An increase production of Capsicum annuum in Nutrient Film Technique (NFT) can be done by setting Electrical Conductivity (EC) of vegetative (Va & Vt) and generative (G) phases. A greenhouse trial has been carried out using a completely randomized design with four treatments and six replications. The treatments were A = EC (Va = 1,2 mS cm~(-1), Vt = 2 mS cm~(-1), G = 3 mS cm~(-1)); B = EC (Va = 1.2 mS cm~(-1), Vt = 2 mS cm~(-1), G = 3,5 mS cm~(-1)); C = EC (Va = 1,5 mS cm~(-1), Vt = 2 mS cm~(-1), G = 3 mS cm~(-1)); D = EC (Va = 1,5 mS cm~(-1), Vt = 2 mS cm~(-1), G = 3,5 mS cm~(-1)). The result showed that the composition of EC at the initial vegetative (Va) phase 1,5 mS cm~(-1), middle vegetative (Vt) phase EC of 2 mS cm~(-1) and generative (G) phase EC 3 mS cm~(-1) had increased crop height, fruit number and chili fresh weight. The experiment indicated that the high EC starts from vegetative phase has better effect rather than only high on the generative phase.
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机译:通过设定营养型(VA&VT)和生成(G)阶段的电导率(EC)来完成营养膜技术(NFT)的增加产量。使用具有四种治疗和六种复制的完全随机设计进行了温室试验。该处理是A = EC(Va = 1,2mscm〜(-1),Vt = 2ms cm〜(-1),g = 3ms cm〜(-1)); B = EC(Va = 1.2ms cm〜(-1),Vt = 2ms cm〜(-1),g = 3,5 ms cm〜(-1)); C = EC(Va = 1.5ms cm〜(-1),Vt = 2ms cm〜(-1),g = 3 ms cm〜(-1)); D = EC(Va = 1.5ms cm〜(-1),Vt = 2ms cm〜(-1),g = 3,5ms cm〜(-1))。结果表明,在初始植物(VA)阶段1,5ms cm〜(-1),中间营养率(Vt)相位为2ms cm〜(-1)和生成(g)阶段Ec 3 ms cm〜(-1)种植高度,果实数和辣椒鲜重。实验表明,高EC从营养阶段开始具有更好的效果,而不是在生成阶段上的高度。
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