An Experimental Study on the Variation Regularity of Soil Nitrate Nitrogen in Yehe Irrigation Area

2016 ◽  
Author(s):  
Guest Editor Jianping Du
Keyword(s):  
Experimental Study ◽  
Nitrate Nitrogen ◽  
Soil Nitrate ◽  
Irrigation Area

Fallow management, soil water, plant-available soil nitrogen and grain sorghum production in south west Queensland

1992 ◽  
Vol 32 (4) ◽  
pp. 473 ◽  
Author(s):  
G Gibson ◽  
BJ Radford ◽  
RGH Nielsen
Keyword(s):  
Soil Water ◽  
Nitrate Nitrogen ◽  
Soil Nitrate ◽  
Zero Tillage ◽  
Fallow Management ◽  
South West ◽  
Primary Tillage ◽  
Grain Nitrogen ◽  
Texture Contrast ◽  
Gypsum Application

The effects of tillage frequency (conventional, reduced and zero), primary tillage implement (disc, blade and chisel plough), stubble management (retention and removal), gypsum application, and paraplowing were examined with respect to soil water storage, soil nitrate accumulation, crop establishment, crop growth, grain yield and grain nitrogen content for 4 successive sorghum crops on a sodic, texture-contrast soil in south west Queensland. Retention of sorghum stubble (v. removal) produced an increase in mean yield of sorghum grain of 393 kg/ha, due to increased soil water extraction and increased water use efficiency by the following crop. The highest mean yield occurred after reduced blade tillage with stubble retained. Zero tillage with stubble removed gave the lowest mean grain yield. Zero tillage always had the lowest quantity of soil nitrate-nitrogen at sowing. In one fallow, increased aggressiveness of primary tillage (disc v. blade plough) increased the quantity of nitrate-nitrogen in the top 60 cm of soil at sowing. These effects on available soil nitrogen did not result in corresponding differences in grain nitrogen content. Results indicate that for optimum fallow management on this texture-contrast soil in south west Queensland, sorghum residues should be retained, tillage frequency should be reduced, but not to zero, blade ploughing should be preferred to discing, and gypsum application should not be practised.

Nodulating and Non-Nodulating Soybean Rotation Influence on Soil Nitrate-Nitrogen and Water, and Sorghum Yield

2007 ◽  
Vol 99 (3) ◽  
pp. 599-606 ◽  
Author(s):  
Nanga Mady Kaye ◽  
Stephen C. Mason ◽  
Tomie D. Galusha ◽  
Martha Mamo
Keyword(s):  
Nitrate Nitrogen ◽  
Soil Nitrate

The Effect of Human Activity on the Distribution of Soil Nitrate Nitrogen in Unsaturated Zone

2013 ◽  
Vol 790 ◽  
pp. 202-205
Author(s):  
Hui Yan Gao ◽  
Lu Hua Yang ◽  
Tian Li ◽  
Zi Peng Guo
Keyword(s):  
Soil Moisture ◽  
Nitrogen Content ◽  
Human Activity ◽  
Soil Profile ◽  
Nitrate Nitrogen ◽  
Root Zone ◽  
Deep Layer ◽  
Soil Layer ◽  
Growth Period ◽  
Soil Nitrate

Soil moisture and nitrate nitrogen were measured respectively in planting area and non-planting area in RANZHUANG experiment station from 2011 to 2012. The effect of human activity on soil moisture and nitrate nitrogen was analyzed. The results show that soil moisture content varies from 8.61% to 30.09% within 0~250cm depth and is tended to be stable below 250cm deep layer in non-planting area. The distribution of soil nitrate nitrogen is a single peak curve, the peak moves downward at a speed of 0.81cm/d in percolation of rainfall. Soil moisture varies form 21.23% to 41.67% within 0~400cm depth and is tended to be stable below 400cm deep layer in planting area. Nitrate nitrogen is mainly accumulated at 0~100cm deep soil layer in the wheat growth period. In the maize growth period, the distribution of nitrate nitrogen is double peak curve in 0~500cm soil profile. The upper peak occurs at 40~100cm soil layer, the peak of nitrate nitrogen content is between 26.7~54.6mg/kg; the lower emerges at 150~260cm soil profile, the value is between 36.7~106.36mg/kg. Deep percolation of the nitrate nitrogen is obvious due to unreasonable irrigation and fertilization. The nitrate nitrogen content accounts for 52.3% of the total nitrate nitrogen below the root zone soil, which is a potential contamination source of groundwater.

scholarly journals INFLUENCE OF THE PREDECESSORS ON ELEMENTS OF FERTILITY SOILS AND EFFICIENCY SUMMER WHEATS IN A STEPPE ZONE OF REPUBLIC ТUVА

2021 ◽  
pp. 74-80
Author(s):  
А.С. СОТПА
Keyword(s):  
Experimental Study ◽  
Crop Rotation ◽  
Nitrate Nitrogen ◽  
Growing Season ◽  
Steppe Zone ◽  
Mineral Fertilizers ◽  
Average Productivity ◽  
Short Rotation ◽  
Nitrite Nitrogen

