No-till soil management increases microbial biomass and alters community profiles in soil aggregates

2010 ◽  
Vol 46 (3) ◽  
pp. 390-397 ◽  
Author(s):  
B.L. Helgason ◽  
F.L. Walley ◽  
J.J. Germida
2016 ◽  
Vol 568 ◽  
pp. 52-56 ◽  
Author(s):  
Junjun Wu ◽  
Qian Zhang ◽  
Fan Yang ◽  
Yao lei ◽  
Quanfa Zhang ◽  
...  

2020 ◽  
Vol 112 (4) ◽  
pp. 2519-2534 ◽  
Author(s):  
Sangeeta Bansal ◽  
Xinhua Yin ◽  
Hubert J. Savoy ◽  
Sindhu Jagadamma ◽  
Jaehoon Lee ◽  
...  

2007 ◽  
Vol 87 (4) ◽  
pp. 399-404 ◽  
Author(s):  
M R Carter ◽  
C. Noronha

Intensive forms of soil management occur in potato (Solanum tuberosum L.) production systems, but little is known about the influence of such practices on soil biological properties. Microbial biomass C, phosphatase activity, and the abundance (number), richness (family groups), and diversity of soil micro-arthropods (Collembola and mites) were compared in conventional and adjacent integrated pest management (IPM) systems of 3-yr potato rotations, established on fine sandy loams in Prince Edward Island, Atlantic Canada. The study was conducted at two sites over a 2-yr period. Soil microbial parameters were generally similar between management systems. Management differences showed some effect on micro-arthropod abundance and richness in three of the eight comparisons. Under optimum soil-water conditions, both Collembola and mite communities increased over the growing season regardless of management system. Key words: Soil management for potato, Collembola, mites, soil microbial biomass carbon, acid phosphatase, integrated pest management


2015 ◽  
Vol 52 (2) ◽  
pp. 191-202 ◽  
Author(s):  
Vivian A. Rincon-Florez ◽  
Yash P. Dang ◽  
Mark H. Crawford ◽  
Peer M. Schenk ◽  
Lilia C. Carvalhais

Author(s):  
Yuriy Yuryi Kravchenko ◽  
Zhang Xingyi ◽  
Song Chun-yu ◽  
Yarosh Anna Viyacheslavivna ◽  
Voitsekhivska Olena Vasilivna

The main purpose of this study was to determine the size and direction of the seasonal dynamics of organic carbon (Сmicro) and nitrogen (Nmicro) biomass of microorganisms and microbial index (Cmicro : Corg) of natural and agrocenoses with their different uses. Field research methods involved taking of soil samples in 0-10-, 10-20- and 20-40 сm layers. Under laboratory conditions, the content of total soil carbon was determined by dry oxygen combustion on a Vario EL III analyzer (Elementar Analyzensysteme, Hanau, Germany). The carbon content of microbial biomass (Сmicro) was determined by chloroform fumigation extraction method (CFE). To freshly taken soil samples (2 hours) and soil samples after their 24-hour fumigation with chloroform vapors, 0.5 M K2SO4 was added to extract biomass lysis products of soil microorganisms. The content of organic carbon and nitrogen in the biomass of microorganisms in the obtained filtrates was determined on the Elementar Liqui TOC II, Analyzensysteme GmbH, Germany. The carbon content of microbial biomass was calculated from the difference between carbon in fumigated and control samples using a factor of 0,45 - for carbon and 0,54 – for nitrogen. The microbial index of soils was determined by the ratio between the carbon of microorganisms and the total organic carbon of the soil – Cmicro : Corg • 100 (%). Average values and confidence intervals were determined for each defined indicator. The Bonferoni method was used to correct the errors of multiple comparative samples of a one-way ANOVA analyze. K. Pearson’s linear correlation analysis was used to establish the relationships between the dynamics of carbon biomass of microorganisms and organic carbon of the soil during the growing season. Our research has shown the dynamics of Сmicro, Nmicro, Сmicro : Nmicro and Cmicro : Corg during the growing season. Analysis of the box plot showed the largest amplitude of Сmicro changes in the upper 0-10 cm layer of izogumusol. The smallest difference in the quartile range (IQR0,25-0,75) was for no-till and overhang (Ab) in the upper 0-10-, no-till (NT) and fallow (F) - in the layer 10-20- and plowing (CT) - in a layer of 20-40 cm. The content of organic carbon biomass of microorganisms in the upper layer of izogumusol at the beginning of the growing season had the highest values of Ab (577,79  1,64 mg/kg), NT (485,43  1,97 mg/kg) and CT (470,43  0,77 mg/kg), the smallest - for F (370,15  2,18 mg/kg). The content of Nmicro during this period decreased from Ab to Comb (combined tillage), NT, CT, Rot (rotary tillage), RT (reduced (ridge) tillage) and F, respectively. In the 20-40 cm layer, the highest values of Сmicro and Nmicro were observed in mid-July. The lowest values of Сmicro and Nmicro and the largest – Сmicro : Nmicro were found in late August for all variants and layers of the study. The dynamics of the microbial index resembled the trends of Сmicro and Nmicro. The largest share of Smicro in Sorghum during the growing season, on average was: - Ab (1,82  1,85 %) and NT (1,66  1,52 %) - in the layer 0-10-, - Ab (1,23  1,27 %) and NT (1,29  1,32 %) - in the layer 10-20- and - Ab (1,19  1,09 %) and F (1,11  1,077 %) - in a layer of 20-40 cm. Different use of izogumusol affected the amplitude of seasonal changes of Сmicro and Nmicro and did not affect on their direction. The maximum content of Сmicro and Nmicro was observed at the beginning of the growing season - in a layer of 0-10 cm and in mid-July - in a layer of 20-40 cm, the minimum - at the end of the summer period. During this period, the widest ratio of Сmicro : Nmicro was for F and CT - in the layer 0-20 cm and CT and Rot - in the layer 20-40 cm. The Pearson’s correlation coefficient between Сmicro and Corg increased from the upper 0-10- to the lower 20-40 cm layer of izogumusol. "Strong" and "high" negative correlations have been established between Сmicro and Corg, but no pattern has been found between the correlation coefficient and tillage technologies.


