期刊,棉花研究（英文） 2024年卷4期_国家学术搜索

期刊信息/Journal information

棉花研究（英文）

中国农业科学院棉花研究所、中国农学会

主办单位：中国农业科学院棉花研究所、中国农学会

出版周期：季刊

国际刊号：2096-5044

电子邮箱：pia.sustal@springernature.com

棉花研究（英文）/Journal Journal of Cotton Research

查看更多>>创刊于2018年，由中华人民共和国农业农村部主管，中国农业科学院棉花研究所、中国农学会主办。期刊涵盖棉花种质资源、遗传和育种，栽培、生理、病虫草害、生物安全、农业工程，生物工程与生物技术，生物信息，分子生物学和细胞生物学，纤维发育及加工等学科，接受研究报告、综述等类型稿件。

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Combining ability and gene action studies for yield and fibre traits in Gossypium arboreum using Griffings numerical and Haymans graphical approach

SUKRUTHA BhimireddyRAJESWARI SivakamiPREMALATHA N.BOOPATHI Narayana Manikanda...

417页

查看更多>>摘要：Background For the purpose of utilising hybrid vigour to produce possible hybrids with a suitable level of stabil-ity,the knowledge of gene activity and combining ability is a crucial prerequisite before choosing desirable parents.The present study was carried out with six parents crossed in full diallel fashion and generated 30 F,hybrids.These hybrids were evaluated in two replications in Randomized Block Design at Department of Cotton,TNAU for combin-ing ability and gene action.Diallel analysis was carried out according to Griffing's method-l(parents+F,+reciprocals)and model-Ⅰ and Hayman's graphical approach by using INDOSTAT software.Results Analysis of variance for combining ability indicated that mean square values of GCA,SCA and reciprocals were highly significant for all the traits except for the uniformity index.RG763 and K12 showed highly positively significant GCA effects for most of the yield traits while PA838 and K12 for fibre quality traits,so they were found as best general combiners.PAIG379×K12 and PDB29×K12 for yield traits,and PDB29×PA838,RG763×PA838,and CNA1007×RG763 cross combinations for fibre quality traits could be recommended for future breeding programms.Conclusion The results of both Griffing's and Hayman's approaches showed that non-additive gene action predomi-nates as SCA variance was bigger than GCA variance,so heterosis breeding is thought to be a more fruitful option for enhancing GCA of many traits.

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Gene expression pattern of K transporter GhHAK5 gene of potassium efficient and in-efficient cotton cultivars based on morphological physiognomies as affected by potassium nutrition and reduced irrigation

AKHTAR Muhammad NaeemHAQ Tanveer ulAKHTAR Muhammad WaseemABBASS Ghulam...

418-419页

查看更多>>摘要：Background Under K deficiency the uptake and distribution pattern in plant cells is mediated through different transport proteins and channels which were controlled by specific gene family.Therefore,a hydroponic experiment was conducted under control condition for testing the gene expression pattern of the K transporter under adequate and low K supply levels.After that,a 2-year field experiment was conducted to evaluate five selected cotton culti-vars(four K-efficient cultivars,viz.,CIM-554,CYTO-124,FH-142,IUB-2013,and one K non-efficient,BH-212)screened from the initial hydroponics culture experiment and two levels of potassium(0 K2O kg·ha-1 and 50 K2O kg·ha-1)were tested under reduced irrigation(50％available water content;50 AWC)and normal irrigation conditions(100％avail-able water content;100 AWC).Result Results revealed that the transcript levels of GhHAK5aD in roots were significantly higher in K+efficient cultivars than that in K+non-efficient cultivars.The GhHAK5aD expression upon K+deficiency was higher in roots but lower in shoots,indicating that GhHAK5aD could have a role in K+uptake in roots,instead of transport of K+from root to shoot.Similarly,under field conditions the cultivar FH-142 showed an increase of 22.3％,4.9％,2.4％,and 1.4％as compared with BH-212,IUB-2013,CYTO-124,and CIM-554,respectively,in seed cotton yield(SCY)with K application under reduced irrigation conditions.With applied K,the FH-142 showed an increase in net photosynthetic rate by 57.3％as compared with the rest of the cultivars under reduced irrigation over K control.However,the overall performance indicators of K-efficient cultivars like FH-142,CYTO-124,CIM-554,and IUB-2013 were better than BH-212(K in-efficient)under reduced irrigation conditions with applied K at 50 kg·ha-1.Fiber quality trait improved sig-nificantly with K application under water deficit.The increase in micronaire was 3.6％,4.7％,7.8％,3.4％,and 6.7％in BH-212,IUB-2013,CIM-554,CYTO-124,and FH-142,respectively,with K application at 50 kg·ha-1 over without K application under reduced irrigation conditions during the cotton growing season.Similarly,the cultivars FH-142 increased by 12％with K application under reduced irrigation as compared with other cultivars.The performance of K-efficient cultivars under reduced irrigation conditions was 30％better in SCY and quality traits with the appli-cation of K at 50 kg·ha-1 as compared with K-non-efficient cultivars.Similarly,water use efficiency(WUE)(40.1％)and potassium use efficiency(KUE)(20.2％)were also noted higher in case of FH-142 as compared with other cultivar with K application under reduced conditions.Conclusion Higher expression of GhHAK5aD gene was observed in K-efficient cultivars as compared with K-non-efficient cultivars in roots indicates that GhHAK5aD may be contributing to genotypic differences for K+efficiency in cotton.K-efficient cotton cultivars can be used for the low-K environments and can also be recommended for gen-eral cultivars.

