Activity of Dehydrogenases as an Indicator of Soil Environment Quality

Karolina Furtak, Anna M. Gajda

Abstract


Activity of dehydrogenases (DHs) indicates the presence of viable and physiologically active (physiologically active or physiological activity) microorganisms. Their presence (activity) in soil is correlated with the content of organic carbon, microorganisms, nitrifying activity and microbial respiration. Determination of DHs activity allows to control changes in soil microbial population and is considered as an important parameter of soil quality. The aim of the study was to determine the effects of different farming systems on the enzymatic activity in soil under winter wheat. The research was conducted in the years 2014–2016 on long-term field experiment under two different farming systems (ecological and conventional) at the IUNG (PIB) Experimental Station located in Osiny (Lublin Voivodeship), Poland. Each farming system differs in crop rotation system and whole agrotechnics, which have been adapted to its specificity. Determination of DHs activity was performed using Casida et al.’s (1964) method with modifications. Measured DHs activity was expressed in milligrams of triphenyl formazan (TPF) per 100 g of soil within 24 hours. The results showed that ecological farming system beneficially influenced soil environment.

 


Keywords


soil quality, activity of dehydrogenases, farming system

Full Text:

PDF

References


A lvear, M., Rosas, A., Rouanet, J.L., Borie, F., 2005. Effects of Three Soil Tillage Systems on Some Biological Activities in an Ultisol from Southern Chile. Soil Till Res., 82: 195–202.

Bastida, F., Kandeler, E., Moreno, J.L., Ros, M., García, C., Hernández, T., 2008. Application of Fresh and Composted Organic Wastes Modifies Structure, Size and Activity of Soil Microbial Community under Semiarid Climate. Applied Soil Ecology, 40, 2: 318–329.

Błońska, E., Lasota, J., Gruba, P., 2016. Effect of Temperate Forest Tree Species on Soil Dehydrogenase and Urease Activities in Relation to Other Properties of Soil Derived from Loess and Glaciofluvial Sand. Ecol Res., 31, 5: 655–664,

http://dx.doi.org/10.1007/s11284-016-1375-6

Błońska, E., 2011. Soil Enzymes and Their Importance in Assessing the Biological Activity of Forest Soils on the Example of Nature Reserves in the Polish Lowlands and Uplands (in Polish). Rocz. Glebozn., 62, 4: 163–172.

Brzezińska, M., Włodarczyk, T., 2005. Enzymes of Intracellular Redox Transformations (Oxidoreductases) (in Polish). Acta Agrophys. Rozpr. Monogr., 3: 11–26.

Caporali, F., Mancinelli, R., Campiglia, E., 2003. Indicators of Cropping System Diversity in Organic and Conventional Farms in Central Italy. International Journal of Agricultural Sustainability, 1, 1: 6772.

Casida, L., Klein, D., Santoro, T., 1964. Soil Dehydrogenase Activity. Soil Science, 98: 371–376.

Cirilli, F., Bellincontro, A., De Santis, D., Botondi, R., Colao, M., Muleo, R., Mencarelli, F., 2012. Temperature and Water Loss Affect ADH Activity and Gene Expression in Grape Berry During Postharvest Dehydration. Food Chem., 132: 447–454.

D aif, M.A., Khater, H.A., Abdul Aleem, M., Rehan, M.M., 2013. Chemical and Biological Indicators of Soil Quality in Organic and Conventional Farming Systems. J. Soil Sci. And Agric. Eng., Mansoura Univ., 4, 11: 1273–1288.

Frąc, M., Lipiec, J., Rutkowska, A., Oszust, K., Półtorak, M. 2011. Microbiological Properties of Soil under Winter Wheat in the Ecological and Conventional Cropping Systems (in Polish). Acta Agrophys., 18, 2: 245–254.

Gajda, A.M., 2008. Effect of Different Tillage Systems on Some Microbiological Properties of Soils under Winter Wheat. Int. Agrophysics, 22: 201–208.

Gajda, A.M., Przewłoka, B., Gawryjołek, K., 2013. Changes in Soil Quality Associated with Tillage System Applied. Int. Agrophysics, 27: 133–141.

Gałązka, A., Gawryjołek, K., Perzyński, A., Gałązka, R., Księżak, J., 2017. Changes in Enzymatic Activities and Microbial Communities in Soil under Long-Term Maize Monoculture and Crop Rotation. Pol. J. Environ. Stud., 26, 1: 39–46.

Kieliszewska-Rokicka, B., 2001. Soil Enzymes and Their Importance in Investigate of Microbiological Activity of Soil. In: Dahm, H., Pokojska-Burdzej, A. (eds.), Drobnoustroje środowiska glebowego, aspekty fizjologiczne, biochemiczne, genetyczne (in Polish). Toruń, Wydaw. Adam Marszałek, pp. 37–47.