Проблема и цель. Целью исследований явилось изучение влияния предшественников и применения минеральных удобрений на основные элементы плодородия почвы, урожай яровой пшеницы и его качества. Методология. Для достижения цели исследования и ответа на поставленные исследовательские вопросы было проведено опытно-экспериментальное исследование. Опыты проведены в степной зоне Республики Тыва в 2019-2020 гг., на темно-каштановых, среднесуглинистых почвах, в трехпольном севообороте с короткой ротацией (чистый пар-пшеница-пшеница; чистый пар-многолетние травы-пшеница; чистый пар-овес-пшеница), бессменная пшеница, на двух фонах химизации: без применения минеральных удобрений (контроль, фон 0), с применением минеральных удобрений (фон 1). Результаты. Результаты исследований показали, что влажность почвы по чистому пару по всходам яровой пшеницы была на 16,5 % больше, чем после других предшественников. В период уборки пшеницы влажность почвы повысилась только на вариантах с применением минеральных удобрений. Выявлено, что в период вегетации пшеницы наибольшее содержание нитратного азота отмечено после многолетних трав, где азота нитратов было на 3,3-4,7 мг/кг больше, чем на контроле. Внесение минеральных удобрений способствовало росту содержания нитратного азота в почве к фазе всходов на 8,3-38,0 %, кущения и уборки – в 1,2-1,7 раза, в зависимости от различных предшественников. Заключение. В результате исследований было установлено, что высокое содержание азота в почве влияет на урожайность и продуктивность яровой пшеницы. При использовании в качестве предшественника многолетних трав средняя урожайность яровой пшеницы составляет 1,63 т/га, содержание белка в зерне – 16,6 %. Посев яровой пшеницы после овса обеспечивает получение зерна с содержанием белка – 15,4 %. Применение удобрений увеличивает урожайность пшеницы в среднем по опыту на 34,2 %. Problem and aim. By the purpose of researches was to establish infuence of the predecessors, application of mineral fertilizers on basic elements of fertility of ground, crop summer wheats and his quality. Methodology. To achieve the aim of the research and answer the questions an experimental study was carried out.The experiences are carried out in a steppe zone Republic of Тuvа in 2019-2020, on dark-chestnut, medium loamy soils, in three-feld crop rotation with short rotation (pure pairs-wheat-wheat; pure pair-longterm grass-wheat; pure pairs-oat-wheat) permanent wheat, on two chemistry backgrounds: without application of mineral fertilizers (control, background 0), with application of mineral fertilizers (background 1). Results. The results of researches have shown, that the humidity of ground till a pure pair on shoots summer wheats was on 16,5 % more, than after other predecessors. During harvest wheats the humidity of ground has raised only on variants with application of mineral fertilizers. It was found that during the growing season of wheat, the highest content of nitrate nitrogen was observed after long-term grasses where nitrite nitrogen was higher by 3,3 – 4,7 mg/kg than in the control. Is revealed, that the best predecessor ensuring nitrate by nitrogen crops summer wheats, in conditions of a steppe zone of region are the long-term grass. The entering of mineral fertilizers promoted growth of the contents nitrate of nitrogen in ground to a phase shoots on 8,3- 38,0 %, (tillering?) and harvesting - in 1,2-1,7 times, depending on the various predecessors. Conclusion. As a result of research it was found, that the high contents of nitrogen in ground infuences productivity and efciency summer wheats. At use as the predecessor of long-term grass the average productivity summer wheats makes 1,63 t/hа, contents of fber in a grain – 16,6 %. The crop summer wheats after oats provides reception of a grain with the contents of fber – 15,4 %. Application of fertilizers increases productivity wheats on the average by experience by 34,2 %

scholarly journals Variations Regularity of Soil Nitrate Nitrogen in Hebei Piedmont Plain

2015 ◽  
Vol 9 (1) ◽  
pp. 98-102
Author(s):  
Huiyan Gao ◽  
Luhua Yang
Keyword(s):  
Soil Profile ◽  
Nitrate Nitrogen ◽  
Rotation Period ◽  
Growth Period ◽  
Utilization Efficiency ◽  
Nitrate Content ◽  
Soil Nitrate ◽  
Deep Soil ◽  
Piedmont Plain ◽  
Groundwater Environment

Field experiment was carried out to study on the spatial and temporal distribution of soil nitrate nitrogen at Ranzhuang water resources experiment station in Hebei piedmont plain from 2011 to 2012. The results show that nitrate nitrogen content varies in sinusoidal curve at shallow tilth soil and shows in “W” shape at deep soil profile during the wheat-maize rotation period. Nitrate nitrogen is mainly accumulated in 0~100cm soil and the maximum value occur at reviving stage in the wheat growth period. In the maize growth period, the distribution of nitrate nitrogen is double peak curve in 0∼500cm soil profile. The maximum peak emerges at 150∼260cm, the peak of soil nitrate content is between 36.7∼106.36mg/kg. In 0∼500cm soil layers, the cumulative amount of nitrate nitrogen is 1430.56∼5126.05 kg/hm2. The amount of nitrate nitrogen leaching is 1294.13kg/hm, which is 52.29% of the total amount of annual fertilization. It is scientific and technical groundwork to improve the utilization efficiency of nitrogen fertilizer and protect groundwater environment.

Research progress on collocation planting of crops for decreasing the loss of soil nitrate nitrogen through leaching

2014 ◽  
Vol 22 (2) ◽  
pp. 136-142
Author(s):  
Deshui TAN ◽  
Lihua JIANG ◽  
Shuying TAN ◽  
Yu XU ◽  
Jianlin WEI ◽  
...  
Keyword(s):  
Nitrate Nitrogen ◽  
Research Progress ◽  
Soil Nitrate
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