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  1. Sucking insect pests cause severe damage to cotton crop production. The development of insect resistant cotton cultivars is one of the most effective measures in curtailing the yield losses. Considering the ro...

    Authors: Muhammad RIZWAN, Saifullah ABRO, Muhammad Usman ASIF, Amjad HAMEED, Wajid MAHBOOB, Zaheer Ahmed DEHO and Mahboob Ali SIAL
    Citation: Journal of Cotton Research 2021 4:18
  2. The photosynthetic parameters of cotton plants may be modified by the timing of film removal during their growing period. This study was undertaken during 2015–2017 in Xinjiang, China, to determine to what ext...

    Authors: Zhanqin ZHANG, Li ZHANG, Haiyan TIAN, Yuan NIU and Xiangkun YANG
    Citation: Journal of Cotton Research 2021 4:17
  3. Cotton is an important commercial crop for being a valuable source of natural fiber. Its production has undergone a sharp decline because of abiotic stresses, etc. Drought is one of the major abiotic stress ca...

    Authors: Teame Gereziher MEHARI, Yanchao XU, Richard Odongo MAGWANGA, Muhammad Jawad UMER, Joy Nyangasi KIRUNGU, Xiaoyan CAI, Yuqing HOU, Yuhong WANG, Shuxun YU, Kunbo WANG, Zhongli ZHOU and Fang LIU
    Citation: Journal of Cotton Research 2021 4:15
  4. Cotton production substantiated a crucial part in the escalating economic development of many countries. To realize the increasing global demand for cotton, the emphasis should be laid on to improve cotton fib...

    Authors: Ravinderdeep SINGH BRAR, Avneesh KUMAR, Simranjeet KAUR, Sandip SAHA, Anuj KUMAR and Sandeep KUMAR
    Citation: Journal of Cotton Research 2021 4:16
  5. Gossypol found in cottonseeds is toxic to human beings and monogastric animals and is a primary parameter for the integrated utilization of cottonseed products. It is usually determined by the techniques relie...

    Authors: Cheng LI, Bangsong SU, Tianlun ZHAO, Cong LI, Jinhong CHEN and Shuijin ZHU
    Citation: Journal of Cotton Research 2021 4:13
  6. Cotton fiber yield is a complex trait, which can be influenced by multiple agronomic traits. Unravelling the genetic basis of cotton fiber yield-related traits contributes to genetic improvement of cotton.

    Authors: Chunping GUO, Zhenyuan PAN, Chunyuan YOU, Xiaofeng ZHOU, Cong HUANG, Chao SHEN, Ruihai ZHAO, Qingyong YANG, Longfu ZHU, Raheel SHAHZAD, Fande MENG, Zhongxu LIN and Xinhui NIE
    Citation: Journal of Cotton Research 2021 4:10
  7. Micronaire is a comprehensive index reflecting the fineness and maturity of cotton fiber. Micronaire is one of the important internal quality indicators of the cotton fiber and is closely related to the value ...

    Authors: Jikun SONG, Wenfeng PEI, Jianjiang MA, Shuxian YANG, Bing JIA, Yingying BIAN, Yue XIN, Luyao WU, Xinshan ZANG, Yanying QU, Jinfa ZHANG, Man WU and Jiwen YU
    Citation: Journal of Cotton Research 2021 4:14
  8. In order to uncover the mechanism of significantly reduced insect resistance at the late developmental stage in cotton (Gossypium hirsutum L.), the relationship between boll setting rate under different planting ...

    Authors: Mingyuan ZHOU, Chen CHEN, Leila I. M. TAMBEL, Yuan CHEN, Xiang ZHANG, Yuan CHEN and Dehua CHEN
    Citation: Journal of Cotton Research 2021 4:12
  9. Soil salt stress seriously restricts the yield and quality of cotton worldwide. To investigate the molecular mechanism of cotton response to salt stress, a main cultivated variety Gossypium hirsutum L. acc. Xinlu...

