Abstract
Temporal changes in the nitrogen (N) and 15N content of various components of six-year-old kiwifruit (Actinidia deliciosa ‘Hayward’) vines which had received 15N-labelled ammonium fertilizer were measured. The fertilizer was applied singularly at 100 or 200 kg N ha−1 in early spring (two weeks before bud burst) or split with 100 kg N ha−1 (unlabelled) in early spring and 100 kg N ha−1 (15N-labelled) ten weeks later. All treatments were applied to vines with a history of either 50 or 200 kg N ha−1 yr−1.
The N concentration of leaf and fruit tissue was generally lower in the 100 kg N ha−1 treatment than in the 200 kg N ha−1 treatments and this effect was greater than that of N fertilizer history. During the first 8 weeks after bud burst there was a rapid accumulation of N in leaves (ca. 80 kg N ha−1). Analysis of xylem sap at 4 weeks after bud burst revealed that about 60% of the N utilised for new growth was from remobilisation of N stored within the vines and about 40% from soil and fertilizer N. This was unaffected by rate of N application.
Plant uptake of added 15N was rapid and almost complete within 10 weeks of application in either early spring or early summer. Initially, most 15N was present in the leaf and root components but these subsequently declined due to translocation into other components of the vine. The decline in leaf 15N coincided with an equivalent accumulation of 15N in the fruit.
The 15N enrichment of the ‘annual’ components (leaves, fruit and current-season's shoots) was about twice that of the structural components (one-year-old shoots, cordon, stem and structural roots) during the first year after application. By the third year the 15N concentration of the annual components had declined to similar levels to that of the structural components. These changes were used to estimate the annual throughput of N from soil in vines which received no N fertilizer in years 2 and 3 at 50% of total above-ground N and only 7% in roots. This was equivalent to about 120 kg N ha−1 yr−1. Where fertilizer N (200 kg ha−1) was applied in year 2 the annual throughput of N from soil and fertilizer was about 170 kg N ha−1.
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References
Black A S, Sherlock R R, Smith N P, Cameron K C and Goh K M 1985 Effects of form of nitrogen, season and urea application rate on ammonia volatilisation from pastures. N.Z. J. Agric. Res. 28, 469–474.
Buwalda J G and Smith G S 1990 Acquisition and utilisation of carbon, mineral nutrients, and water by the kiwifruit vine. Hortic. Rev. 12, 307–347.
Buwalda J G, Wilson G J, Smith G S and Littler R A 1990 The development and effects of nitrogen deficiency in field-grown kiwifruit (Actinidia deliciosa) vines. Plant and Soil 129, 173–182.
Clark C J and Smith G S 1992 Seasonal dynamics of biomass and mineral nutrient partitioning in mature kiwifruit vines. Ann. Bot. 70 (In press.)
Clark C J, Holland P T and Smith G S 1986 Chemical composition of bleeding xylem sap from kiwifruit vines. Ann. Bot. 58, 353–362.
Deng X, Weinbaum S A and DeJong T M 1989 Use of labelled nitrogen to monitor transition in nitrogen dependence from storage to current-year uptake in mature walnut trees. Trees 3, 11–16.
Feigenbaum S, Bielorai H, Erner Y and Dasberg S 1987 The fate of 15N labelled nitrogen applied to mature citrus trees. Plant and Soil 97, 179–187.
Hill-Cottingham D G and Lloyd-Jones C P 1975 Nitrogen-15 in apple nutrition investigation. J. Sci. Fd. 26, 165–173.
Lai R 1987 Leaf-fruit relationship in kiwifruit (Actinidia deliciosa (A Chev.) C F Liang et A R Ferguson). Ph.D. Thesis, Massey University, Palmerston North, New Zealand.
Ledgard S F 1989 Nutrition, moisture and rhizobial strain influence isotopic fractionation during N2 fixation in pasture legumes. Soil Biol. Biochem 21, 65–68.
Ledgard S F and Brier G J 1991 A 15N method to quantify the sources of nitrogen for new growth of non-legumes, examined using kiwifruit. Ann. Bot. 68, 75–78.
Ledgard S F, Smith G S and Sprosen M S 1992 Fate of 15N-labelled nitrogen fertilizer applied to kiwifruit (Actinidia deliciosa) vines. I. 15N recovery in plant and soil. Plant and Soil 49–57.
Millard P and Thomson C M 1989 The effect of the autumn senescence of leaves on the internal cycling of nitrogen for the spring growth of apples. J. Exp. Bot. 40, 1285–1289.
Pate J S 1980 Transport and partitioning of nitrogenous solutes. Ann. Rev. Plant Physiol. 31, 313–340.
Smith G S, Clark C J and Henderson H V 1987 Seasonal accumulation of mineral nutrients by kiwifruit. I. Leaves. New Phytol. 106, 81–100.
Smith G S, Buwalda J G and Clark C J 1988 Nutrient dynamics of a kiwifruit ecosystem. Scientia Hortic. 37, 87–109.
Weinbaum S A, Klein I, Broadbent F E, Micke W C and Muraoka T T 1984 Effects of time of nitrogen application and soil texture on the availability of isotropically labelled fertilizer nitrogen to reproductive and vegetative tissue of mature almond trees. J. Am. Soc. Hortic. Sci. 109, 339–343.
Weinbaum S A, Klein I and Muraoka T T 1987 Use of Nitrogen isotopes and a light-textured soil to assess annual contributions of nitrogen from soil and storage pools in mature almond trees. J. Am. Soc. Hortic. Sci. 112, 526–529.
Weinbaum S A, Merwin M L and Muraoka T T 1978 Seasonal variation in nitrate uptake efficiency and distribution of absorbed nitrogen in non-bearing prune trees. J. Am. Soc. Hortic. Sci. 103, 516–519.
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Ledgard, S.F., Smith, G.S. Fate of 15N-labelled nitrogen fertilizer applied to kiwifruit (Actinidia deliciosa) vines. Plant Soil 147, 59–68 (1992). https://doi.org/10.1007/BF00009371
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DOI: https://doi.org/10.1007/BF00009371