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Assessing genetic variation in Gossypium barbadense L.germplasm based on fibre characters

ALAGARSAMY Manivannan

420页

查看更多>>摘要：Background Gossypium barbadense L.has specific fibre in terms of its length,strength,and fineness,and known as extra-long staple(ELS)cotton,Sea-Island cotton,or Egyptian cotton.Narrow genetic base with less genetic varia-bility is observed in G.barbadense germplasm.Hence,this study was aimed to evaluate the genetic variability present in 108 germplasm accessions of G.barbadense and to identify the superior genotypes based on the fibre traits.Results We evaluated 108 accessions for five fibre quality traits along with three checks in augmented block design.All fibre traits showed significant differences among genotypes,indicating that there is genetic potential for improve-ment.Fibre strength and micronaire(MIC)showed high phenotypic and genotypic coefficients of variation.High her-itability combined with high genetic advance as percentage of mean(GAM)was recorded for fibre length,strength,and micronaire.Fibre strength and fibre length were significantly correlated with each other,while both showed negative correlation with micronaire.Principal component analysis and Biplot analysis showed that uniformity index discriminated all the genotypes in higher level,while fibre length and strength were medium in discrimination power.Biplot revealed genotypes DB 16,EC959191,GSB 39,ARBB 20,5746U,EA 203,and EA 201 were genetically diverse.Hierarchal cluster analysis based on unweighted paired group method using arithmetic average(UPGMA)grouped the genotypes into four clusters,with each cluster consisting of 4,18,48,and 38 genotypes,respectively.Conclusion Among the genotypes,34 for fibre length(＞35 mm),18 for fibre strength(＞40.4 g·tex-1)and 66 for micronaire(3.7-4.2,A grade)were identified as potential accessions based on their superiority.The superior fibre genotypes identified in this study are potential lines for the ELS cotton breeding program.

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Genome-wide identification and expression profiling of photosystem Ⅱ(PsbX)gene family in upland cotton(Gossypium hirsutum L)

RAZA IrumPARVEEN AbidaAHMAD AdeelHU Daowu...

421页

查看更多>>摘要：Background Photosystem Ⅱ(PSⅡ)constitutes an intricate assembly of protein pigments,featuring extrinsic and intrinsic polypeptides within the photosynthetic membrane.The low-molecular-weight transmembrane protein PsbX has been identified in PSⅡ,which is associated with the oxygen-evolving complex.The expression of PsbXgene protein is regulated by light.PsbX's central role involves the regulation of PSⅡ,facilitating the binding of quinone molecules to the Qb(PsbA)site,and it additionally plays a crucial role in optimizing the efficiency of photosynthesis.Despite these insights,a comprehensive understanding of the PsbX gene's functions has remained elusive.Results In this study,we identified ten PsbXgenes in Gossypium hirsutum L.The phylogenetic analysis results showed that 40 genes from nine species were classified into one clade.The resulting sequence logos exhibited substantial conservation across the N and C terminals at multiple sites among all Gossypium species.Furthermore,the ortholo-gous/paralogous,Ka/Ks ratio revealed that cotton PsbXgenes subjected to positive as well as purifying selection pressure might lead to limited divergence,which resulted in the whole genome and segmental duplication.The expression patterns of GhPsbXgenes exhibited variations across specific tissues,as indicated by the analysis.Moreover,the expression of GhPsbXgenes could potentially be regulated in response to salt,intense light,and drought stresses.Therefore,GhPsbXgenes may play a significant role in the modulation of photosynthesis under adverse abiotic conditions.Conclusion We examined the structure and function of PsbXgene family very first by using comparative genom-ics and systems biology approaches in cotton.It seems that PsbXgene family plays a vital role during the growth and development of cotton under stress conditions.Collectively,the results of this study provide basic information to unveil the molecular and physiological function of PsbX genes of cotton plants.

