Genetic and environmental influence on foliar carbon isotope composition, nitrogen availability and fruit yield of 5-year-old mango plantation in tropical Australia

Purpose The aim of this study was to quantify the effect of different varieties, planting densities, tree training systems and canopy aspect (north and south) on tree water use efficiency and nitrogen (N) availability in relation to mango fruit yield and fruit size as well as soil fertility (particu...

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Bibliographic Details
Published in:Journal of soils and sediments 2021-04, Vol.21 (4), p.1609-1620
Main Authors: Sun, Weiling, Xu, Zhihong, Ibell, Paula, Bally, Ian
Format: Article
Language:English
Subjects:
Agriculture
Availability
Canopies
Canopy
Carbon isotopes
Crop yield
Earth and Environmental Science
Environment
Environmental Physics
Fertility
Fruits
Genetic effects
Isotope composition
Mangoes
Nitrogen
Plantations
Planting
Planting density
Sec 1 • Soil Organic Matter Dynamics and Nutrient Cycling • Research Article
Soil
Soil fertility
Soil Science & Conservation
Soil surfaces
Soils
Training
Trees
Tropical climate
Water use
Water use efficiency
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Summary:Purpose The aim of this study was to quantify the effect of different varieties, planting densities, tree training systems and canopy aspect (north and south) on tree water use efficiency and nitrogen (N) availability in relation to mango fruit yield and fruit size as well as soil fertility (particularly total carbon (C) and total N as well as C and N isotope compositions) in a 5-year-old mango plantation of tropical Australia. Material and Methods Mango foliar samples were collected from a 5-year-old, factorial field experiment, where we tested the effects of two mango varieties (Calypso vs Keitt); two planting densities (medium vs high); two training systems (single leader vs conventional); and two sampling canopy aspects (north vs south) on foliar total C (%), total N (%), and stable C and N isotope compositions (δ 13 C and δ 15 N). The 0–10 cm of surface soils were also assessed for total C, total N, and δ 13 C and δ 15 N of different varieties, planting densities, and training systems. In addition, mango fruit yield, and fruit size were measured. Results There were significant genetic effects on foliar total N, tree water use efficiency (WUE) as reflected by foliar δ 13 C, N availability as indicated by foliar total N and δ 15 N, mango fruit yield, and fruit size in 5-year-old mango trees in tropical Australia. Overall, Keitt had higher foliar δ 13 C and N availability (higher total N and lower δ 15 N) as well as higher mango yield and greater fruit size, compared with those of Calypso. There were also significant environmental influences on foliar δ 13 C and N availability. In particular, high planting density had higher N availability (higher total N), and lower foliar δ 13 C as well as higher N loss (higher δ 15 N), compared with those of medium planting density. High planting density treatment also had higher soil total N, compared with that of medium planting density treatment. The conventional training system had higher N availability and foliar δ 13 C, compared with those of the single leader training system. The northern side of tree canopy (sunny side) had lower fruit number, compared with that of the southern side (shady side) of tree canopy. Conclusion There were significant genetic and environmental influences on tree WUE and N availability as well as mango fruit yield and fruit size in the 5-year-old mango trees. Among them, Keitt’s fruit was significantly larger than Calypso and had higher foliar δ 13 C (higher WUE). Although high planti
ISSN:1439-0108
1614-7480
DOI:10.1007/s11368-020-02850-6