Articles citing this paper
Different leaf surface characteristics of three grape cultivars affect leaf optical properties as measured with fibre optics: possible implication in stress tolerance
G. Karabourniotis, J. F. Bornman and V. Liakoura
26(1) pp.47 - 53
24 articles found in Crossref database.
Connective and adipose tissue detection by simultaneous fluorescence and reflectance measurements with an on-line meat probe
Swatland H.J
Food Research International. 2000 33(9). p.749
Ferns in an Angiosperm World: Cretaceous Radiation into the Epiphytic Niche and Diversification on the Forest Floor
Watkins J. E., Cardelús Catherine L.
International Journal of Plant Sciences. 2012 173(6). p.695
Density, Length and Development of Non-glandular Trichome on the Leaves of Wild Chrysanthemums and Chrysanthemum Cultivars
Sumitomo Katsuhiko,
Nishijima Takaaki,
Onozaki Takashi, Shibata Michio
Horticultural Research (Japan). 2006 5(4). p.351
Changes in Photosynthetic Characteristics between Green-Leaf Poplar Linn. “2025” and Its Bud-Sporting Colored-Leaf Cultivars
Wang Tao,
Xu Donghuan,
Zhang Fan,
Yan Tengyue,
Li Yuhang,
Wang Zhong,
Xie Yinfeng, Zhuang Weibing
International Journal of Molecular Sciences. 2024 25(2). p.1225
Morphological characterization of intraspecific variation for trichome traits in tomato (Solanum lycopersicum)
Kaur Satinderpal,
Khanal Neetu,
Dearth Robert, Kariyat Rupesh
Botanical Studies. 2023 64(1).
Morphology, Structure, and Ontogeny of Trichomes of the Grape Genus (Vitis, Vitaceae)
Ma Zhi-Yao,
Wen Jun,
Ickert-Bond Stefanie M.,
Chen Long-Qing, Liu Xiu-Qun
Frontiers in Plant Science. 2016 7
The ability of abaxial and adaxial epidermis of sun and shade leaves to attenuate UV‐A and UV‐B radiation in relation to the UV absorbing capacity of the whole leaf methanolic extracts
Liakoura Vally,
Bornman Janet F., Karabourniotis George
Physiologia Plantarum. 2003 117(1). p.33
Exposed red leaves display adaptive adjustments in chlorophyll and photosystem ratios compatible with the shade imposed by anthocyanin accumulation
ZELIOU K.,
KYZERIDOU A., PETROPOULOU Y.
Photosynthetica. 2022 60(SPECIAL ISSUE 2022). p.70
The Photoprotective Role of Epidermal Anthocyanins and Surface Pubescence in Young Leaves of Grapevine (Vitis vinifera)
LIAKOPOULOS GEORGIOS,
NIKOLOPOULOS DIMOSTHENIS,
KLOUVATOU ASPASIA,
VEKKOS KORNILIOS-ANDRIANOS,
MANETAS YIANNIS, KARABOURNIOTIS GEORGE
Annals of Botany. 2006 98(1). p.257
Anthocyanins in photoprotection: knowing the actors in play to solve this complex ecophysiological issue
Agati Giovanni,
Guidi Lucia,
Landi Marco, Tattini Massimiliano
New Phytologist. 2021 232(6). p.2228
Broadleaf and conifer tree responses to long-term enhanced UV-B radiation in outdoor experiments: a review
Trošt Sedej Tadeja
Acta Biologica Slovenica. 2014 57(2). p.13
The Gradient of Exciting Radiation within a Sample Affects the Relative Height of Steps in the Fast Chlorophyll a Fluorescence Rise
Sušila P.,
Lazár D.,
Ilík P.,
Tomek P., Nauš J.
Photosynthetica. 2004 42(2). p.161
Progress in Botany (2006)
Adjustments in epidermal UV‐transmittance of leaves in sun‐shade transitions
Barnes Paul W.,
Kersting Anna R.,
Flint Stephan D.,
Beyschlag Wolfram, Ryel Ronald J.
Physiologia Plantarum. 2013 149(2). p.200
Epidermal transmittance and phenolic composition in leaves of atrazine‐tolerant and atrazine‐sensitive cultivars of Brassica napus grown under enhanced UV‐B radiation
Olsson Louise C.,
Veit Markus, Bornman Janet F.
Physiologia Plantarum. 1999 107(3). p.259
Why some leaves are anthocyanic and why most anthocyanic leaves are red?
Manetas Yiannis
Flora - Morphology, Distribution, Functional Ecology of Plants. 2006 201(3). p.163
Growth and defense in deciduous trees and shrubs under UV-B
Julkunen-Tiitto Riitta,
Häggman Hely,
Aphalo Pedro J.,
Lavola Anu,
Tegelberg Riitta, Veteli Timo
Environmental Pollution. 2005 137(3). p.404
UV-induced changes in pigment content and light penetration in the fruticose lichen Cladonia arbuscula ssp. mitis
Buffoni Hall Roberta S,
Bornman Janet F, Björn Lars Olof
Journal of Photochemistry and Photobiology B: Biology. 2002 66(1). p.13
Seasonal fluctuations in the concentration of UV‐absorbing compounds in the leaves of some Mediterranean plants under field conditions
Liakoura V.,
Manetas Y., Karabourniotis G.
Physiologia Plantarum. 2001 111(4). p.491
Rediscovering leaf optical properties: New insights into plant acclimation to solar UV radiation
Barnes Paul W.,
Flint Stephan D.,
Ryel Ronald J.,
Tobler Mark A.,
Barkley Anne E., Wargent Jason J.
Plant Physiology and Biochemistry. 2015 93 p.94
The Science of Grapevines (2015)
Actinidia kolomikta leaf colour and optical characteristics
Wang Z. -X.,
Fan S. -T.,
Chen L.,
Zhao Y.,
Yang Y. -M.,
Ai J.,
Li X. -Y.,
Liu Y. -X., Qin H. -Y.
Biologia plantarum. 2015 59(4). p.767
Flavonoids (2005)
Microanatomy of leaf trichomes: opportunities for improved ampelographic discrimination of grapevine (Vitis viniferaL.) cultivars
Gago P.,
Conéjéro G.,
Martínez M.C.,
Boso S.,
This P., Verdeil J.-L.
Australian Journal of Grape and Wine Research. 2016 22(3). p.494