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Awnedness affects grain yield and kernel weight in near-isogenic lines of durum wheat
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Brancourt-Hulmel Maryse,
Heumez Emmanuel,
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Jähne Felix,
Phillips Andrew L,
Langer Simon M,
Longin C Friedrich H,
Tucker Matthew R,
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Singh Vijay,
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Sanchez-Bragado R.,
Kim J.W.,
Rivera-Amado C.,
Molero G.,
Araus J.L.,
Savin R., Slafer Gustavo A.
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Johnson R.C.,
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Giunta F, Motzo R
Field Crops Research. 2004 87(2-3). p.179
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Villegas D.,
García del Moral L. F.,
Rharrabti Y.,
Martos V., Royo C.
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Li Dan,
Wang Guoxin,
Zhang Deyun,
Yuan Chengguo,
Wang Lixin,
You Mingshan,
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Coneva Viktoriya,
Goad David M.,
Jenkins Lauren M.,
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The Plant Cell. 2020 32(11). p.3500
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Wang Xiaobo,
Li Sen,
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Yin Changbin,
Wang Ziying,
Wu He,
Shen Kuocheng,
Zhang Zhiliang,
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Bi Aoyue,
Zhao Xuebo,
Xu Daxing,
He Zhonghu,
Zhang Xueyong,
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Gong Yan,
Yu Xuchang,
Sun Zhiwen,
Ye Botao,
Liu Danni,
Zhang Lili,
Shen Liping,
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Yano Kentaro,
Iwata Hiroyoshi,
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Plant And Cell Physiology. 2022 63(7). p.901
Physiological drivers of responses of grains per m2 to environmental and genetic factors in wheat
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García Guillermo A.,
Serrago Román A., Miralles Daniel J.
Field Crops Research. 2022 285 p.108593
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Lauer Edwin,
Sarinelli Martin,
Tyagi Priyanka,
Fu Daolin,
Hao QunQun,
Murphy J. Paul,
Marshall David,
Akhunova Alina,
Jordan Katherine,
Akhunov Eduard, Brown‐Guedira Gina
New Phytologist. 2020 225(1). p.326
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Shcherban Andrey B.,
Kuvaeva Diana D.,
Mitrofanova Olga P.,
Khverenets Svetlana E.,
Pryanishnikov Alexander I., Salina Elena A.
Plants. 2021 10(11). p.2285
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Niu Jianqing,
Zheng Shusong,
Shi Xiaoli,
Si Yaoqi,
Tian Shuiquan,
He Yilin, Ling Hong-Qing
The Crop Journal. 2020 8(4). p.613
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Tambussi Eduardo A.,
Bort Jordi,
Guiamet Juan José,
Nogués Salvador, Araus José Luis
Critical Reviews in Plant Sciences. 2007 26(1). p.1
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Ntakirutimana Fabrice,
Wan Yiyang,
Liu Wenhui, Xie Wengang
Agronomy. 2021 11(11). p.2219
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Pradeep S. D.,
Paul Vijay,
Pandey Rakesh,
Harikrishna ,
Jain Neelu,
Kumar Pramod,
Singh P. K.,
Meena R. C.,
Aishwarya K. R., Dineshkumar G.
Plant Physiology Reports. 2024
Genomics of the Saccharinae (2013)
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Sanchez-Bragado Rut,
Molero Gemma,
Araus José L., Slafer Gustavo A.
Trends in Plant Science. 2023 28(3). p.330
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Abebe Tilahun,
Wise Roger P., Skadsen Ronald W.
The Plant Genome. 2009 2(3).
The contribution of ear photosynthesis to grain filling in bread wheat (Triticum aestivum L.)
Maydup M.L.,
Antonietta M.,
Guiamet J.J.,
Graciano C.,
López J.R., Tambussi E.A.
Field Crops Research. 2010 119(1). p.48
Climate Change and Crop Stress (2022)
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Liu Tianxiang,
Shi Xue,
Wang Jun,
Song Jiawang,
Xiao Enshi,
Wang Yong,
Gao Xin,
Nan Wenzhi, Wang Zhonghua
Plants. 2021 10(12). p.2588
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Zhang Yuchen,
Komorek Rachel,
Zhu Zihua,
Huang Qiaoyun,
Chen Wenli,
Jansson Janet,
Jansson Christer, Yu Xiao-Ying
Biointerphases. 2022 17(3).
