CULM

作品数:36被引量:146H指数:8
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相关领域:农业科学更多>>
相关作者:曾秀红严松林金星张正球严长杰更多>>
相关机构:华中农业大学连云港市农业局扬州大学中国科学院植物研究所更多>>
相关期刊:《Open Journal of Forestry》《Journal of Forestry Research》《Journal of Bionic Engineering》《The Crop Journal》更多>>
相关基金:国家自然科学基金国家重点基础研究发展计划中国航空科学基金国家科技支撑计划更多>>
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Subgenome asymmetry of gibberellins-related genes plays important roles in regulating rapid growth of bamboos
《Plant Diversity》2025年第1期68-81,共14页Ling Mao Cen Guo Liang-Zhong Niu Yu-Jiao Wang Guihua Jin Yi-Zhou Yang Ke-Cheng Qian Yang Yang Xuemei Zhang Peng-Fei Ma De-Zhu Li Zhen-Hua Guo 
supported by the Key Project of Natural Science Foundation of Yunnan Province (202401AS070082);the National Natural Science Foundation of China (grants 32120103003 and 31970355)
Rapid growth is an innovative trait of woody bamboos that has been widely studied.However,the genetic basis and evolution of this trait are poorly understood.Taking advantage of genomic resources of 11 representative ...
关键词:ALLOPOLYPLOIDS GAs DEGs Culm sizes Rapid shoot growth Woody bamboos 
The MYB61-STRONG2 module regulates culm diameter and lodging resistance in rice
《Journal of Integrative Plant Biology》2025年第2期243-257,共15页Yong Zhao Xianpeng Wang Jie Gao Muhammad Abdul Rehman Rashid Hui Wu Qianfeng Hu Xingming Sun Jinjie Li Hongliang Zhang Peng Xu Qian Qian Chao Chen Zichao Li Zhanying Zhang 
funded by the Biological Breeding-National Science and Technology Major Project(2023ZD0406803);the Agro ST Project(NK2022050103);the National Natural Science Foundation of China(32272123 and 32072036);the Hainan Provincial Natural Science Foundation of China(324QN358);the Chinese Universities Scientific Fund(2024TC189);the Postdoctoral Research Projects in Hainan Province(343812);the Hainan Seed Industry Laboratory and the China National Seed Group(B23YQ1517 and B23CQ15HP);the Special Plan for Key Laboratory of“Western Light Western cross team”(xbzg-zdsys202111);the 2115 Talent Development Program of China Agricultural University。
Lodging reduces grain yield and quality in cereal crops.Lodging resistance is affected by the strength of the culm,which is influenced by the culm diameter,culm wall thickness,and cell wall composition.To explore the ...
关键词:CELLULOSE CSLA5 lodging resistance MANNOSE MYB61 STRONG2 
Breeding Resilience:Exploring Lodging Resistance Mechanisms in Rice
《Rice science》2024年第6期659-672,共14页Durga Prasad MULLANGIE Kalaimagal THIYAGARAJAN Manonmani SWAMINATHAN Jagadeesan RAMALINGAM Sritharan NATARAJAN Senthilkumar GOVINDAN 
Lodging is more than just plants falling over;it incurs significant economic losses for farmers leading to a decrease in both yield and quality of the final produce.Human management practices,such as dense sowing,exce...
关键词:RICE lodging resistance breaking and bending type lodging culm strength SCM gene prl gene LIGNIN cellulose 
Brittle culm 25, which encodes an UDP-xylose synthase, affects cell wall properties in rice被引量:2
《The Crop Journal》2023年第3期733-743,共11页Siliang Xu Mengchen Zhang Junhua Ye Dongxiu Hu Yuanyuan Zhang Zhen Li Junrong Liu Yanfei Sun Shan Wang Xiaoping Yuan Yue Feng Qun Xu Xinghua Wei Dali Zeng Yaolong Yang 
supported by the Key Research and Development Program of Zhejiang Province(2021C02056,2021C02063-6);the National Key Research and Development Program of China(2021YFD1200503);the Fundamental Research Funds for Central Public Welfare Research Institutes of China National Rice Research Institute(CPSIBRF-CNRRI-202101);Chinese Academy of Agricultural Sciences(CAAS-ASTIP-201X-CNRRI)。
Because plant mechanical strength influences plant growth and development,the regulatory mechanisms underlying cell-wall synthesis deserve investigation.Rice mutants are useful for such research.We have identified a n...
