Redirigiendo al acceso original de articulo en 17 segundos...
Inicio  /  Agriculture  /  Vol: 12 Par: 7 (2022)  /  Artículo
ARTÍCULO
TITULO

Studying the Effect of Straw Returning on the Interspecific Symbiosis of Soil Microbes Based on Carbon Source Utilization

Yucui Ning    
Xu Wang    
Yanna Yang    
Xu Cao    
Yulong Wu    
Detang Zou and Dongxing Zhou    

Resumen

Heilongjiang province has made great contributions to ensuring the food security of China. Grain production has increased year by year, followed by a large amount of straw?especially the production of corn straw. Straw returning is the best treatment method from the perspective of ecology. This study simulated modern mechanized operation conditions from the field of soil biological characteristics to explore the impact of straw decomposition on the changes in the soil microbial community. In this study, in the black soil region of Northeast China (45°45'27?~45°46'33? N, 126°35'44?~126°55'54? E), the orthogonal experimental design was used to experiment for two years (2019?2020), using straw length, amount, and buried depth as returning factors. The carbon source utilization intensity algorithm that was developed by our team was used to extract a single carbon source. A compound mathematical model was constructed based on path analysis and grey relation analysis. This study analyzed the interspecific symbiotic relationship of soil microbes in the process of straw returning and explored the regulatory methods and schemes with which to promote straw decomposition. The results showed that in the first year after straw returning, the cumulative decomposition rate of straw could reach 55.000%; the supplement of the carbon source was glycyl-l-glutamic acid, which was helpful for the decomposition of straw. It was found that cyclodextrin should be added within 90?120 days after straw returning to promote decomposition. In the second year of straw returning, the cumulative decomposition rate of straw can reach 73.523% and the carbon sources a-d-lactose and d-galactonic acid ?-lactone should be supplemented appropriately to promote straw decomposition. This study provides an experimental basis for corn straw returning to the black soil of the cold regions, along with the scientific and technological support for the sustainable development of agriculture and a guarantee of national food security.

 Artículos similares

       
 
Wuxiong Weng, Changyu Wang, Guixuan Zhu, Zejun Gu, Han Tang, Jinfeng Wang and Jinwu Wang    
This study is aimed at the special working conditions of seeding on sloping land, combining advanced precision seeding technology and the structure of rotary hole filling corn precision metering device seed rowers at home and abroad, and studying soil en... ver más
Revista: Agriculture

 
C. Romeralo Tapia,L. Botella,O. Santamaría,J. Diez     Pág. 515 - 525
Mitoviruses have been found in several forest pathogens (i.e. Cryphonectria parasitica, Gremmeniella abietina), and because they have been shown to reduce the virulence of host fungi there is a growing interest in studying their use as a biocontrol. This... ver más
Revista: Forest Systems

 
Hugo Escobar, Richard Bustos, Felipe Fernández, Henry Cárcamo, Herman Silva, Nicolás Frank, Liliana Cardemil     Pág. 71 - 81
We analyzed the mitigating effect of NO3 - and salicylic acid (SA) on the detrimental effects of salt stress by studying the water status of plants of maize grown in Hoagland´s medium with NaCl 100 mM as the saline component, to which SA and NO3 - wer... ver más