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W4353094202 abstract "Soil health depletion due to intensive tillage operations is a global issue in the agricultural sector. Conservation tillage (CT) which involves non-inversion tillage and leaving ∼30% of the soil surface covered with crop residues, is a strategy designed to enhance soil health. However, no comprehensive study to investigate the long-term effect of CT on soil biological activity and the soil nutrient supply has yet been widely carried out. Biological and chemical soil properties were assessed at depths 0–5, 10–15, and 20–25 cm depths after 18 years of CT and conventional tillage practice (PT). Various stages in the vegetative growth of maize were investigated in 2021 in Hungary. The findings indicated that tillage intensity, soil depth, and growth stages all significantly influenced soil enzyme activities and the concentration of soil nutrients. Less soil disturbance resulted in a significantly larger concentration of soil carbon parameters (total organic carbon and labile carbon) in CT plots, where the activity of β-glucosidase and dehydrogenase (DHA) in the upper soil layer increased significantly (0.7–2.6 and 2.6–4.7 times, respectively) compared to PT. The high amount of organic matter and the greater resistance to erosion observed in CT also contributed to the higher concentration of available nutrients (NH4, NO3, Ca, K) and total P in the surface soil layer. Phosphatase activity was highest in the mid-stage of vegetative growth and was positively correlated to the total P concentration. The alterations in soil water content were clearly negatively correlated with the change in DHA and phosphatase activity. Overall, due to the more balanced environmental conditions, the decomposition of organic substances was more balanced and slower in CT than in PT. This implied that the mobilization of nutrients in the soil was more balanced as well, and that the nutrients were released gradually. The enhancement of the soil nutrient-supplying capacity achieved by means of long-term conservation tillage provides a promising strategy for sustainable nutrient management." @default.
W4353094202 created "2023-03-23" @default.
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W4353094202 date "2023-09-01" @default.
W4353094202 modified "2023-09-30" @default.
W4353094202 title "Long-term conservation tillage results in a more balanced soil microbiological activity and higher nutrient supply capacity" @default.
W4353094202 cites W1521255262 @default.
W4353094202 cites W1577458376 @default.
W4353094202 cites W1590169455 @default.
W4353094202 cites W1595354367 @default.
W4353094202 cites W1792002056 @default.
W4353094202 cites W1925330822 @default.
W4353094202 cites W1967240543 @default.
W4353094202 cites W1972364341 @default.
W4353094202 cites W1974050035 @default.
W4353094202 cites W1980768404 @default.
W4353094202 cites W1989350248 @default.
W4353094202 cites W1998085315 @default.
W4353094202 cites W2003788651 @default.
W4353094202 cites W2021739845 @default.
W4353094202 cites W2028088706 @default.
W4353094202 cites W2029116925 @default.
W4353094202 cites W2029277298 @default.
W4353094202 cites W2030958617 @default.
W4353094202 cites W2034523224 @default.
W4353094202 cites W2052072775 @default.
W4353094202 cites W2056510318 @default.
W4353094202 cites W2060101417 @default.
W4353094202 cites W2062977246 @default.
W4353094202 cites W2064133150 @default.
W4353094202 cites W2069827759 @default.
W4353094202 cites W2074320644 @default.
W4353094202 cites W2075347554 @default.
W4353094202 cites W2085866293 @default.
W4353094202 cites W2087891521 @default.
W4353094202 cites W2088054752 @default.
W4353094202 cites W2089995046 @default.
W4353094202 cites W2090807319 @default.
W4353094202 cites W2098828556 @default.
W4353094202 cites W2099656668 @default.
W4353094202 cites W2105735204 @default.
W4353094202 cites W2122974887 @default.
W4353094202 cites W2142570765 @default.
W4353094202 cites W2148050642 @default.
W4353094202 cites W2159205497 @default.
W4353094202 cites W2167012921 @default.
W4353094202 cites W2183093624 @default.
W4353094202 cites W2253057571 @default.
W4353094202 cites W2280587007 @default.
W4353094202 cites W2397527579 @default.
W4353094202 cites W2465245248 @default.
W4353094202 cites W2564535498 @default.
W4353094202 cites W2586440072 @default.
W4353094202 cites W2587819783 @default.
W4353094202 cites W2742682367 @default.
W4353094202 cites W2756959719 @default.
W4353094202 cites W2883382304 @default.
W4353094202 cites W2963048106 @default.
W4353094202 cites W2977717949 @default.
W4353094202 cites W2982380414 @default.
W4353094202 cites W2995841781 @default.
W4353094202 cites W3006048836 @default.
W4353094202 cites W3026992544 @default.
W4353094202 cites W3030082445 @default.
W4353094202 cites W3034534873 @default.
W4353094202 cites W3044332686 @default.
W4353094202 cites W3091583773 @default.
W4353094202 cites W3132075313 @default.
W4353094202 cites W3134384357 @default.
W4353094202 cites W3151026130 @default.
W4353094202 cites W3152909949 @default.
W4353094202 cites W3201793218 @default.
W4353094202 cites W4205371876 @default.
W4353094202 cites W4210430391 @default.
W4353094202 cites W4234424799 @default.
W4353094202 cites W4252316393 @default.
W4353094202 cites W4283755974 @default.
W4353094202 cites W4293317152 @default.
W4353094202 doi "https://doi.org/10.1016/j.iswcr.2023.03.003" @default.
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