    Authors: Lin CHEN, Heng SUN, Jie KONG, Haijiang XU and Xiyan YANG
    Citation: Journal of Cotton Research 2021 4:11
  10. Oxidative stress occurs when crop plants are exposed to extreme abiotic conditions that lead to the excessive production and accumulation of reactive oxygen species (ROS). Those extreme abiotic conditions or s...

    Authors: Zainab QAMER, Muhammad Tanees CHAUDHARY, Xiongming DU, Lori HINZE and Muhammad Tehseen AZHAR
    Citation: Journal of Cotton Research 2021 4:9
  11. Stem hardness is one of the major influencing factors for plant architecture in upland cotton (Gossypium hirsutum L.). Evaluating hardness phenotypic traits is very important for the selection of elite lines for ...

    Authors: Irum RAZA, Daowu HU, Adeel AHMAD, Hongge LI, Shoupu HE, Mian Faisal NAZIR, Xiaoyang WANG, Yinhua JIA, Zhaoe PAN, Peng ZHANG, Muhammad YASIR, Muhammad Shahid IQBAL, Xiaoli GENG, Liru WANG, Baoyin PANG and Xiongming DU
    Citation: Journal of Cotton Research 2021 4:8
  12. GASA (Giberellic Acid Stimulated in Arabidopsis) gene family plays a crucial role in the phytohormone signaling pathway, growth and development, and stress responses in plants. Many GASA homologs have been identi...

    Authors: Kaikai QIAO, Changkai MA, Jiaoyan LV, Chaojun ZHANG, Qifeng MA and Shuli FAN
    Citation: Journal of Cotton Research 2021 4:7
  13. An amendment to this paper has been published and can be accessed via the original article.

    Authors: Jichao JI, Ningbo HUANGFU, Junyu LUO, Xueke GAO, Lin NIU, Shuai ZHANG and Jinjie CUI
    Citation: Journal of Cotton Research 2021 4:6

    The original article was published in Journal of Cotton Research 2021 4:5

  14. The worldwide pest Aphis gossypii has three-winged morphs in its life cycle, namely, winged parthenogenetic female (WPF), winged gynopara (GP), and winged male, which are all produced by a wingless parthenogeneti...

    Authors: Jichao JI, Ningbo HUANGFU, Junyu LUO, Xueke GAO, Lin NIU, Shuai ZHANG and Jinjie CUI
    Citation: Journal of Cotton Research 2021 4:5

    The Correction to this article has been published in Journal of Cotton Research 2021 4:6

  15. Calmodulin (CaM) is one of the most important Ca2+ signaling receptors because it regulates diverse physiological and biochemical reactions in plants. CaM functions by interacting with CaM-binding proteins (CaMBP...

    Authors: Lingling DOU, Limin LV, Yangyang KANG, Ruijie TIAN, Deqing HUANG, Jiayin LI, Siyi LI, Fengping LIU, Lingyan CAO, Yuhua JIN, Yang LIU, Huaizhu LI, Wenbo WANG, Chaoyou PANG, Haihong SHANG, Changsong ZOU…
    Citation: Journal of Cotton Research 2021 4:4
  16. Upland cotton (Gossypium hirsutum) accounts for more than 90% of the annual world cotton output because of its high yield potential. However, yield and fiber quality traits often show negative correlations. We co...

    Authors: Hongge LI, Zhaoe PAN, Shoupu HE, Yinhua JIA, Xiaoli GENG, Baojun CHEN, Liru WANG, Baoyin PANG and Xiongming DU
    Citation: Journal of Cotton Research 2021 4:3
  17. Cotton fiber quality and seed composition play vital roles in the economics of cotton production systems and the cottonseed meal industry. This research aimed to examine the effects of different irrigation lev...

    Authors: Srinivasa R. PINNAMANENI, Saseendran S. ANAPALLI, Ruixiu SUI, Nacer BELLALOUI and Krishna N. REDDY
    Citation: Journal of Cotton Research 2021 4:2
  18. Cotton (Gossypium spp.) contributes significantly to the economy of cotton-producing countries. Pakistan is the fourth-largest producer of cotton after China, the USA and India. The average yield of cotton is abo...

