Results 141 to 150 of about 239,475 (187)
HDA-YOLO: a hierarchical and densely-fused attention network for rice pest detection in complex agricultural environments. [PDF]
Front Plant SciYuan S, Duan Y, Su H, Zhou X, Hao Y.
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Influence of organic growing medium supplemented with jeevamrit on physiological and biochemical responses of ornamental kale under subtropical conditions. [PDF]
BMC Plant BiolPangtu S +6 more
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QTL analysis of leaf architecture
Journal of Plant Research, 2009Leaf size and shape define the photosynthetic capability of a plant and have a significant impact on important agronomic traits, such as yield, quality, disease resistance and stress responses. Cultivated varieties of many plant species show remarkable variations in leaf morphology.
José Manuel, Pérez-Pérez +2 more
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Leaf architecture in Tamaricaceae
Proceedings / Indian Academy of Sciences, 1988The leaf architectural pattern in 6 species ofTamarix and two species ofMyricaria has been investigated. The leaves are simple, alternate and sessile. InTamarix aphylla, Tamarix dioica, Tamarix gracilis andTamarix troupii the leaves are completely or partially sheathing. In these species only the primary vein is distinguishable, the secondaries and the
A K Gupta, Y S Murty
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Leaf architecture of Apocynaceae
Proceedings / Indian Academy of Sciences, 1982Leaf architecture including venation pattern has been studied in 19 genera and 29 species of the Apocynaceae. The leaves are simple, alternate, opposite or whorled with entire margin and a simple midrib. The major venation pattern conforms to pinnate camptodromous type with festooned brochidodromous secondaries.
J S S Mohan, J A Inamdar
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Leaf architecture in some Amaranthaceae
Feddes Repertorium, 1994AbstractThis paper deals with the leaf architecture of 17 species of the Amaranthaceae. The venation shows mostly pinnate brochidodromy and in some eucamp‐todromy. A new venation pattern — mixed brochidodromy — is reported for the first time. Leaf architectural features help to distinguish all the species investigated and accordingly a key is provided ...
S. R. Shanmukha Rao, K. Narmada
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Leaf Architecture in Some Solanaceae
Flora, 1978Abstract Pinnate camptodromous venation is observed in twelve species of the Solanaceae. The solanaceous leaves are univeined. The number of secondaries and free vein endings vary in each species irrespective of the leaf and areole size. Looped marginal ultimate venation is observed in majority of the species studied whereas in others marginal ...
J.A. Inamdar, G.S.R. Murthy
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Leaf architecture of Hamelieae (Rubiaceae)
Feddes Repertorium, 2007AbstractThe tribe Hamelieae sensu Robbrecht comprises seven genera, and is traditionally placed in subfamily Rubioideae. Molecular data, however, places Hamelieae within Cinchonoideae. In this study, leaf architecture characters were examined in order to provide further evidence for the circumscription of Hamelieae and discuss its placement in the ...
D. Martínez‐Cabrera +2 more
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Leaf architecture of some acanthaceae
The Botanical Magazine Tokyo, 1984Leaf architectural pattern has been studied in 27 genera and 35 species of the Acanthaceae. The major venation pattern conforms to pinnate camptodromous with eucamptodromous or festooned brochidodromous secondaries, pinnate craspedodromous inAcanthus ilicifolius and acrodromous inLepidagathis trinervis. Intersecondary veins are common.
Gopal S. Chaudhari +1 more
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Genomic architecture of leaf senescence in sorghum (Sorghum bicolor)
Theoretical and Applied Genetics, 2023Leaf senescence in sorghum is primarily controlled by the progression, but not by the onset of senescence. The senescence-delaying haplotypes of 45 key genes accentuated from landraces to improved lines. Leaf senescence is a genetically programmed developmental process and plays a central role for plant survival and crop production by remobilising ...
Lidong Wang +4 more
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