Your search keyword '"Ekenler, Mine"' showing total 4 results

1. β-Glucosaminidase activity of soils: effect of cropping systems and its relationship to nitrogen mineralization

Author

Ekenler, Mine and Tabatabai, M.

Published

2002

2. Significance of Enzyme Activities in Soil Nitrogen Mineralization.

Author

Tabatabai, M. A., Ekenler, Mine, and Senwo, Z. N.

Subjects

*SOIL mineralogy, *AMIDASES, *GLUCOSIDASES, *HUMUS, *GLYCOSIDASES, *NITROGEN

Abstract

This study was undertaken to assess the relationship between nitrogen (N) mineralization in soils treated with eight lime application rates, with four field replications, and the activities of six amidohydrolases involved in N cycling and four glycosidases involved in carbon (C) cycling in soils. Nitrogen mineralization was studied at 20 or 30 °C for 20 weeks, and with the exception of N-aceyl-β-D-glucosaminidase (NAGase; EC 3.2.1.30) activity, which was assayed at both temperatures, the enzyme activities were assayed at 30 °C at their optimal pH values. Results showed that among the eight enzyme activities studied, NAGase activity was the most significantly correlated with the cumulative amounts of N mineralized in 32 soil samples at 20 °C (r = 0.87***) and at 30 °C (r = 0.95***). The cumulative amounts of N mineralized at 30 °C were also significantly correlated with arylamidase and L-aspartase activities, with r values of 0.61*** and 0.52**, respectively. Because NAGase activity is involved in both N and C cycling, the cumulative amounts of N mineralized at 30 °C were also significantly correlated with the activities of β-glucosidase (r = 0.80***) and β-galactosidase (r = 0.58***). Activities of other N enzymes that were significantly correlated with the cumulative amounts of N mineralized at 30 °C in 20 weeks were those of L-asparaginase (r = 0.61***), urease (r = 0.57***), amidase (r = 0.54**), and L-glutaminase (r = 0.41*). It seems that the activity of NAGase can be used as an index of N mineralization in soils. [ABSTRACT FROM AUTHOR]

Published

2010

3. Arylamidase and amidohydrolases in soils as affected by liming and tillage systems

Author

Ekenler, Mine and Tabatabai, M.A.

Subjects

*AMIDASES, *TILLAGE, *LIMING of soils, *BIOMASS

Abstract

This study investigated the long-term effect of lime application and tillage systems (no-till, ridge-till and chisel plow) on the activities of arylamidase and amidohydrolases involved in N cycling in soils at four long-term research sites in Iowa, USA. The activities of the following enzymes were assayed: arylamidase, l-asparaginase, l-glutaminase, amidase, urease, and l-aspartase at their optimal pH values. The activities of the enzymes were significantly (P<0.001) and positively correlated with soil pH, with r values ranging from 0.42&ast; to 0.99&ast;&ast;&ast; for arylamidase, 0.81&ast;&ast;&ast; to 0.97&ast;&ast;&ast; for l-asparaginase, 0.62&ast;&ast;&ast; to 0.97&ast;&ast;&ast; for l-glutaminase, 0.61&ast;&ast;&ast; to 0.98&ast;&ast;&ast; for amidase, 0.66&ast;&ast; to 0.96&ast;&ast;&ast; for urease, and 0.80&ast;&ast;&ast; to 0.99&ast;&ast;&ast; for l-aspartase. The Δactivity/ΔpH values were calculated to assess the sensitivity of the enzymes to changes in soil pH. The order of the sensitivity of enzymes was as follows: l-glutaminase>l-asparaginase>amidase>arylamidase>urease>l-aspartase. The enzyme activities were greater in the samples of the 0–5 cm depth than those of the 0–15 cm samples under no-till treatment. Most of the enzyme activities were significantly (P<0.001) and positively correlated with microbial biomass C (Cmic) and N (Nmic). Lime application significantly affected the specific activities of the six enzymes studied. Results showed that soil management practices, including liming and type of tillage significantly affect soil biological and biochemical properties, which may lead to changes in nitrogen cycling, including N mineralization in soils. [Copyright &y& Elsevier]

Published

2004

4. β-Glucosaminidase Activity as an Index of Nitrogen Mineralization in Soils.

Author

Tabatabai, M. A. and Ekenler, Mine

Subjects

*SOIL enzymology, *CROPS, *NITROGEN, *NITROGEN in soils, *HYDROLYSIS

Abstract

N-Acetyl-β-d-glucosaminidase (NAGase, EC 3.2.1.30) is one of three enzymes that catalyze the hydrolysis of chitin. This hydrolysis is important in carbon (C) and nitrogen (N) cycling in soils because it participates in the processes whereby chitin is converted to amino sugars, which are major sources of mineralizable N in soils. This study investigated the relationship between N mineralization indexes and activity of β-glucosaminidase in soils from six agroecological zones of the North Central region of the United States. Nitrogen mineralization was studied by using short-term laboratory incubations under aerobic and anaerobic conditions and by hydrolysis of soil organic N by steam distillation with chemical reagents. Enzyme activity was assayed at its optimal pH value. The amounts of N mineralized by all the biological and chemical methods studied were significantly correlated with β-glucosaminidase activity, with r values of 0.73*** and 0.76*** for the amounts of released by steam distillation with PO4-B4O7 for 4 or 8 min, respectively; of 0.69*** and 0.74*** for the amounts of released with Na2B4O7 for 4 or 8 min, respectively; of 0.47*** for the amounts of inorganic N produced under aerobic incubation; of 0.80*** for amounts of inorganic N produced by incubation under anaerobic conditions of field-moist soils; and of 0.86*** for anaerobic incubation of air-dried soils. There was a significant correlation between β-glucosaminidase activity and organic C (r = 0.56***), total N (r = 0.60***), and fixed of the soils (r = 0.79***). The amounts of inorganic N released by the methods, with the exception of those under aerobic incubation, were significantly (P < 0.001) correlated with organic C and total N contents of the soils, with r values ranging from 0.65*** to 0.78*** and from 0.62*** to 0.80*** for organic C and total N, respectively. [ABSTRACT FROM AUTHOR]

Published

2004