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21.12.2022 | Original Article / Originalbeitrag

Vigorous Rootstocks Improve Nitrogen Efficiency of Tomato by Inducing Morphological, Physiological and Biochemical Responses

verfasst von: Mohammed Bello Adam, Abdullah Ulas

Erschienen in: Journal of Crop Health | Ausgabe 3/2023

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Abstract

Due to insufficient fertilizer application by small-scale farmers, soil fertility is declining in low-input agriculture while environmental pollution of both air and water is rising in high-input agriculture due to excessive nitrogen (N) fertilizers application. However, the efficiency of N fertilizers is frequently low, since plants take up often less than 50% of the applied N, and thus the not utilized N is left in the soil and/or lost from the plant/soil system. To improve the available N in sustainable agriculture, improved fertilizers as well as soil and crop management practices are necessary. Among these, a way to improve N efficiency and reduce the losses in production caused by low N efficiency in high-yielding genotypes would be to graft them onto rootstocks capable of improving N efficiency of the scion in both agriculture systems. The aim of this study was initially to determine the genotypic differences in N efficiency of some local and hybrid tomato genotypes and further to evaluate whether reciprocal grafting could improve N efficiency of tomato through examining shoot agronomical, root morphological and leaf physio-biochemical responses induced by the rootstocks. Two hydroponic experiments were conducted in a deep water culture (DWC) technique at Plant Physiology Laboratory of Erciyes University. In the first experiment (Exp.1: 12th September 2017), 4 hybrids and 10 local Turkish varieties and 4 local Ghanaian tomato cultivars were screened under 2 N doses (Low N: 0.3 mM and High N: 3.0 mM) in complete randomized block design under 3 replications for six weeks. Based on the results of the first experiments, two tomato genotypes HelenaF1 and ALT (N-efficient) were chosen and used as rootstock by grafting with N‑inefficient; P005 and Karahidir tomato genotypes under 2 N doses in the second experiment (Exp.2: 2nd February 2018). As compared to non-grafted control plants, the grafting increased the shoot dry matter by almost 31.6% and 31.1%, the shoot N uptake by 50.1% and 41.3% and the total leaf area by 29.4% and 67.3% at low and high N rate, respectively. Best performance in nitrogen use efficiency (NUE) was shown by Karahidir/ALT (S1/R2) and Karahidir/Helena (S1/R1) graft combinations. HelenaF1 and ALT genotypes have high rootstock potential which was associated with morphological, physiological, and biochemical response characteristics particularly at low N supply. Therefore, these traits could be useful for the selection and breeding of “N-efficient” tomato rootstocks for sustainable agriculture in the nearby future.

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Metadaten
Titel
Vigorous Rootstocks Improve Nitrogen Efficiency of Tomato by Inducing Morphological, Physiological and Biochemical Responses
verfasst von
Mohammed Bello Adam
Abdullah Ulas
Publikationsdatum
21.12.2022
Verlag
Springer Berlin Heidelberg
Erschienen in
Journal of Crop Health / Ausgabe 3/2023
Print ISSN: 2948-264X
Elektronische ISSN: 2948-2658
DOI
https://doi.org/10.1007/s10343-022-00819-8

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