Recovery efficiency of nitrogen fertilizers has always been an important issue, especially for N fertilizer recommendation rate in cropping systems. Based on the equilibrium of N in the soil⁻plant system, apparent accumulated N fertilizer recovery (NREac) was determined for long-term (15-years) experiments in wheat (Triticum aestivum L.) and maize (Zea mays L.) rotations at five field sites with various soils and climate characteristics in China. The result showed that the frequency of cropping and the content of soil clay affected NREac positively and negatively, respectively. In the absence of nutrient deficiencies and other soil constraints (from NPK (nitrogen, phosphorus and potassium) in S2-CP (site2-Changping) in Beijing, S3-ZZ ...
Over-application of nitrogen (N) and phosphorus (P), and insufficient supply of potassium (K), have ...
Wheat and maize are two major food crops in China. Conventional fertilizer recommendations result in...
Excessive or improper nitrogen (N) application rates negatively affect crop production and thereby e...
The optimization of nitrogen (N) fertilization has become an ever more important global challenge wi...
The reported effects of nitrogen (N) fertilizer on wheat yield and nitrogen use efficiency (NUE) var...
There is a growing concern about excessive nitrogen (N) and water use in agricultural systems in Nor...
Excessive synthetic nitrogen (N) applications, high mineral N accumulation and low N use efficiency ...
Nitrate leaching is an important factor affecting N fertilizer consumption in the agroecosystem of t...
China is the world’s largest consumer of synthetic nitrogen (N), where very low rates of fertilizer ...
A suitable crop rotation with optimum fertilizer application can balance the need for high crop yiel...
A considerable amount of surplus nitrogen (N), which primarily takes the form of nitrate, accumulate...
In spite of the importance of N management in agricultural production, closing the full nitrogen bal...
A field experiment with four treatments and four replicates in a randomized complete block design wa...
Excess of water irrigation and fertilizer consumption by crops has resulted in high soil nitrogen (N...
Better water and nitrogen (N) management requires better understanding of soil water and N balances ...
Over-application of nitrogen (N) and phosphorus (P), and insufficient supply of potassium (K), have ...
Wheat and maize are two major food crops in China. Conventional fertilizer recommendations result in...
Excessive or improper nitrogen (N) application rates negatively affect crop production and thereby e...
The optimization of nitrogen (N) fertilization has become an ever more important global challenge wi...
The reported effects of nitrogen (N) fertilizer on wheat yield and nitrogen use efficiency (NUE) var...
There is a growing concern about excessive nitrogen (N) and water use in agricultural systems in Nor...
Excessive synthetic nitrogen (N) applications, high mineral N accumulation and low N use efficiency ...
Nitrate leaching is an important factor affecting N fertilizer consumption in the agroecosystem of t...
China is the world’s largest consumer of synthetic nitrogen (N), where very low rates of fertilizer ...
A suitable crop rotation with optimum fertilizer application can balance the need for high crop yiel...
A considerable amount of surplus nitrogen (N), which primarily takes the form of nitrate, accumulate...
In spite of the importance of N management in agricultural production, closing the full nitrogen bal...
A field experiment with four treatments and four replicates in a randomized complete block design wa...
Excess of water irrigation and fertilizer consumption by crops has resulted in high soil nitrogen (N...
Better water and nitrogen (N) management requires better understanding of soil water and N balances ...
Over-application of nitrogen (N) and phosphorus (P), and insufficient supply of potassium (K), have ...
Wheat and maize are two major food crops in China. Conventional fertilizer recommendations result in...
Excessive or improper nitrogen (N) application rates negatively affect crop production and thereby e...