The effect of weather and landscape conditions on productivity of the spring wheat variety ‘Zlata’

Zernovoe khoziaistvo Rossii Pub Date : 2023-11-10 DOI:10.31367/2079-8725-2023-88-5-70-77

M. V. Rublyuk, D. A. Ivanov

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Abstract

The current study was carried out in 2010–2022 to determine the effect of weather and landscape conditions on productivity of spring wheat (Triticumaestivum) in a stationary field trial located on a drained soddy-podzolic soil within a terminal moraine hill in the Tver region (ARRIMS). The object was drained by closed pottery drainage. The distance between drains in different agricultural landscapes was 40, 30 and 20 m. In the trial there was a grain-grass crop rotation (oats+grasses – grasses of 1–2 years – winter rye – spring wheat). The crop cultivation was carried out according to extensive technology. The years of different humidity were factor A; factor B was the type of agromicrolandscape, factor C was the type of soil. There has been studied the moisture supply and temperature regime of the soil, spring wheat productivity in various agricultural landscapes. There has been established that the maximum productivity of the spring wheat variety ‘Zlata’ (2.17 t/ha) was obtained in the optimal years for the growth and plant development. In dry years, the value of this indicator decreased by 49–70 % and 51–73 % compared with excessively wet and optimal years, respectively. The variability of wheat productivity raised in dry years to 26 % and decreased to 14.5 % in optimal and excessively wet years. During the period of 2010–2022 the maximum wheat productivity (2.25 t/ha) was obtained in the transit-accumulation variant of the northern slope, its increase was 0.4 t/ha compared to the average for the trial. In years of different moisture availability, there was studied a correlation between spring wheat productivity and various soil parameters. There was obtained a direct correlation dependence of productivity in dry years with the amount of productive moisture (r = 0.70) and with the biological activity of the soil (r = 0.49); an inverse correlation was obtained in excessively wet years with aeration porosity (r = –0.66) and biological activity of the soil (r = –0.55).

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气候和景观条件对春小麦品种“兹拉塔”产量的影响

目前的研究是在2010-2022年进行的，旨在确定天气和景观条件对春小麦(Triticumaestivum)生产力的影响，该试验位于特沃河地区(ARRIMS)终末冰碛山(terminal moraine hill)内排水的钠灰化土上的固定田间试验。该物品由封闭的陶器排水系统排出。不同农业景观的水渠间距分别为40、30和20 m。试验采用粮草轮作(燕麦+禾草- 1-2年生禾草-冬黑麦-春小麦)。作物种植按粗放技术进行。不同湿度年份为因子A;因子B为微农田景观类型，因子C为土壤类型。研究了不同农业景观条件下土壤的水分供应和温度变化，以及春小麦的产量。结果表明，春小麦品种“Zlata”在生长发育最佳年份的产量最高，为2.17 t/ hm2。在干旱年份，该指标值分别比过湿年份和最佳年份降低49 ~ 70%和51 ~ 73%。小麦产量的变异率在干旱年提高到26%，在最佳和过湿年下降到14.5%。2010-2022年，北坡过渡-积累型小麦产量最高，为2.25 t/ha，比试验平均产量提高0.4 t/ha。在不同水分有效度年份，研究了春小麦产量与土壤参数的相关性。干旱年生产力与生产水分(r = 0.70)和土壤生物活性(r = 0.49)呈直接相关关系;在过湿年份，土壤通气孔隙度(r = -0.66)与生物活性(r = -0.55)呈负相关。

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Zernovoe khoziaistvo Rossii

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8 weeks