免耕蔬菜移栽机在保护性农业中移植泰国圆茄的性能研究

Lyhour Hin, B. Buntong, M. Reyes, L. Hok, L. Lor, H. Clemmons, T. Kornecki
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引用次数: 0

摘要

:蔬菜对人类健康至关重要,在柬埔寨每周食用五天。然而,由于劳动密集型农业和与土壤耕作相关的生产成本,生产无法满足国内需求。通过采用CA(保护性农业),需要在提高土壤质量和可持续性的同时进行机械化。本研究旨在比较CA中的免耕蔬菜插秧机与冲孔播种机和CT(常规耕作)中的手动插秧机的性能。这项研究于2020年1月至9月在柬埔寨皇家农业大学进行,首先种植sunn大麻作为覆盖作物,然后移植泰国圆茄子。随机完全区组设计用于三种治疗,重复三次。每个地块为2米乘15米,行间距为0.2米。结果表明,插秧机速度为0.54km(cid:120)h-1,几乎是打孔播种机速度的2倍,是手动插秧机的9倍。插秧机也达到了最高的工作能力。然而,不同的移植并不影响植株间距或密度。株间距为1m,密度为10300-11500株(cid:120)ha-1。CA中的插秧机和CT中的手动插秧也不影响植株的生长和产量。平均果径、果重、果数和产量分别为38mm、31.4g(cid:120)果-1、15.7果(cid:12 0)株-1和3.9t(cid:120)ha-1。插秧机的最大工作面积和盈亏平衡面积分别为25.2公顷(cid:120)y-1和18.3公顷(acid:120)y-1。使用免耕插秧机可以节省时间和劳动力,但与CA结合使用在短期内不太可能影响植物的生长和产量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance of a No-Till Vegetable Transplanter for Transplanting Thai Round Eggplant (Solanum melongena L.) in Conservation Agriculture
: Vegetables are vital for human health and are consumed five days a week in Cambodia. However, the production cannot meet domestic demands due to labor-intensive farming and production costs related to soil tillage. Mechanization is needed along with soil quality and sustainability improvements by the adoption of CA (Conservation Agriculture). The research aimed to compare the performance of the no-till vegetable transplanter with punch-planter in CA and hand transplanting in CT (Conventional Tillage). The study was conducted at the Royal University of Agriculture, Cambodia, starting from January to September 2020, by firstly growing sunn hemp as a cover crop and then transplanting Thai round eggplant. A randomized complete block design was used with three treatments, replicated three times. Each plot was 2 m by 15 m, with 0.2-m row spacing. The results showed that the transplanter speed was 0.54 km (cid:120) h -1 , almost two times the speed of punch planter and 9 times the speed of hand transplanting. The highest working capacity was also achieved with the transplanter. However, different transplanting did not affect plant spacing, or plant density. Plant spacing was 1 m, and plant density varied from 10,300 to 11,500 plants (cid:120) ha -1 . Plant growth and yield were also not influenced by the transplanter in CA, or hand transplanting in CT. Average fruit diameter, fruit weight, fruit number, and yield were 38 mm, 31.4 g (cid:120) fruit -1 , 15.7 fruits (cid:120) plant -1 and 3.9 t (cid:120) ha -1 , respectively. The maximum working area of the transplanter and its break-even area were 25.2 ha (cid:120) y -1 and 18.3 ha (cid:120) y -1 , respectively. Using the no-till transplanter may save both time and labor, but its use in combination with CA was unlikely to affect plant growth and yield in the short term.
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