Foliar and root uptake of N deriving from simulated atmospheric N depositions in potted apple (Malus domestica) trees

Q3 Agricultural and Biological Sciences
D. Zanotelli, M. Tagliavini, M. Petrillo, C. Andreotti
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引用次数: 1

Abstract

A significant human-driven increment of the available reactive nitrogen (Nr) forms has occurred during the past century at the global scale, which in turn has increased the amount of Nr deposition. Grafted apple trees (Gala / M.9 strain T337) were used in a pot experiment conducted in semicontrolled conditions, where the 15N-labelling technique allowed to trace the fate of N from ammonium nitrate (15NH4 15NO3, isotopic enrichment: 10.3 atoms %) distributed at three increasing rates (N1, N2, N4, where N2 is the double of N1 and N4 is the double of N2) either to soil or to canopy (foliar application) to simulate atmospheric N depositions. At the end of the experiment, plants were destructively sampled, and N derived from depositions (Ndfd), total N, and biomass of above and belowground organs were determined. Uptake rates ranged from 21% to 57% and the Ndfd recovery was higher for soil than for foliar application. Foliar-supplied plants showed a higher Ndfd in leaves and shoots than soil-supplied ones, while the latter showed a higher Ndfd in roots than the former. Moreover, total N in trunk, shoot axes and leaves increased with the N rates up to the level N2, with no further increase in N4. Increasing tree N availability, regardless the supply mode, increased the shoot:root N content. The fact that the N uptake rate was rather stable at increasing N rates suggests that if N from atmospheric depositions becomes increasingly available at the canopy or soil level, it will actively contribute to apple tree nutrition and account for a significant fraction of the apple tree N needs.
盆栽苹果(Malus domestica)树模拟大气氮沉积对叶片和根系氮的吸收
在过去的一个世纪里,在全球范围内,人类驱动的可用活性氮(Nr)形式显著增加,这反过来又增加了Nr的沉积量。将移植的苹果树(Gala/M.9菌株T337)用于在半控制条件下进行的盆栽实验中,其中15N标记技术允许追踪硝酸铵(15NH4 15NO3,同位素富集:10.3原子%)中N的去向,硝酸铵以三种增加速率(N1、N2、N4,其中N2是N1的两倍,N4是N2的两倍)分布到土壤或冠层(叶面施用),以模拟大气中的N沉积。在实验结束时,对植物进行破坏性取样,并测定沉积物中的氮(Ndfd)、总氮以及地上和地下器官的生物量。吸收率在21%至57%之间,土壤的Ndfd回收率高于叶面施用。叶供植物的叶片和枝条的Ndfd高于土壤供植物,而土壤供植物的根系Ndfd高于前者。此外,树干、茎轴和叶片中的总氮随着施氮量的增加而增加,达到N2水平,而N4没有进一步增加。增加树木氮的可用性,无论供应模式如何,都会增加地上部和根部的氮含量。氮吸收率在氮吸收率增加时相当稳定,这一事实表明,如果大气沉积物中的氮在冠层或土壤水平上越来越可用,它将积极促进苹果树的营养,并占苹果树氮需求的很大一部分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Italus Hortus
Italus Hortus Agricultural and Biological Sciences-Food Science
CiteScore
1.70
自引率
0.00%
发文量
18
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