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An overview of pigment gland morphogenesis and its regulatory mechanism

SUN YueYANG PingHAN YifeiLI Huazu...

422页

查看更多>>摘要：Cotton has enormous economic potential,providing high-quality protein,oil,and fibre.But the comprehensive utilization of cottonseed is limited by the presence of pigment gland and its inclusion.Pigment gland is a common characteristic of Gossypium genus and its relatives,appearing as visible dark opaque dots in most tissues and organs of cotton plants.Secondary metabolites,such as gossypol,synthesized and stored in the cavities of pigment glands act as natural phytoalexins,but are toxic to humans and other monogastric animals.However,only a few cotton genes have been identified as being associated with pigment gland morphogenesis to date,and the developmental processes and regulatory mechanism involved in pigment gland formation remain largely unclear.Here,the research progress on the process of pigment gland morphogenesis and the genetic basis of cotton pigment glands is reviewed,for providing a theoretical basis for cultivating cotton with the ideal pigment gland trait.

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Characterization and screening of cotton(Gossypium hirsutum L.)germplasm for leafhopper(Amrasca biguttula biguttula(Ishida))resistance

MAWBLEI ChossterfieldPREMALATHA NallathambiMANIVANNAN AlagarsamySENGUTTUVAN Kannan...

423页

查看更多>>摘要：Background Cotton(Gossypium hirsutum L.)is one of the most significant fibre and cash crops and plays an impor-tant role in Indian industrial and agricultural economies.However,over the years quantity and quality have been hampered by the pest leafhopper.Leafhopper alone has been shown to cause yield losses of up to 40％.In this study,screening and evaluation were performed to identify and categorize 100 cotton genotypes along with 5 checks as resistant,moderately resistant,sensitive and highly sensitive to leafhoppers.Results A total of hundred genotypes were evaluated along with five checks for leafhopper resistance.Based on the screening results,a total of 19 genotypes were resistant to leafhoppers,which was on par with the findings of the check KC 3.The contents of total soluble sugar,total soluble protein,and total free amino acids were signifi-cantly positively correlated with the mean grade,whereas total phenols content and trichome density were signifi-cantly negatively correlated with the susceptibility grade.However,based on screening and biochemical analysis,the genotypes KC 2,JR-23,Samaru-26-T,D 4,TCH 1728,RS 253,and B-61-1862 exhibited high resistance to leafhopper.Conclusion According to the findings of this study,choosing genotypes with high total phenolics content together with high trichome density and low contents of total soluble sugar,total soluble protein,and free amino acids may aid in the development of resistant genotypes.

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Characterization of early maturing elite genotypes based on MTSI and MGIDI indexes:an illustration in upland cotton(Gossypium hirsutum L.)

D S RAJ SuprithaPATIL Rajesh S.PATIL Bhuvaneshwara R.NAYAK Spurthi N....

424页

查看更多>>摘要：Background Globally,the cultivation of cotton is constrained by its tendency for extended periods of growth.Early maturity plays a potential role in rainfed-based multiple cropping system especially in the current era of climate change.In the current study,a set of 20 diverse Gossypium hirsutum genotypes were evaluated in two crop seasons with three planting densities and assessed for 11 morphological traits related to early maturity.The study aimed to identify genotype(s)that mature rapidly and accomplish well under diverse environmental conditions based on the two robust multivariate techniques called multi-trait stability index(MTSI)and multi-trait genotype-ideotype distance index(MGIDI).Results MTSI analysis revealed that out of the 20 genotypes,three genotypes,viz.,NNDC-30,A-2,and S-32 accom-plished well in terms of early maturity traits in two seasons.Furthermore,three genotypes were selected using MGIDI method for each planting densities with a selection intensity of 15％.The strengths and weaknesses of the genotypes selected based on MGIDI method highlighted that the breeders could focus on developing early-maturing genotypes with specific traits such as days to first flower and boll opening.The selected genotypes exhibited positive genetic gains for traits related to earliness and a successful harvest during the first and second pickings.However,there were negative gains for traits related to flowering and boll opening.Conclusion The study identified three genotypes exhibiting early maturity and accomplished well under different planting densities.The multivariate methods(MTSI and MGIDI)serve as novel approaches for selecting desired geno-types in plant breeding programs,especially across various growing environments.These methods offer exclusive benefits and can easily construe and minimize multicollinearity issues.

