Nitrogen Use Efficiency and Yield Levels Using Soluble and Controlled-release Urea Formulations in Tomato Production

IF 1.5 3区 农林科学 Q2 HORTICULTURE Hortscience Pub Date : 2024-04-01 DOI:10.21273/hortsci17679-23
Laura Jalpa, R. Mylavarapu, G. Hochmuth, Yuncong Li, B. Rathinasabapathi, E. van Santen
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Abstract

This research study evaluated the suitability of controlled-release urea (CRU) as an alternate nitrogen (N) fertilizer source to conventional soluble urea (U) for tomato production under a humid, warm climate in coastal plain soils. Tomatoes are typically produced on raised plastic-mulched beds, where U is fertigated through multiple applications. On the other hand, CRU is applied once at planting, incorporated into soil before the raised beds are covered with plastic mulch. N source and management will likely impact tomato yield, N use efficiency (NUE), and apparent recovery of N fertilizer (APR). A 2-year field study was conducted on fall and spring tomato crops in north Florida to determine the crop N requirement and NUE in tomatoes (var. HM 1823) grown in sandy soils under a plastic-mulched bed system. In addition to a no N fertilizer treatment, three urea N sources [one soluble source and two polymer-coated CRU sources with different N release durations of 60 (CRU-60) and 75 (CRU-75) days] were applied at three N rates (140, 168, and 224 kg⋅ha−1). Across all N sources and N rates, fall yields were at least 20% higher than spring seasons. At the 140 kg⋅ha−1 N rate, APR and NUE were improved, especially when U was applied in fall tomato, whereas preplant CRUs improved N efficiency in spring tomato. Based on the lower APR values found in spring production seasons (0% to 16%) when compared with fall (57.1% to 72.6%), it can be concluded that residual soil N was an important source for tomatoes. In addition, the mean whole-plant N accumulation of tomato was 102.5 kg⋅ha−1, further indicating that reducing the N rate closer to crop N demand would greatly improve conventional vegetable production systems on sandy soils in north Florida. In conclusion, polymer-coated CRU and fertigation U applications were able to supply the N requirement of spring and fall tomato at a 38% reduction of the recommended N rate for tomato in Florida (224 kg⋅ha−1). Preliminary results show that adoption of CRU fertilizers can be considered a low-risk alternative N source for tomato production and the ease of applying CRU once during the bed preparation period for tomato may be an additional incentive.
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番茄生产中使用可溶性尿素和控释尿素制剂的氮利用效率和产量水平
这项研究评估了控释尿素(CRU)作为传统可溶性尿素(U)的替代氮肥源,在沿海平原土壤潮湿、温暖气候条件下番茄生产中的适用性。番茄通常是在塑料薄膜覆盖的高床上生产的,尿素通过多次施用进行施肥。另一方面,CRU 在种植时施用一次,在高床覆盖塑料地膜之前融入土壤中。氮源和管理可能会影响番茄产量、氮利用效率(NUE)和氮肥表观回收率(APR)。对佛罗里达州北部的秋季和春季番茄作物进行了一项为期两年的田间研究,以确定在塑料覆盖床系统下沙质土壤中种植的番茄(变种 HM 1823)的作物需氮量和氮利用率。除了不施氮肥处理外,还以三种氮肥施用量(140、168 和 224 公斤/公顷-1)施用了三种尿素氮源(一种可溶性氮源和两种聚合物涂层 CRU 氮源,氮释放持续时间分别为 60 天(CRU-60)和 75 天(CRU-75))。在所有氮源和氮用量下,秋季产量比春季至少高出 20%。在 140 千克/公顷-1 的氮肥施用率下,秋季番茄的年产量和氮利用率都有所提高,尤其是在施用 U 的情况下,而春季番茄播种前施用 CRU 则提高了氮利用率。与秋季(57.1% 至 72.6%)相比,春季生产季节的年氮素利用率较低(0% 至 16%),因此可以得出结论,土壤中的残留氮是番茄的重要氮源。此外,番茄的平均全株氮累积量为 102.5 千克/公顷-1,这进一步表明,降低氮肥施用量,使其更接近作物对氮的需求,将大大改善佛罗里达州北部沙质土壤上的常规蔬菜生产系统。总之,聚合物涂层 CRU 和施肥 U 能够满足春秋番茄的氮需求,比佛罗里达州番茄的推荐氮用量(224 kg-ha-1)减少了 38%。初步结果表明,采用 CRU 肥料可被视为番茄生产的低风险替代氮源,而且在番茄整地期间施用一次 CRU 肥料也很方便,这可能是一个额外的激励因素。
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来源期刊
Hortscience
Hortscience 农林科学-园艺
CiteScore
3.00
自引率
10.50%
发文量
224
审稿时长
3 months
期刊介绍: HortScience publishes horticultural information of interest to a broad array of horticulturists. Its goals are to apprise horticultural scientists and others interested in horticulture of scientific and industry developments and of significant research, education, or extension findings or methods.
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