Soil Mesofauna Response to Cover Crops and Mycorrhizal Inoculated Plantation on Limestone Quarry Revegetation

محتوى المقالة الرئيسي

Retno Prayudyaningsih Retno

الملخص

Cover crops establishment followed by mycorrhizal inoculated tree plantation accelerate limestone quaryy restoration. Soil mesofauna is a useful indicator for assessing biodiversity recovery, as they are sensitive to human disturbance and involved in ecological processes. In this research, soil mesofauna presence used to evaluate limestone quarry restoration by cover crops and mycorrhizal inoculated tree esatblisment. Soil mesofauna are measured using individual density, species diversity, richness and important value. The study was conducted in four types of areas on limestone postmining lands are open areas/natural conditions without planting, cover crop area, non mycorrhizalinoculated plant area and mycorrhizal-inoculated plant area. The result showed The higher individual density, diversity and species richness of soil mesofauna on cover crops and mycorrhizal inoculated plant area than other areas are indicators of limestone quarry restoration rate. Furthermore the presence of Formicidae family that dominated on cover crops and mycorrhizal inoculated plant area, and emergence of Acari group only on mycorrhizal inoculated area also an indicator of limestone quarry restoration.

تفاصيل المقالة

Retno, R. P. (2016). Soil Mesofauna Response to Cover Crops and Mycorrhizal Inoculated Plantation on Limestone Quarry Revegetation. Jurnal Wasian, 3(1), 01-08. https://doi.org/10.62142/bx5xpx96
Articles

Abbaspour, H., Saeidi-Sar, S., Afshari, H., & Abdel- Wahhab, M (2012). Tolerance of mycorrhiza infected pistachio (Pistacia vera L.) seedling to drought stress under glasshouse conditions. Journal of Plant Physiology 169, 704-709.

Adolphson, H., dan Kinnear, A. (2008). Acari (Mite) assemblages under plantations of bluegum, Eucalyptus globulus, in Southwestern Australia. Pedobiologia 51, 427 - 437.

Andres, P., dan Mateos, E. (2006). Soil mesofaunal resposes to post mining restoration treatments. Applied Soil Ecology 33, 67-78. Battigelli, J. P. (2011). Exploring The World Beneath Your Feet - Soil Mesofauna as Potential Biological Indicators as Success in Reclaimed Soils. Tailings and Mine Wase. Vancouver B.C. 6 - 9 November 2011.

Borror, D.J., Triplehorn, C.A dan Johnson N.F. (1997). Pengenalan Pelajaran Serangga. Terjemahan: S. Partosoedjono dan M.D. Brotowidjoyo. Edisi ke-6. p. 167 - 589. Yogyakarta: Gadjah Mada University Press..

Cavagnaro, T. R., Bender, S. F., Asghari, H. R., dan Heijden, M. G. (2015). The role of arbuscularmycorrhizas in reducing soil nutrient loss. Trends in Plant Science, 20(5), 283-290.

Ding, G. W., Liu, X., Herbert, S., Novak, J., Amarasiriwadena, D., dan Xing, B. (2006). Effect of cover crop management on soil organic matter. Geoderma, 130, 229-239.

Frouz, J., Elhottova, D., Kuraz, V., dan Sourkova, M. (2006). Effects of soil macrofauna on other soil biota and soil formation in reclaimed and unreclaimed postmining sites: results of a field microcosm experiment. Applied Soil Ecology, 33, 308-320.

Gollan, J. R., Bruyn, L. L., Reid, N., dan Wilkie, L. (2011). Can ants be used as ecological indicators of restoration progress in dynamic environments? a case study in a regevetated riparian zone. Ecological Indicators,11, 1517- 1525.

Koehler, H., dan Melecis, V. (2010). Long-Term observation of soil mesofauna. dalam F. Muller, C. Baessler, H. Schubert, dan S. Klotz (eds), Long_Term Ecological Research. (p. 2013-222). New York: Springer Science+Bussiness Media B.V.

Koehler, H., Munderloh, E., dan Hofmann, S. (1995). Soil microarthropods (acari, collembola) from beach and dune: Characteristics and ecosystem context. Journal of Coastal Conservation, 1(1), 77-86.

Kumssa, D. B., Aarde, R. J., dan Wassenaar, T. D., (2004). The regeneration of soil microarthropod assemblages in a rehabilitating coastal dune forest at Richards Bay South Africa. African Journal of Ecology, 42, 346- 354.