    Authors: Abdul RAZZAQ, Muhammad Mubashar ZAFAR, Arfan ALI, Abdul HAFEEZ, Wajeeha BATOOL, Yuzhen SHI, Wankui GONG and Youlu YUAN
    Citation: Journal of Cotton Research 2021 4:1
  19. Meta-analysis of quantitative trait locus (QTL) is a computational technique to identify consensus QTL and refine QTL positions on the consensus map from multiple mapping studies. The combination of meta-QTL i...

    Authors: Shudi XU, Zhenyuan PAN, Feifan YIN, Qingyong YANG, Zhongxu LIN, Tianwang WEN, Longfu ZHU, Dawei ZHANG and Xinhui NIE
    Citation: Journal of Cotton Research 2020 3:34
  20. The introduction of Bacillus thuringiensis (Bt) cotton has reduced the burden of pests without harming the environment and human health. However, the efficacy of Bt cotton has decreased due to field-evolved resis...

    Authors: Muhammad Mubashar ZAFAR, Abdul RAZZAQ, Muhammad Awais FAROOQ, Abdul REHMAN, Hina FIRDOUS, Amir SHAKEEL, Huijuan MO and Maozhi REN
    Citation: Journal of Cotton Research 2020 3:33
  21. Segregation distortion (SD) is a common phenomenon among stable or segregating populations, and the principle behind it still puzzles many researchers. The F2:3 progenies developed from the wild cotton species of...

    Authors: Joy Nyangasi KIRUNGU, Richard Odongo MAGWANGA, Margaret Linyerera SHIRAKU, Pu LU, Teame Gereziher MEHARI, Yuanchao XU, Yuqing HOU, Stephen Gaya AGONG, Yun ZHOU, Xiaoyan CAI, Zhongli ZHOU, Kunbo WANG and Fang LIU
    Citation: Journal of Cotton Research 2020 3:32
  22. The strength of cotton fiber has been extensively studied and significant improvements in fiber strength have been made, but fiber elongation has largely been ignored, despite it contributing to the energy nee...

    Authors: Christopher D. DELHOM, Eric F. HEQUET, Brendan KELLY, Noureddine ABIDI and Vikki B. MARTIN
    Citation: Journal of Cotton Research 2020 3:31
  23. Since the commercial release of Bt cotton in Burkina Faso in 2009, the issue of seed purity in producers’ fields has rarely been addressed in an unbiased and objective manner. The potential for contamination o...

    Authors: Larbouga BOURGOU, Ester KARGOUGOU, Mahamadou SAWADOGO and Michel FOK
    Citation: Journal of Cotton Research 2020 3:30
  24. Since the advent of transgenic technology, the incorporation of gene(s) encoding traits of economic importance in cotton is being practiced worldwide. However, factors like recalcitrant nature of cotton cultiv...

    Authors: Caner YAVUZ, Shakhnozakhan TILLABOEVA and Allah BAKHSH
    Citation: Journal of Cotton Research 2020 3:29
  25. An optimal N rate is one of the basic determinants for high cotton yield. The purpose of this study was to determine the optimal N rate on a new cotton cropping pattern with late-sowing, high density and one-t...

    Authors: Xinghu SONG, Ying HUANG, Yuan YUAN, Atta Tung SHAHBAZ, Souliyanonh BIANGKHAM and Guozheng YANG
    Citation: Journal of Cotton Research 2020 3:28
  26. Naturally-colored cotton has become increasingly popular because of their natural properties of coloration, UV protection, flame retardant, antibacterial activity and mildew resistance. But poor fiber quality ...

    Authors: Zhonghua LI, Qian SU, Mingqi XU, Jiaqi YOU, Anam Qadir KHAN, Junyi LI, Xianlong ZHANG, Lili TU and Chunyuan YOU
    Citation: Journal of Cotton Research 2020 3:27
  27. Cotton is the world’s largest and most important source of renewable natural fiber. BEL1-like homeodomain (BLH) genes are ubiquitous in plants and have been reported to contribute to plant development. However, t...