Flowering Plants. Monocots (2015)
The contribution of the awns of bread wheat (Triticum aestivum L.) to grain filling: Responses to water deficit and the effects of awns on ear temperature and hydraulic conductance
Maydup M.L.,
Antonietta M.,
Graciano C.,
Guiamet J.J., Tambussi E.A.
Field Crops Research. 2014 167 p.102
Costs and benefits of awns
Guo Zifeng, Schnurbusch Thorsten
Journal of Experimental Botany. 2016 67(9). p.2533
Anatomical and Physiological Characteristics of Awn Development in Elymus nutans, an Important Forage Grass in Qinghai-Tibet Plateau
Qiu Yongsen, Xie Wengang
Agronomy. 2023 13(3). p.862
Awn anatomy of common wheat (Triticum aestivumL.) and its relatives
Li Xing-feng,
Bin Du, Hong-gang Wang
Caryologia. 2010 63(4). p.391
Ear photosynthesis in C3 cereals and its contribution to grain yield: methodologies, controversies, and perspectives
Tambussi Eduardo A,
Maydup María L,
Carrión Cristian A,
Guiamet Juan J, Araus Jose L
Journal of Experimental Botany. 2021 72(11). p.3956
Potential Effects of Awn Length Variation on Seed Yield and Components, Seed Dispersal and Germination Performance in Siberian Wildrye (Elymus sibiricus L.)
Ntakirutimana Fabrice,
Xiao Bowen,
Xie Wengang,
Zhang Junchao,
Zhang Zongyu,
Wang Na, Yan Jiajun
Plants. 2019 8(12). p.561
Bearded or smooth? Awns improve yield when wheat experiences heat stress during grain fill in the southeastern United States
DeWitt Noah,
Lyerly Jeanette,
Guedira Mohammed,
Holland James B,
Murphy J Paul,
Ward Brian P,
Boyles Richard E,
Mergoum Mohamed,
Babar Md Ali,
Shakiba Ehsan,
Sutton Russel,
Ibrahim Amir,
Tiwari Vijay,
Santantonio Nicholas,
Van Sanford David A,
Howell Kimberly,
Smith Jared H,
Harrison Stephen A,
Brown-Guedira Gina, Dreisigacker Susanne
Journal of Experimental Botany. 2023 74(21). p.6749
Advances in Wheat Breeding (2024)
Awns play a dominant role in carbohydrate production during the grain‐filling stages in wheat (Triticum aestivum)
Li Xiaojuan,
Wang Honggang,
Li Hanbing,
Zhang Lingyun,
Teng Nianjun,
Lin Qingqing,
Wang Jian,
Kuang Tingyun,
Li Zhensheng,
Li Bin,
Zhang Aimin, Lin Jinxing
Physiologia Plantarum. 2006 127(4). p.701
Barley awn dimensions and barbs changes under terminal drought stress and its relation to grain yield and carbon isotope discrimination
Afshari-Behbahanizadeh Sanaz,
Akbari Gholam-Ali,
Shahbazi Maryam,
Sanjari Sepideh,
Rizza Fulvia,
Badeck Franz-Werner,
Farahani Leila, Alahdadi Iraj
Cereal Research Communications. 2024
Morphological variations of qualitative traits of barley (Hordeum vulgare L.) accessions in Ethiopia
Yirgu Mihret,
Kebede Mulugeta,
Feyissa Tileye,
Lakew Berhane, Woldeyohannes Aemiro Bezabih
Heliyon. 2022 8(10). p.e10949
The contribution of green parts of the ear to grain filling in old and modern cultivars of bread wheat (Triticum aestivum L.): Evidence for genetic gains over the past century
Maydup M.L.,
Antonietta M.,
Guiamet J.J., Tambussi E.A.
Field Crops Research. 2012 134 p.208
Statistical modeling for analyzing grain yield of durum wheat under rainfed conditions in Azad Jammu Kashmir, Pakistan
Abbas K.,
Hussain Z.,
Hussain M.,
Rahim F.,
Ashraf N.,
Khan Q.,
Raza G.,
Ali A.,
Khan D. M.,
Khalil U., Irshad N.
Brazilian Journal of Biology. 2022 82
Scale and Complexity in Plant Systems Research (2007)
