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In Situ Nitrogen Mineralization Nitrification and Ammonia Volatilization in Maize Field Fertilized with Urea in Huanghuaihai Region of Northern China

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(PDF) In Situ Nitrogen Mineralization, Nitrification, and ~ In Situ Nitrogen Mineralization, Nitrification, and Ammonia Volatilization in Maize Field Fertilized with Urea in Huanghuaihai Region of Northern China January 2015 PLoS ONE 10(1):e0115649

In Situ Nitrogen Mineralization, Nitrification, and ~ Nitrogen (N) fertilization potentially affects soil N mineralization and leaching, and can enhance NH 3 volatilization, thus impacting crop production. A fertilizer experiment with five levels of N addition (0, 79, 147, 215 and 375 kg N ha-1) was performed in 2009 and 2010 in a maize field in Huanghuaihai region, China, where > 300 kg N ha-1 has been routinely applied to soil during maize .

In Situ Nitrogen Mineralization, Nitrification, and ~ Nitrogen (N) fertilization potentially affects soil N mineralization and leaching, and can enhance NH3 volatilization, thus impacting crop production. A fertilizer experiment with five levels of N addition (0, 79, 147, 215 and 375 kg N ha-1) was performed in 2009 and 2010 in a maize field in Huanghuaihai region, China, where > 300 kg N ha-1 has been routinely applied to soil during maize .

In Situ Nitrogen Mineralization, Nitrification, and ~ Zhang X, Q Wang, J Xu, FS Gilliam, N Tremblay, and C Li. 2015. In situ nitrogen mineralization, nitrification, and ammonia volatilization in maize field fertilized with urea in Huanghuaihai Region of Northern China. PLoS ONE 10(1): e0115649.

In situ nitrogen mineralization, nitrification, and ~ 1. PLoS One. 2015 Jan 30;10(1):e0115649. doi: 10.1371/journal.pone.0115649. eCollection 2015. In situ nitrogen mineralization, nitrification, and ammonia volatilization in maize field fertilized with urea in Huanghuaihai region of northern China.

RESEARCH ARTICLE In Situ Nitrogen Mineralization ~ BibTeX @MISC{China_researcharticle, author = {Of Northern China and Xuelin Zhang and Jun Xu and Frank S. Gilliam and Nicolas Tremblay and Chaohai Li}, title = {RESEARCH ARTICLE In Situ Nitrogen Mineralization, Nitrification, and Ammonia Volatilization in Maize Field Fertilized with Urea in Huanghuaihai Region}, year = {}}

Optimizing Nitrogen Fertilization Regimes for Sustainable ~ “In Situ Nitrogen Mineralization, Nitrification, and Ammonia Volatilization in Maize Field Fertilized with Urea in Huanghuaihai Region of Northern China,” PLoS ONE, vol. 10, no. 1, p. e0115649, 2015.

Xuelin Zhang's research works / Henan University, Kaifeng ~ In Situ Nitrogen Mineralization, Nitrification, and Ammonia Volatilization in Maize Field Fertilized with Urea in Huanghuaihai Region of Northern China Article Full-text available

Changes in the soil N potential mineralization and ~ Zhang X, Wang Q, Xu J, Gilliam FS, Tremblay N, Li C. 2015. In situ nitrogen mineralization, nitrification, and ammonia volatilization in maize field fertilized with urea in Huanghuaihai Region of Northern China. PLoS ONE 10: e0115649 Crossref, Medline, Google Scholar.

Corn and soybean’s season-long in-situ nitrogen ~ Many factors influence nitrogen (N) mineralization in agricultural soils. Our objective was to quantify cumulative (season-long) net N mineralization in corn (Zea mays L.) and soybean [Glycine max (L.) Merr] in a corn-soybean rotation under different N and soil drainage management (drained and undrained) in poorly-drained soils. In-situ incubations were conducted over two growing seasons using .

Nitrogen transformations in modern agriculture and the ~ In situ nitrogen mineralization, nitrification, and ammonia volatilization in maize field fertilized with urea in Huanghuaihai region of northern China. PLoS ONE 10 , e0115649 (2015).