Levyk, V., Maryskevych, O., Brzezińska, M., Włodarczyk, T., 2007. Dehydrogenase Activity of Technogenic Soils of Former Sulphur Mines (Yvaoriv and Nemyriv, Ukraine). Int. Agrophysics, 21: 255–260.

Majchrzak, L., Niewiadomska, A., Natywa, M., 2014. Evaluation of Dehydrogenase Activity of Spring Barley Depending on the Tillage System, Previous Crop and Type of Crop Residua (in Polish). Annales Universitatis Mariae Curie-Skłodowska Lublin-Polonia, 69, 4: 103–111.

Marinari, S., Mancinelli, R., Campiglia, E., Grego, S., 2006. Chemical and Biological Indicators of Soil Quality in Organic and Conventional Farming Systems in Italy. Ecol. Indicators, 6: 701–711.

Mocek-Płóciniak, A., 2010. Utilisation of Enzymatic Activity for the Evaluation of the Impact of Anthropogenic Changes Caused by Heavy Metals in Soil Environment (in Polish). Nauka Przyr. Technol., 4, 6: 86

Pociejowska, M., Natywa, M., Majchrzak, L., Cłapa, T., Selwet, M., 2013. Effect of Site Preparation for Spring Wheat on the Number of Microorganisms and Biochemical Activity of Soil (in Polish). Polish Journal of Agronomy, 15: 21–26.

Salazar, S., Sanchez, L., Alvarez, J., Valverde, A., Galindo, P., Igual, J., Peix, A., Santa-Regina, I., 2011. Correlation Among Soil Enzyme Activities Under Different Forest System Management Practices. Ecological Engineering, 37: 1123–1131.

Swędrzyńska, D., Grześ, S., 2015. Microbiological Parameters of Soil Under Sugar Beet as a Response to the Long-Term Application of Different Tillage Systems. Pol. J. Environ. Stud., 24, 1: 285–294.

Swędrzyńska, D., Małecka, I., Blecharczyk, A., Swędrzyński, A., Starzyk, J., 2013. Effects of Various Long-Term Tillage Systems on Some Chemical and Biological Properties of Soil. Pol. J. Environ. Stud., 22, 6: 1835–1844.

Telesiński, A., Dobrowolska, A., Stręk, M., Płatkowski, M., Onyszko, M., 2015. Comparison of Some Heavy Metal and Salinity Effects on Enzymatic Activity in Horticultural Growing Media Used in Pot Technology of Lavender (Lavandula angustifolia Mill) (in Polish). Woda–Środowisko–ObszaryWiejskie, 15, 1, 49: 123–132.

von Mersi, W., Schinner, F., 1991. An Improved and Accurate Method for Determining the Dehydrogenase Activity of Soils with Iodonitrotetrazolium Chloride. Biol. Fertil. Soils, 11: 216–220.

Wolińska, A, Stępniewska, Z., 2012. Dehydrogenase Activity in the Soil Environment. In: Canuto, R.A. (ed.) Dehydrogenases, InTech, Chapter 8; pp. 183–210, DOI: 10.5772/48294

Wolińska, A., Rekosz-Burlagar, H., Goryluk-Salmonowicz, A., Błaszczyk, M., Stępniewska, Z., 2015 Bacterial Abundance and Dehydrogenase Activity in Selected Agricultural Soils from Lublin Region. Pol. J. Environ. Stud., 24, 6: 2677–2682.

Wolińska, A., Stępniewska, Z., Szymańska, E., 2013. Dehydrogenase Activity of Soil Microorganisms and Total DNA Level in Soil of Different Use. J. Agric. Sci. Tech., B., 3, 9: 613–621.

Wolińska, A., Szafranek-Nakonieczna, A., Banach, A., Rekosz-Burlaga, H., Goryluk-Salmonowicz, A., Błaszczyk, M., Stępniewska, Z., Gorski, A., 2014. Biological Degradation of Agricultural Soils from Lublin Region (SE Poland). Int. J. Curr. Microbiol. App. Sci., 3, 11: 558–571.

Xie, W., Zhou, J., Wang, H., Chen, X., Lu, Z., Yu, J., Chen, X., 2009. Short-Term Effects of Copper, Cadmium and Cypermethrin on Dehydrogenase Activity and Microbial Functional Diversity in Soils after Long-Term Mineral or Organic Fertilization. Agriculture, Ecosystems & Environment, 129: 450–456.




DOI: http://dx.doi.org/10.17951/pjss.2017.50.1.33
Date of publication: 2017-08-30 11:16:06
Date of submission: 2017-05-24 22:41:18


Statistics


Total abstract view - 2354
Downloads (from 2020-06-17) - PDF - 993

Indicators



Refbacks

  • There are currently no refbacks.


Copyright (c) 2017 Karolina Furtak

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.