关键词:Brittle culm Mechanical strength UDP-xylose Cell wall RICE 
Influence of the Age of Bamboo Culm and Its Vertical Position on the Technological Properties of Bamboo Fibers: A Case of Bambusa vulgaris Species from Cameroonian Culture
《Open Journal of Composite Materials》2022年第3期98-110,共13页Joseph Loic Souck Theodore Tchotang Bienvenu Kenmeugne 
Due to their interesting properties, bamboo fibers are more and more used as reinforcements in polymer matrices as a substitute for synthetic fibers. For their future service life, it is important to understand their ...
关键词:Fiber Bamboo Culm Characterization ELABORATION Extraction 
Assessing Growth Parameters from Culm Cuttings of Bambusa vulgaris at the University of Dschang Botanic Garden, West Region of Cameroon: Implications for the Bamboo Resource Base and Rural Livelihoods
《Open Journal of Forestry》2022年第1期88-106,共19页Gilles Ananfack Baurel Atchombou Herman T. Zanguim Nyong Princely Awazi Steve N. Tassiamba Loic T. Tientcheu Barnabas Neba Nfornkah Rene Kaam Martin N. Tchamba 
Dwindling supplies of bamboo resources and the increase in the demand for bamboo have led to the need ...
关键词:BAMBOO Bambusa vulgaris Growth Parameters Culm Cuttings University of Dschang Botanic Garden Cameroon 
A deep learning-integrated micro-CT image analysis pipeline for quantifying rice lodging resistance-related traits被引量:13
《Plant Communications》2021年第2期51-62,共12页Di Wu Dan Wu Hui Feng Lingfeng Duan Guoxing Dai Xiao Liu Kang Wang Peng Yang Guoxing Chen Alan P.Gay John H.Doonan Zhiyou Niu Lizhong Xiong Wanneng Yang 
supported by grants from the National Key Research and Development Program(2020YFD1000904-1-3);the National Natural Science Foundation of China(31770397);the Fundamental Research Funds for the Central Universities(2662020ZKPY017);supported by the Biotechnology and Biological Sciences Research Council(BB/J004464/1,BB/CAP1730/1,BB/CSP1730/1,and BB/R02118X/1).
Lodging is a common problemin rice,reducing its yield andmechanical harvesting efficiency.Rice architecture is a key aspect of its domestication and a major factor that limits its high productivity.The ideal rice culm...
关键词:rice culm MICRO-CT lodging resistance SegNet HIGH-THROUGHPUT deep learning 
Aboveground biomass and seasonal patterns of aboveground net primary productivity in five bamboo species in northern Laos
《Journal of Plant Ecology》2020年第2期150-156,共7页Singkone Xayalath Isao Hirota Shinsuke Tomita Michiko Nakagawa 
supported by the Transnational Doctoral Programs for Leading Professionals,Nagoya University Asian Satellite Campuses Institute(2017-2019).No funding was obtained for this systematic review.
Aims Accurate estimates of bamboo biomass and net primary productivity(NPP)are required to evaluate the carbon sequestration potential of bamboo forests.However,relevant data that are important for climate change miti...
关键词:bamboo forest carbon sequestration culm dynamics LITTERFALL northern Laos SEASONALITY 
Estimation of culm volume reduction factors in five bamboo species(Phyllostachys spp.)
《Journal of Forestry Research》2019年第6期2069-2078,共10页Akio Inoue Miyuki Shimada Motohiro Sato Hiroyuki Shima 
supported by JSPS KAKENHI(Grant Numbers:15KK0220,JP16K12823,JP16K14948,25390147,18H03818,18H02244 and 18KT0027)
The hollow cylindrical culm is one of the most remarkable morphological characters of most bamboo species.In relation to its hollow structure,there are two different attributes of the culm volume in bamboo:the apparen...
关键词:APPARENT CULM VOLUME Carbon SEQUESTRATION Genus PHYLLOSTACHYS Hollow cylindrical CULM WOODY CULM VOLUME 
Changes in foliar nitrogen resorption of Phyllostachys edulis with culm development
《Journal of Forestry Research》2019年第2期417-427,共11页Changshun Zhang Chunlan Liu Wenyuan Zhang Gaodi Xie Shaohui Fan Na Li 
supported by the Key Project of National Key Research and Development Plans(2016YFC0500204);the Chinese National Basic Research Program(2013BAC03B05);the Key Project for the Strategic Science Plan in Institute of Geographic Sciences and Natural Resources Research,Chinese Academy of Sciences(No.2012ZD007);State Forestry Administration project948(2014-4-58)
Leaf nitrogen resorption is very important to Phyllostachys edulis development because the withdrawn nitrogen can help newly emerging and growing culms.However, few studies have focused on the ontogenetic changes in l...
关键词:PHYLLOSTACHYS edulis NITROGEN RESORPTION EFFICIENCY NITROGEN RESORPTION proficiency Nitrogen-use EFFICIENCY Extensive management CULM DEVELOPMENT Precision fertilization 
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