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Abstract
We investigated the responses to iron deficiency of four major tree species, Prosopis cineraria (local name: Ghaf), Acacia tortilis (Samar), Zizyphus spina-christi (Sidr), and Leptadenia pyrotechnica (Markh), used for revegetation of desert areas in the United Arab Emirates (UAE). The responses to iron deficiency differed among the tree species. Ghaf, Samar, and Sidr decreased the nutrient solution pH in response to iron deficiency. Markh and iron-deficient Sidr did not release protons in the CaCl2 solution. The Fe reducing capacity of the roots of Ghaf, Samar, and Sidr was significantly enhanced by iron deficiency, whereas a smaller increase in the reducing activity of the roots of Markh was observed. In all the tree species, the amount of reductant released from iron-deficient plants was higher than that from iron-sufficient ones. Markh released a small amount of reductant under irondeficient conditions. In the present study, the reductant released by all the trees was caffeic acid. Acidification treatment enhanced the amount of reductant released irrespective of iron treatments in Ghaf, Samar, and Sidr but had no effect on the amount of reductant released in iron-deficient Markh. The activity of p-coumarate hydroxylase was higher in Sidr and Ghaf than in the other trees. This activity decreased in iron-deficient Samar. Ghaf, Samar, and Sidr showed a high capacity to lower the pH of the nutrient solution, and Ghaf markedly enhanced the effectiveness of all the examined mechanisms, while Markh showed a lower ability compared to the other tree species.
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