    Authors: Cuixia LIU, Zhifang LI, Lingling DOU, Yi YUAN, Changsong ZOU, Haihong SHANG, Langjun CUI and Guanghui XIAO
    Citation: Journal of Cotton Research 2020 3:26
  28. This study aimed to develop a set of perfect simple sequence repeat (SSR) markers with a single copy in the cotton genome, to construct a DNA fingerprint database suitable for authentication of cotton cultivar...

    Authors: Yuzhen WU, Longyu HUANG, Dayun ZHOU, Xiaoqiong FU, Chao LI, Shoujun WEI, Jun PENG and Meng KUANG
    Citation: Journal of Cotton Research 2020 3:21
  29. For controlling the resistance to insects, in particular carpophagous and phyllophagous caterpillars, using chemical pesticides has led to contamination of cotton area in Benin. Facing this problem, alternativ...

    Authors: H. Fabrice DANNON, A. Elie DANNON, O. Kobi DOURO-KPINDOU, A. Valerien ZINSOU, A. Thomas HOUNDETE, Joëlle TOFFA-MEHINTO, I. A. T. Maurille ELEGBEDE, B. Dénis OLOU and Manuele TAMÒ
    Citation: Journal of Cotton Research 2020 3:24
  30. Cotton is known for fiber extraction and it is grown in tropical and sub-tropical areas of the world due to having hot weather. Cotton crop has a significant role in GDP of Pakistan. Therefore, the two-years r...

    Authors: Abdul REHMAN, Nida MUSTAFA, Xiongming DU and Muhammad Tehseen AZHAR
    Citation: Journal of Cotton Research 2020 3:23
  31. Genetic improvement in fiber quality is one of the main challenges for cotton breeders. Quantitative trait loci (QTL) mapping provides a powerful approach to dissect the molecular mechanism in fiber quality tr...

    Authors: LingLing MA, Ying SU, Hushuai NIE, Yupeng CUI, Cheng CHENG, Babar IJAZ and Jinping HUA
    Citation: Journal of Cotton Research 2020 3:22
  32. An amendment to this paper has been published and can be accessed via the original article.

    Authors: Chavi MAHAJAN, Rafiuddin NASER, Shuban RAWAL, Prashant PYATI, Bhuban PANDA, Purushottam LOMATE and Shantikumar GUPTA
    Citation: Journal of Cotton Research 2020 3:20

    The original article was published in Journal of Cotton Research 2020 3:2

  33. Cotton somatic embryogenesis is difficult or rarely frequent to present, which has limited gene function identification and biotechnological utility. Here, we employed a rice key somatic embryogenesis-related ...

    Authors: Zhian WANG, Peng WANG, Guang HU, Juanli XIAO, Anhong ZHANG, Xiaoli LUO and Jiahe WU
    Citation: Journal of Cotton Research 2020 3:19
  34. Light attenuation within a row of crops such as cotton is influenced by canopy architecture, which is defined by size, shape and orientation of shoot components. Level of light interception causes an array of ...

    Authors: Blessing CHAPEPA, Nhamo MUDADA and Rangarirai MAPURANGA
    Citation: Journal of Cotton Research 2020 3:18
  35. Photosynthate partitioning and within-plant boll distribution play an important role in yield formation of cotton; however, if and how they interact to mediate yield remains unclear. The objective of this stud...

    Authors: Junjun NIE, Dulin QIN, Lili MAO, Yanhui LIU, Hezhong DONG, Xianliang SONG and Xuezhen SUN
    Citation: Journal of Cotton Research 2020 3:15
  36. This study addressed the potential of combining a high biomass rye winter cover crop with predawn leaf water potential (ΨPD) irrigation thresholds to increase agricultural water use efficiency (WUE) in cotton. To...

    Authors: Calvin D. MEEKS, John L. SNIDER, Stanley CULPEPPER and Gary HAWKINS
    Citation: Journal of Cotton Research 2020 3:16
  37. Cotton fiber is a single-celled seed trichome that originates from the ovule epidermis. It is an excellent model for studying cell elongation. Along with the elongation of cotton fiber cell, the plasma membran...

