I. N. Silva, F. B. Neto, A. P. B. Júnior, J. D. Lima, A. P. Chaves, R. L. C. Nunes, H. Lins, J. R. T. D. Albuquerque
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Hairy woodrose is a spontaneous species of the Caatinga biome that is widely distributed, being found in forests, fences, forest clearings and fields, growing in soils of different textures, producing biomass with a high content of macronutrients. This material was collected from spontaneous vegetation, native to the region, and used as green manure.The experimental design was a randomized complete block, with four treatments and five replicates. The treatments consisted of four amounts of hairy woodrose biomass incorporated into the soil (10, 25, 40 and 55 t ha-1 of dry matter). The following agronomic characteristics were evaluated in each beetroot treatment: plant height, fresh mass of shoots, number of leaves per plant, dry mass of shoots and dry mass of roots, total and commercial root productivity, and root productivity classified into scrap and extra roots, extra A roots, extra AA and great roots. Apart from these characteristics, the following economic indicators were also determined for each treatment: gross income, net income, rate of return and profit margin. The maximum agro-biological efficiency of beet root productivity (22.68 t ha-1) was obtained from 44.92 t ha-1 of hairy woodrose biomass added to the soil. The maximum economic efficiency of the yield of beet roots was achieved as a net income of AU$2,491.00 (R$6,406.36) ha-1, provided by the production of 22.04 t ha-1 of commercial roots, using 37.03 t ha-1 of hairy woodrose biomass incorporated into the soil. The use of hairy woodrose as green manure presents agro-economic feasibility in beet cultivation in this semi-arid environment.","PeriodicalId":93772,"journal":{"name":"ISOEN 2019 : 18th International Symposium on Olfaction and Electronic Nose : 2019 symposium proceedings : ACROS Fukuoka, May 26-29, 2019. 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引用次数: 6
摘要
甜菜根(Beta vulgaris L.)是一种块茎蔬菜,目前正在巴西北部大州的蔬菜生产系统中进行试验。在营养方面,这是相当苛刻的。满足这一需求的替代方案之一是利用Caatinga生物群系的自然物种进行绿色施肥。本工作的目的是优化甜菜根“早期奇迹”的农业生物学性能和经济效益,施肥不同剂量的毛木糖(Merremia aegyptia (L.))。(城市)在这个半干旱的环境。毛木糖是Caatinga生物群系的一种自然物种,分布广泛,可在森林、围栏、林间空地和田野中发现,生长在不同质地的土壤中,产生大量营养物质含量高的生物量。这种材料是从该地区原生的自然植被中收集的,用作绿肥。试验设计为随机完全区组,4个处理,5个重复。这些处理包括4个量的毛状木糖生物量(10、25、40和55 t hm -1干物质)。对甜菜根各处理的以下农艺性状进行了评价:株高、新梢鲜质量、单株叶数、新梢干质量和根系干质量、总根系生产力和经济根系生产力,根系生产力分为废根和多余根、多余A根、多余AA根和大根。除了这些特点外,还为每种处理确定了下列经济指标:毛收入、净收入、回报率和利润率。土壤中添加的毛状木糖生物量为44.92 t ha-1时,甜菜根生产力的农业生物效率最高(22.68 t ha-1)。甜菜根产量的最大经济效益为净收益2,491.00澳元(6,406.36雷亚元)每公顷,这是由22.04吨每公顷的商业根产量提供的,使用37.03吨每公顷的毛状木糖生物质融入土壤。在这种半干旱的环境中,使用毛状木糖作为绿肥在甜菜种植中具有农业经济可行性。
Agro-biological and economic efficiency in a beetroot (Beta vulgaris L.) production system fertilized with hairy woodrose (Merremia aegyptia (L.) Urb.) as green manure
Beetroot (Beta vulgaris L.) is a tuberous vegetable that is under experimentation in the vegetable production system in Rio Grande do Norte state (Brazil). It is quite demanding, in nutritional terms. One of the alternatives to meet this need is green manuring using spontaneous species of the Caatinga biome. The aim of the present work was to optimize the agro-biological performance and economic profitability of the beetroot 'Early Wonder', fertilized with different doses of hairy woodrose (Merremia aegyptia (L.) Urb.) in this semi-arid environment. Hairy woodrose is a spontaneous species of the Caatinga biome that is widely distributed, being found in forests, fences, forest clearings and fields, growing in soils of different textures, producing biomass with a high content of macronutrients. This material was collected from spontaneous vegetation, native to the region, and used as green manure.The experimental design was a randomized complete block, with four treatments and five replicates. The treatments consisted of four amounts of hairy woodrose biomass incorporated into the soil (10, 25, 40 and 55 t ha-1 of dry matter). The following agronomic characteristics were evaluated in each beetroot treatment: plant height, fresh mass of shoots, number of leaves per plant, dry mass of shoots and dry mass of roots, total and commercial root productivity, and root productivity classified into scrap and extra roots, extra A roots, extra AA and great roots. Apart from these characteristics, the following economic indicators were also determined for each treatment: gross income, net income, rate of return and profit margin. The maximum agro-biological efficiency of beet root productivity (22.68 t ha-1) was obtained from 44.92 t ha-1 of hairy woodrose biomass added to the soil. The maximum economic efficiency of the yield of beet roots was achieved as a net income of AU$2,491.00 (R$6,406.36) ha-1, provided by the production of 22.04 t ha-1 of commercial roots, using 37.03 t ha-1 of hairy woodrose biomass incorporated into the soil. The use of hairy woodrose as green manure presents agro-economic feasibility in beet cultivation in this semi-arid environment.
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