Abstracts of Nippon Dojo-Hiryogaku Zasshi 93 - 3

IF 1.9 4区 农林科学 Q3 ENVIRONMENTAL SCIENCES Soil Science and Plant Nutrition Pub Date : 2022-10-15 DOI:10.1080/00380768.2022.2132454
Yoshinori, Takahashic
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Abstract

572, 850, and 518 kg-CO 2 eq with high, medium, and low moisture content, respectively. Thus, with low moisture content, emissions were reduced by 9.4% and 39.1% compared with those when moisture content was high and medium, respectively. These results indicate that composting by actively mixing wheat straw into dairy manure to adjust moisture content can lead to swollen and softened compost and accelerated fermentation, which could help reduce greenhouse gas emissions from dairy farms. paddy sites. Comparison by landform revealed a wide variety of trends in soil-type differences, but specific trends, similar to those detected for land use, were not found. Thus, the nation-wide reformation into well-drained paddy fields has apparently lowered the position of the groundwater gley horizon, chan-ging Gley Lowland soils into other soil types, such as Gray Lowland soils. We propose that the present land-use type is an important factor for determining the degree of soil-type change from Gley Lowland soils to other soil types in paddy fields. of increased nitrogen supply and improved soil physical properties, such as air permeability, water retention, and water permeability, in the main root zone (0–40 cm) of onion plants. Onion yields were increased when the soil frost depth in the study fields was 23–37 cm. Considering a possible error of several centimeters in soil frost depth control, we recommend a target frost depth of 30 cm to improve the productivity of onion fields. However, in fields with high nitrogen fertility, soil frost depth control may result in excessive nitrogen supply. In such cases, growth suppression due to salt injury and damage from diseases, such as dry and soft rot, may occur, leading to lower onion yield. Therefore, proper nitrogen management might be required in fields in which soil frost depth is controlled. variables. Furthermore, nitrogen uptake from the panicle formation to full heading stages could be predicted using a multiple regression equation in which the amount of nitrogen in topdressing fertilizer and the amount of nitrogen applied to the surface soil were explanatory variables. These multiple regression equa-tions were adapted to calculate the optimum amounts of basic and topdressing fertilizer nitrogen. According to verifica-tion analysis conducted in a local producer’s field, the more that the amount of applied fertilizer deviated from the calculated amounts of basic and topdressing fertilizer estimated using our formula, the more that the nitrogen uptake from the transplantation to the panicle formation stage and the spikelet number deviated from the target ranges. Thus, the optimum spikelet number of Datemasayume can be obtained if the optimum nitrogen richness, calculated according to our formula, is provided using basic and topdressing fertilizers. significantly higher than that of Akitakomachi, and the rice root activity of Fusaotome was higher. At high temperature, the panicle temperature of Fusaotome was significantly lower than that of Akitakomachi, whereas the relative light intensity of Fusaotome was significantly higher than that of Akitakomachi at each height from 30 to 80 cm. Under normal-temperature conditions, there was no significant difference in the leaf area index (LAI) between the two varieties at each height. However, at high temperature, the LAI of Fusaotome was significantly lower than that of Akitakomachi at >70 cm (top layer), 60–70 cm, and 50–60 cm. With the high-temperature treatment, the occurrence of milky white and basal white rice was significantly lower in Fusaotome than that in Akitakomachi. In contrast, there was no difference in brown rice yield between the two varieties under normal- and high-temperature conditions. These results indicate that the high-temperature-ripening O. sativa variety Fusaotome has vigorous root elongation and activity, relative to that of the conventional variety Akitakomachi, under high-temperature conditions. Moreover, it is a favorable variety for ripening with a reduced increase in LAI in the upper layers of the vegetation community.
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《日本道州-平日学杂志》93 - 3摘要
高、中、低含水率分别为572、850、518 kg- co2当量。因此,在低含水率条件下,排放量比高含水率和中含水率条件下分别减少了9.4%和39.1%。综上所述,将麦秸主动混入牛粪中调节水分含量,可使堆肥膨胀软化,加速发酵,有助于减少奶牛场的温室气体排放。帕迪的网站。通过地形的比较发现土壤类型差异的趋势多种多样,但没有发现与土地利用相似的具体趋势。因此,全国范围内的水田改造明显降低了地下水沟层的位置,使沟低地土壤变成了灰色低地土壤等其他土壤类型。我们认为,当前的土地利用类型是决定稻田土壤类型由glley低地土壤向其他土壤类型转变程度的重要因素。增加洋葱主根区(0 ~ 40 cm)的氮素供应,改善土壤的透气性、保水性和透水性等物理性质。当土壤霜深为23 ~ 37 cm时,洋葱产量增加。考虑到土壤霜深控制可能存在几厘米的误差,我们建议将目标霜深控制在30厘米,以提高洋葱田的生产力。然而,在高氮肥力田,控制土壤霜深可能导致氮素供应过剩。在这种情况下,可能会发生盐害和干腐病、软腐病等病害造成的生长抑制,导致洋葱产量下降。因此,在控制土壤霜深的农田中,可能需要适当的氮肥管理。变量。以追肥氮量和表层土壤施氮量为解释变量的多元回归方程可以预测从穗期到抽穗期的氮素吸收量。利用这些多元回归方程计算了最适碱性和追肥氮肥用量。在当地某生产者田间进行的验证分析表明,施肥量与本公式估算的基肥和追肥计算量偏差越大,移栽至穗形成期氮素吸收量和小穗数偏离目标范围越大。因此,根据公式计算出的最适氮丰富度,在施用碱性肥和追肥的情况下,可以得到最适的小穗数。显著高于赤竹町,且Fusaotome的水稻根系活性较高。高温条件下,在30 ~ 80 cm各高度上,Fusaotome的穗温显著低于Akitakomachi,而相对光照强度显著高于Akitakomachi。在常温条件下,两个品种各高度叶面积指数(LAI)无显著差异。而在高温下,Fusaotome的LAI显著低于Akitakomachi的LAI,在bb0 ~ 70 cm(顶层)、60 ~ 70 cm和50 ~ 60 cm。高温处理后,扶桑组乳白和基白米的发生率显著低于秋足町组。相比之下,在正常和高温条件下,两个品种的糙米产量没有差异。这些结果表明,在高温条件下,与普通品种秋竹町相比,高温成熟的水稻品种Fusaotome具有较强的根系伸长和活性。在上层植被群落中,叶面积指数(LAI)的增加幅度减小,是有利于成熟的品种。
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来源期刊
Soil Science and Plant Nutrition
Soil Science and Plant Nutrition 农林科学-农艺学
CiteScore
4.80
自引率
15.00%
发文量
56
审稿时长
18-36 weeks
期刊介绍: Soil Science and Plant Nutrition is the official English journal of the Japanese Society of Soil Science and Plant Nutrition (JSSSPN), and publishes original research and reviews in soil physics, chemistry and mineralogy; soil biology; plant nutrition; soil genesis, classification and survey; soil fertility; fertilizers and soil amendments; environment; socio cultural soil science. The Journal publishes full length papers, short papers, and reviews.
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