    Authors: Fan XU, Xiaodong SUO, Fang LI, Chaoya BAO, Shengyang HE, Li HUANG and Ming LUO
    Citation: Journal of Cotton Research 2020 3:13
  38. Verticillium wilt, caused by the soil-borne fungus of Verticillium dahliae Kleb., is one of the most devastating diseases of cotton. The complex mechanism underlying cotton resistance to Verticillium wilt remains...

    Authors: Xiangyue ZHANG, Zili FENG, Lihong ZHAO, Shichao LIU, Feng WEI, Yongqiang SHI, Hongjie FENG and Heqin ZHU
    Citation: Journal of Cotton Research 2020 3:12
  39. Salt stress significantly inhibits the growth, development, and productivity of cotton because of osmotic, ionic, and oxidative stresses. Therefore, the screening and development of salt tolerant cotton cultiv...

    Authors: Ripon Kumar SIKDER, Xiangru WANG, Dingsha JIN, Hengheng ZHANG, Huiping GUI, Qiang DONG, Nianchang PANG, Xiling ZHANG and Meizhen SONG
    Citation: Journal of Cotton Research 2020 3:11
  40. Fiber length is one of the primary quality parameters for the cotton industry when considering the textile performance and end-use quality of cotton. Currently, many decisions regarding cotton fiber length uti...

    Authors: Zachary HINDS, Brendan Robert KELLY and Eric Francois HEQUET
    Citation: Journal of Cotton Research 2020 3:10

    The Correction to this article has been published in Journal of Cotton Research 2020 3:14

  41. Gossypium hirsutum is highly susceptible to Verticillium wilt, and once infected Verticillium wilt, its yield is greatly reduced. But G. barbadense is highly resistant to Verticillium wilt. It is possible that tr...

    Authors: Tingting QIU, Yanjun WANG, Juan JIANG, Jia ZHAO, Yanqing WANG and Junsheng QI
    Citation: Journal of Cotton Research 2020 3:9
  42. In the original publication of this article [1] the name of the forth author is incorrect.

    Authors: Doudou YANG, Jing AN, Fangjun LI, A. Egrinya ENEJI, Xiaoli TIAN and Zhaohu LI
    Citation: Journal of Cotton Research 2020 3:6

    The original article was published in Journal of Cotton Research 2020 3:4

  43. Plant height (PH) and fruit branch number (FBN) are important traits for improving yield and mechanical harvesting of cotton. In order to identify genes of PH and FBN in cotton germplasms to develop superior c...

    Authors: Ruixian LIU, Xianghui XIAO, Juwu GONG, Junwen LI, Zhen ZHANG, Aiying LIU, Quanwei LU, Haihong SHANG, Yuzhen SHI, Qun GE, Muhammad Sajid IQBAL, Quanjia CHEN, Youlu YUAN and Wankui GONG
    Citation: Journal of Cotton Research 2020 3:5
  44. Manual topping is a routine agronomic practice for balancing the vegetative and reproductive growth of cotton (Gossypium hirsutum) in China, but its cost-effectiveness has decreased over time. Therefore, there is...

    Authors: Doudou YANG, AN Jing, LI Fangjun, ENEJI A. Egrinya, TIAN Xiaoli and LI Zhaohu
    Citation: Journal of Cotton Research 2020 3:4

    The Correction to this article has been published in Journal of Cotton Research 2020 3:6

  45. Cotton is mainly grown for its natural fiber and edible oil. The fiber obtained from cotton is the indispensable raw material for the textile industries. The ever changing climatic condition, threatens cotton ...

    Authors: Richard Odongo MAGWANGA, Pu LU, Joy Nyangasi KIRUNGU, Xiaoyan CAI, Zhongli ZHOU, Stephen Gaya AGONG, Kunbo WANG and Fang LIU
    Citation: Journal of Cotton Research 2020 3:3

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eISSN: 2523-3254
pISSN: 2096-5044 
CN: 41-1451/S