Ammonia Volatilization Loss and Corn Nitrogen Nutrition ~ The cumulative ammonia volatilization loss during the first six days was lower, resulting in more urea left in the soil by the 6 th day, which contributed to the higher soil ammonium N levels on .

Characteristics of ammonia gas emissions from soybean ~ Zhang X, Wang Q, Xu J, Gilliam FS, Tremblay N, Li C (2015) In situ nitrogen mineralization, nitrification, and ammonia volatilization in maize field fertilized with urea in Huanghuaihai region Northern China. PLoS ONE 10:1–15. Google Scholar

CORE ~ Nitrogen (N) fertilization potentially affects soil N mineralization and leaching, and can enhance NH3 volatilization, thus impacting crop production. A fertilizer experiment with five levels of N addition (0, 79, 147, 215 and 375 kg N ha-1) was performed in 2009 and 2010 in a maize field in Huanghuaihai region, China, where \u3e 300 kg N ha-1 .

Loss of nitrogen by ammonia volatilization and ~ 54 Consequently an experiment was conducted on a urea fertilized maize crop in Shanxi Province in 55 northern China using emerging micrometeorological techniques to provide continuous 56 measurements of NH3 volatilization and NOx emission and determine the importance of the 57 different loss processes in that environment. 58

Nitrogen Basics – The Nitrogen Cycle ~ Nitrogen, Crops and the Environment Nitrogen (N) is essential for the development of field crops. When N is deficient, root systems and plant growth are stunted, older leaves turn yellow and the crop is low in crude protein. Too much N can delay maturity and cause excessive vegetative growth at the expense of grain yield. Nitrogen

Nitrogen Mineralization - an overview / ScienceDirect Topics ~ P. Bielek, in Nitrogen, the Confer-N-s, 1998. Abstract. Data about nitrogen mineralization and nitrification processes were collected from nine different soil-ecological sites The plots were fertilized with NPK and with PK fertilizers. Models of nitrogen mineralization and nitrification processes have been derived from the results. The maps of nitrogen mineralization processes (1:500,000 and 1 .

Emissions of NO and NH3 from a Typical - Paperity ~ In Situ Nitrogen Mineralization, Nitrification, and Ammonia Volatilization in Maize Field Fertilized with Urea in Huanghuaihai Region of Northern China Atmospheric Nitrogen Deposition at Two Sites in an Arid Environment of.

Nitrogen volatilisation: Factors affecting how much N is ~ Take home messagesFertiliser nitrogen may be lost from the soil in several different ways, including; ammonia volatilisation, nitrate leaching and nitrate denitrification. Factors affecting these losses include fertiliser compound, fertiliser form, type of application, timing of application, soil properties, rainfall amount and intensity, and temperature and wind after application.Field trials .

Nitrogen in the Environment: Ammonia Volatilization / MU ~ Although nitrogen is quite stable in the atmosphere, the form of nitrogen in the soil can change very easily. Some forms of nitrogen can be changed to ammonia gas (NH3). Ammonia gas can be lost from the soil and return to the atmosphere. This is called ammonia volatilizationWhat causes ammonia volatilization?The process of ammonia volatilization commonly takes place when nitrogen is in an .

The fate of 15 N-labelled urea in an alkaline calcareous ~ We aimed to quantitatively investigate the effects of rate and timing of nitrogen (N) application on fate of 15N-labelled urea in an alkaline calcareous soil during a winter wheat (WW) and summer maize (SM) seasons. The treatments consisted of conventional N application (i.e., WN300-2T or MN240-2T, 300 or 240 kg N ha−1 with two N splits to WW or SM), reduced N application (i.e., WN210-2T or .

Effects of in situ freezing on soil net nitrogen ~ Even less is known about relationships of responses to soil N status. This study measured soil N mineralization and nitrification in the field along an experimental N gradient in a grassland of northern China during the dormant season (October 2005–April 2006), a period in which freezing naturally occurs.

Understanding nitrogen in soils ~ In this process, N is lost as ammonia (NH 3) gas. Manure and fertilizer products containing urea can cause nitrogen to be lost this way. Ammonia is an intermediate form of N during the process that transforms urea to NH 4 +-N. Incorporating these N sources will virtually eliminate volatilization losses. Nitrogen loss from volatilization is .