具有C4二羧酸光合途径的物种对钠作为一种微量营养素的需求。

The requirement for sodium as a micronutrient by species having the c(4) dicarboxylic photosynthetic pathway.

作者信息

Brownell P F, Crossland C J

机构信息

Department of Botany, James Cook University of North Queensland, Townsville, Queensland, Australia.

出版信息

Plant Physiol. 1972 May;49(5):794-7. doi: 10.1104/pp.49.5.794.

DOI:10.1104/pp.49.5.794

PMID:16658050

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC366054/

Abstract

Six species having characteristics of plants with the C(4) dicarboxylic photosynthetic pathway, Echinochloa utilis L. Ohwi et Yabuno (Japanese millet), Cynodon dactylon L. (Bermuda grass), Kyllinga brevifolia Rottb., Amaranthus tricolor L. cv. Early splendour, Kochia childsii Hort., and Portulaca grandiflora Hook (rose moss), responded decisively to 0.1 milliequivalent per liter NaCl supplied to their culture solutions initially containing less than 0.08 microequivalent per liter Na. Chlorosis and necrosis occurred in leaves of plants not receiving sodium. Portulaca failed to set flower in the sodium-deficient cultures. Under similar conditions Poa pratensis L. (Kentucky blue grass) having characteristics of the C(3) photosynthetic pathway made normal growth and did not respond to the addition of sodium. It is concluded from these results and previously reported work that sodium is generally essential for species having the C(4) pathway but not for species with the C(3) pathway.

摘要

具有C(4)二羧酸光合途径的六种植物，即食用稗（Echinochloa utilis L. Ohwi et Yabuno）、狗牙根（Cynodon dactylon L.）、短叶水蜈蚣（Kyllinga brevifolia Rottb.）、早红苋菜（Amaranthus tricolor L. cv. Early splendour）、圆叶地肤（Kochia childsii Hort.）和大花马齿苋（Portulaca grandiflora Hook），对最初每升含钠量低于0.08微当量的培养液中添加的每升0.1毫当量氯化钠有明显反应。未添加钠的植株叶片出现黄化和坏死现象。在缺钠培养条件下，大花马齿苋无法开花。在类似条件下，具有C(3)光合途径特征的草地早熟禾（Poa pratensis L.）生长正常，对添加钠无反应。根据这些结果以及先前报道的研究得出结论：钠通常对具有C(4)途径的物种至关重要，但对具有C(3)途径的物种并非必需。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7e8d/366054/632d861fadc8/plntphys00241-0128-a.jpg

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具有C4二羧酸光合途径的物种对钠作为一种微量营养素的需求。

The requirement for sodium as a micronutrient by species having the c(4) dicarboxylic photosynthetic pathway.

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