Akhani Hossein, Lara María Valeria, Ghasemkhani Maryam, Ziegler Hubert, Edwards Gerald E
Department of Plant Sciences, School of Biology, College of Science, University of Tehran, P.O. Box 14155-6455, Tehran, Iran.
Photosynth Res. 2009 Jan;99(1):23-36. doi: 10.1007/s11120-008-9376-0. Epub 2008 Oct 25.
Family Chenopodiaceae is an intriguing lineage, having the largest number of C(4) species among dicots, including a number of anatomical variants of Kranz anatomy and three single-cell C(4) functioning species. In some previous studies, during the culture of Bienertia cycloptera Bunge ex Boiss., carbon isotope values (delta(13)C values) of leaves deviated from C(4) to C(3)-C(4) intermediate type, raising questions as to its mode of photosynthesis during growth in natural environments. This species usually co-occurs with several Kranz type C(4) annuals. The development of B. cycloptera morphologically and delta(13)C values derived from plant samples (cotyledons, leaves, bracts, shoots) were analyzed over a complete growing season in a salt flat in north central Iran, along with eight Kranz type C(4) species and one C(3) species. For a number of species, plants were greenhouse-grown from seeds collected from the site, in order to examine leaf anatomy and C(4) biochemical subtype. Among the nine C(4) species, the cotyledons of B. cycloptera, and of the Suaeda spp. have the same respective forms of C(4) anatomy occurring in leaves, while cotyledons of members of tribe Caroxyloneae lack Kranz anatomy, which is reflected in the delta(13)C values found in plants grown in the natural habitat. The nine C(4) species had average seasonal delta(13)C values of -13.9 per thousand (with a range between species from -11.3 to -15.9 per thousand). The measurements of delta(13)C values over a complete growing season show that B. cycloptera performs C(4) photosynthesis during its life cycle in nature, similar to Kranz type species, with a seasonal average delta(13)C value of -15.2 per thousand.
藜科是一个有趣的谱系,在双子叶植物中拥有最多的C4物种,包括多种花环解剖结构的解剖变体以及三个单细胞C4功能物种。在之前的一些研究中,在栽培圆叶滨藜期间,叶片的碳同位素值(δ13C值)从C4型偏离至C3 - C4中间型,这引发了关于其在自然环境中生长时光合作用模式的疑问。该物种通常与几种花环型C4一年生植物共生。在伊朗中北部的一个盐沼地,对圆叶滨藜在整个生长季节的形态发育以及来自植物样本(子叶、叶片、苞片、茎)的δ13C值进行了分析,同时分析了八个花环型C4物种和一个C3物种。对于一些物种,从该地点收集种子在温室中培育植株,以检查叶片解剖结构和C4生化亚型。在这九个C4物种中,圆叶滨藜的子叶以及碱蓬属植物的子叶具有与叶片中相同的C4解剖结构形式,而卡罗克斯龙属成员的子叶缺乏花环解剖结构,这在自然栖息地生长的植物的δ13C值中有所体现。这九个C4物种的季节性平均δ13C值为千分之 - 13.9(物种间范围为千分之 - 11.3至 - 15.9)。在整个生长季节对δ13C值的测量表明,圆叶滨藜在自然生命周期中进行C4光合作用,与花环型物种相似,季节性平均δ13C值为千分之 - 15.2。