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High day and night temperatures impact on cotton yield and quality—current status and future research direction

SAINI Dinesh K.IMPA S.M.MCCALLISTER DonnaPATIL Gunvant B....

425页

查看更多>>摘要：Heat waves,and an increased number of warm days and nights,have become more prevalent in major agricultural regions of the world.Although well adapted to semi-arid regions,cotton is vulnerable to high temperatures,par-ticularly during flowering and boll development.To maintain lint yield potential without compromising its quality under high-temperature stress,it is essential to understand the effects of heat stress on various stages of plant growth and development,and associated tolerance mechanisms.Despite ongoing efforts to gather data on the effects of heat stress on cotton growth and development,there remains a critical gap in understanding the distinct influence of high temperatures during the day and night on cotton yield and quality.Also,identifying mechanisms and target traits that induce greater high day and night temperature tolerance is essential for breeding climate-resilient cot-ton for future uncertain climates.To bridge these knowledge gaps,we embarked on a rigorous and comprehensive review of published literature,delving into the impact of heat stress on cotton yields and the consequential losses in fiber quality.This review encompasses information on the effects of heat stress on growth,physiological,and bio-chemical responses,fertilization,cotton yield,and quality.Additionally,we discuss management options for mini-mizing heat stress-induced damage,and the benefits of integrating conventional and genomics-assisted breeding for developing heat-tolerant cotton cultivars.Finally,future research areas that need to be addressed to develop heat-resilient cotton are proposed.

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Genome-wide identification and analysis of the CNGC gene family in upland cotton under multiple stress conditions

KIRUNGU Joy NyangasiMAGWANGA Richard OdongoSHIRAKU Margaret LinyereraOKUTO Erick...

426页

查看更多>>摘要：Background The cyclic nucleotide-gated channel(CNGC)gene family plays a significant role in the uptake of both essential and toxic cations,and has a role in enhancing tolerance to various forms of abiotic stresses as well as the modulation of the heavy metal toxicity to plant through the absorption of heavy metals.Results A complete genome-wide identification and functional characterization of the cotton CNGC genes was car-ried out,in which 55,28,and 29 CNGC genes were identified in Gossypium hirsutum,G.raimondii,and G.arboreum,respectively.The protein encoded by the CNGC genes exhibited GRAVY value below zero,indicating their hydro-philic property.CNGC genes were unevenly distributed in 19 out of 26 chromosomes,in which the highest den-sity were observed on Ah05,with 8 genes.High gene coverage was observed among the diploid cotton species,with CNGC genes mapped on all A chromosomes and on 11 out of 13 of D chromosomes.The majority of CNGC pro-teins were localized in the endoplasmic reticulum,nucleus,and plasma membrane.Gene expression analysis revealed the up-regulation of Gh_A01G0520(CNGC4)and Gh_D13G1974(CNGC5)across various forms of abiotic stresses.Moreover,down-regulation of Gh_A01G0520(CNGC4)and Gh_D13G1974(CNGC5)in CNGCs silenced plants caused the significantly reduced ability to tolerate drought and salt stresses.All CNGCs silenced plants were recorded to have significantly low content of antioxidants but relatively higher content of oxidant,including MDA and H2O2.Furthermore,SPAD,CMS(cell membrane stability),ELWL(excised leaf water loss),SDW(shoot dry matter weight),and RDW(root dry matter weight)were all lower in CNGCs silenced plants compared with the wild type plants.Conclusion Significant reduction in antioxidant content and negative effects of physiological and morphological characters in CNGCs silenced plants has revealed the novel role of CNGC genes in enhancing cell integrity under abi-otic stress conditions.These results provide vital information that will expand our understanding of the CNGC gene family in cotton and other plants,thus promoting the integration of these genes in the development of the environ-mental resilient plants.

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Enhancing waterlogging tolerance in cotton through agronomic practices

ZHANG YanjunDONG Hezhong

427页

查看更多>>摘要：Recent publications have highlighted significant progress in utilizing agronomic interventions to alleviate water-logging stress in cotton production.Based on these advancements,we provide a concise comment on the effects and underlying mechanisms of various strategies such as utilizing stress-tolerant cotton varieties,applying nitric oxide(NO),and implementing ridge intertillage.Finally,we recommend a combination of measures to enhance cotton's ability to withstand waterlogging and reduce yield losses.

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