Formation of the leaf surface and productivity of the chickling vetch (Lathyrus sativus L.) depending on the amounts of mineral fertilizers and pre-sowing inoculation of seeds

Crop Science, Soil Science, Agronomy News Pub Date : 2021-07-21 DOI:10.24326/as.2021.2.7

V. Kaminskyi, D. Sokyrko, V. Hanhur, L. Yeremko

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Abstract

The aim of the study was to analyze the effect of different amounts of mineral fertilization, bacterization of seeds on the leaf surface area formation and the chickling vetch (Lathyrus sativus) productivity. The study engaged six NPK fertilization amounts (0 – the check (control) without fertilizers, N15P15K15, N30P30K30, N15P30K30 + N15 (top dressing), N45P45K45 and N30P45K45 + N15 (top dressing) on two backgrounds of pre-sowing seed treatment (the control, water seed treatment, seed treatment with microbiological preparation Rizogumin, which contains a suspension of nodule bacteria Rhizobium leguminosarum 31 and physiologically active substances of biological origin). The leaf surface area was determined by the cutting method (in the phase of the first trifoliate leaf, budding, flowering, pod formation), which includes the selection of 15 plants, where the leaves are quickly cut off, weighed and their wet weight is determined. After that, cuts are made with a probe of a known diameter, 5 pcs. from every leaf. The mass of all cuts was determined. After determining the surface area of the leaves of each plant, the average plant area was calculated for each variant of the experiment. The average leaf surface area was multiplied by the number of plants per square meter, and the result was multiplied by 10000 to convert it to the average leaf surface area per hectare. The yield accounting was maintained by the method of continuous threshing from the registration plot by a selected combine harvester, with cleaning from impurities, weighing and determining the moisture content of the harvested grain. The maximum leaf surface area (60.8 thousand m2 ha-1) was in the phase of grain filling when N30P45K45 + N15 was added to top dressing and seed treatment with Rizogumin. In the absence of inoculation, the leaf area was 4.1 thousand m2 ha-1 less.

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幼雏野豌豆(Lathyrus sativus L.)叶片表面的形成和生产力取决于矿质肥料的用量和播种前的种子接种

研究了不同矿质施肥、种子杀菌处理对雏豌豆叶表面积形成及产量的影响。本研究在播前种子处理(对照、水种子处理、微生物制剂日之古明(含豆科根瘤菌31悬浮液和生物源生理活性物质)两种背景下，采用6种氮磷钾施肥量(0 -对照)、N15P15K15、N30P30K30、N15P30K30 + N15(追肥)、N45P45K45和N30P45K45 + N15(追肥)。叶表面积是通过切割法确定的(在第一个三叶草叶片，萌芽，开花，豆荚形成的阶段)，其中包括选择15个植株，其中叶片被迅速切断，称重并确定其湿重。然后，用已知直径的5个探针进行切割。从每一片叶子。所有切口的质量都确定了。在确定了每株植物叶片的表面积后，计算出实验中每个变异的平均植株面积。将平均叶表面积乘以每平方米的植物数，再乘以10000，换算成每公顷的平均叶表面积。产量计算是通过选择一台联合收割机从登记地块连续脱粒，清除杂质，称重和测定收获谷物的水分含量来维持的。追肥配以N30P45K45 + N15，日柔古明种子处理后，籽粒灌浆期叶表面积最大(6.08万m2 ha-1)。未接种时，叶面积减少4.1万m2 ha-1。

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