2011 ◽  
Vol 12 (3) ◽  
Author(s):  
Orivaldo ARF ◽  
Marco Eustáquio de SÁ ◽  
Ricardo Antônio Ferreira RODRIGUES ◽  
Salatiér BUZETTI ◽  
Flávia Catiuci Robim da SILVA ◽  
...  

O feijão comum é uma planta exigente em nutrientes, principalmente em relação ao N. A adoção de um sistema de preparo que possibilite melhorar as condições do solo, associada ao fornecimento adequado de N pode ser de suma importância no sentido de aumentar a eficiência da planta na utilização dos recursos disponíveis. Assim propôs-se o estudo com o objetivo de avaliar o efeito de diferentes preparos do solo, inoculação de sementes com Rhizobium tropici e doses de N em cobertura no desenvolvimento e produtividade de grãos do feijão comum, cultivar Pérola, no período de inverno e irrigado. O experimento foi desenvolvido no município de Selvíria (MS) nos anos de 2006 e 2007. O delineamento estatístico foi blocos casualizados disposto em esquema fatorial 3 x 2 x 4, envolvendo três modalidades de preparo do solo (escarificador + grade niveladora, grade pesada + grade niveladora e plantio direto), inoculação ou não de sementes com estirpes de Rhizobium tropici (presença e ausência) e aplicação de N em cobertura aplicadas por ocasião da fase V4-5 (0, 60, 120 e 180 kg ha-1 ), com quatro repetições. Concluiu-se que o preparo do solo, com grade pesada, escarificador ou plantio direto e o uso de inoculação de sementes com Rhizobium tropici não alteram a produtividade de grãos da cultura e, a adubação nitrogenada em cobertura proporciona incremento na produtividade de grãos superior a 17% na dose de 180 kg de N ha-1 em relação ao tratamento testemunha. ABSTRACT Common bean is a demanding plant in nutrients, mainly in relation to nitrogen. The adoption of a management system that improves the soil conditions, associated to the appropriate nitrogen supply can be very important to increase the plant efficiency in the use of the available resources. This study aimed to evaluate different combinations of soil management, seed inoculation and nitrogen doses in the growth and yield of irrigated common bean plant in winter period. The experiment was conducted in Selvíria county (MS) in years of 2006 and 2007. A randomized completely blocks design in a factorial scheme 3 x 2 x 4, constituted by three soil management (chisel ploughing + leveling disk, heavy disk + leveling disk, and no till), seed inoculation with Rhizobium tropici ( with or without inoculation) and nitrogen doses at sidedressing on stage V4-5 (zero, 60, 120 and 180 kg ha-1), with four repetitions, was used. The soil management with chisel ploughing, heavy disk, or no till, and the use of seed inoculation with Rhizobium tropici does not interfere in the irrigated common bean yield; the nitrogen fertilization at sidedressing provides increment above 17% at dose of 180 kg ha-1 of nitrogen in relation to control.


2021 ◽  
Vol 243 ◽  
pp. 106523
Author(s):  
Maíse Soares de Moura ◽  
Bruno Montoani Silva ◽  
Paula Karen Mota ◽  
Emerson Borghi ◽  
Alvaro Vilela de Resende ◽  
...  

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