per ear, cob diameter, cob weight, and ear diameter may be influenced by additional genetic mechanisms when grown under high plant density. The QTLs identified in this study provide useful information for marker-assisted selection of varieties targeting increased plant density.  相似文献   

山西省小麦苗期根系性状及抗旱特性分析   总被引：2，自引：0，他引：2  

赵佳佳  乔玲  武棒棒  葛川  乔麟轶  张树伟  闫素仙  郑兴卫  郑军 《作物学报》2021,(4):714-727

小麦苗期根系形态是成株期根系分布的基础,与抗逆和产量密切相关,全面认识苗期根系及抗旱特性,对于抗旱优异种质的利用和早期筛选具有重要意义。采用239份山西省小麦品种(系)在土培条件下,研究了苗期根系性状及对水分胁迫的响应。结果表明,正常生长下山西小麦苗期根系性状多样性丰富,地方种变异最大;不同年代品种中,除最大根长随年代略下降外,其他性状均呈先升后降的趋势;不同根系性状对水分胁迫响应存在差异,总根长对水分最敏感,其次为根表面积、根体积和根生物量,最大根长和平均根数不敏感。苗期根系综合抗旱能力随年代呈先降后升的趋势,地方种和20世纪70年代品种多为中抗,80和90年代的品种抗旱性较低,2000年以后审定品种的抗性较高,其中旱地品种抗性最好。苗期根系抗旱特性与产量性状相关分析发现,最大根长、总根长、根体积和根生物量与雨养条件下的千粒重和产量显著正相关,最大根长和根生物量与成株期抗旱性也显著正相关。因此苗期最大根长和根生物量可作为半干旱地区旱地育种过程中抗旱性和产量的早期筛选指标。  相似文献   

Molecular mapping of QTLs for yield and its components under two water supply conditions in rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.)     

Akkareddy Srividhya  Lakshminarayana R. Vemireddy  Sakile Sridhar  Mudduluru Jayaprada  Puram V. Ramanarao  Arremsetty S. Hariprasad  Hariprasad K. Reddy  Ghanta Anuradha  Ebrahimali Siddiq 《Journal of Crop Science and Biotechnology》2011,14(1):45-56

Moisture stress is the major constraint to rice production and its stability in rainfed, mainly irrigated, and aerobic environments. Identification of genomic regions conferring tolerance to stress would improve our understanding of the genetics of stress response and result in the development of drought tolerant cultivars. In the present study, quantitative trait loci for drought response related traits and as well as grain yield were identified using a set of 140 recombinant inbred lines derived from a cross between the popular high-yielding variety, IR64 and the landrace, INRC10192. A total of 36 QTL were identified for grain yield and its components under control and stress conditions. Strikingly, a QTL cluster flanked by the markers RM38 and RM331 on chromosome 8 was found to be associated with grain yield, plant height, no. of productive tillers, chaffy grains, and spikelet fertility on secondary rachis and biomass under stress treatment. The genomic regions associated with these QTL under drought stress will be useful for the development of marker-based breeding for drought tolerant, high-yielding varieties suited to drought-prone areas.  相似文献