Krebs, C.J. (1972). Ecology: The Experimental Analysis of Distribution Abudance. Harper International Edition. Singapore. p. 500 - 510.

Ludwig, J.A. dan Reynolds J. F. (1988). Statistical Ecology:a Primer on Methods and Computing Canada: John Wiley & Sons, Inc. p.103 - 110.

Menta, C., Conti, F., Pinto, S., Leoni, A., dan Lozano-Fondon, C. (2014). Monitoring soil restoration in an Open-Pit Mine Northern Italy. Applied Soil Ecology, 28, 22-29.

Meyer, E. (1995). Mesofauna. dalam. Schinner F., Ohlinger R., E., dan Kandeler dan R. Margesin (eds), Methods in Soil Biology (p.

- 120). Springer-Verlag Berlin- Heidelberg.

Mueller-Dombois, D dan Ellenberg H. (1974). Aims and Methods of Vegetation Ecology. Canada : John Wiley & Sons, Inc. p. 83 - 90.

Nadporozhskaya, M., Mohren, G., Chertov, O., Komarov, A., dan Mikhailov, A. (2006). Dynamics of soil organic matter in primary and secondary forest succession on sandy soils in The Netherlands: An aplication of ROMUL model. Ecological Modelling,190,

-418.

Nascente, A. S., Li, Y. C., dan Crusciol, C. A. (2013). Cover crops and no-till effects on physical fraction of soil organic matter. Soil & Tillage Research,130, 52-57.

Paetz, A., dan Wilke, B. M. (2005). Soil Sampling and Storage. dalam R. Margesin and F. Schinner (eds), Manual for Soil Analisys- Monitoring and Assessing Soil Bioremediation (pp. 1-44). Berlin:Springer- Verlag..

Prayudyaningsih, R. (2011). Efektivitas Fungi Mikoriza Arbuskula (FMA) terhadap pertumbuhan Sesbania sericea di lahan bekas tambang kapur PT Semen Tonasa. dalam Setyawati, T., Gunawan, H., Murniati, Suharti, S., Dharmawan, W.S., Wardani, M., dan Subiakto, A.(eds), Ekspose BPK Makassar-Mendukung Kelestarian Hutan.

Bogor: Pusat Penelitian dan Pengembangan Konservasi dan Rehabilitasi, Badan Litbang Kehutanan.

Prayudyaningsih, R., Faridah, E., Sumardi, dan Sunarminto, B. H. (2015). Dampak fasilitatif tumbuhan legum penutup tanah dan tanaman bermikoriza pada suksesi primer di lahan bekas tambang kapur. Jurnal Manusia dan Lingkungan, 22(3) , 310-318.

Rillig, M. C., dan Mummey, D. I. (2006). Mycorrhizas and soil structure. New Phytologist, 171(1), 41-53.

Santorufo, L., Gestel, C. A., Rocco, A., dan Maisto, G. (2012). Soil invertebrata as bioindicators of urban soil quality. Environmental Pollution,161, 57-63.

Singh, A. K., dan Jamaluddin. (2011). Status and diversity of arbuscular mycorrhizal fungi and its role in natural regeration on limesote mined spoils. Biodiversitas, 12(2), 107-111.

Steenwerth, K., dan Belina, K. (2008). Cover crops enhance soil organic matter, carbon dynamics and microbiological function in a Vineyard Agroecosystem. Applied Soil Ecology, 40, 359-369.

Syaufina, L., Haneda, N. F., dan Buliyansih, A., (2007). Keanekaragaman arthropoda tanah di Hutan Pendidikan Gunung Walat. Media Konservasi, 2, 57-66.

Vallauri, D., Aronson, J., Dudley, N., dan Vallejo, R. (2005). Monitoring and evaluation forest restoration success. dalam S. Mansourian, D. Vallauri, & N. Dudley (eds), Forest Restoration Landscapes (p. 150-160). New York: Springer Science+Bussines Media, Inc.

Veeresh, G. K. dan Rajagopal D., 1983. Applied Soil Biology and Ecology. Oxford & IBH Publishing co. put. Ltd. India. p. 51 - 63.

Zeppelini, D., Bellini, B. C., Creao-Duarte, A. J., dan Hernandez, M. I., (2009). Collembola as bioindicators of restoration in mined sand dunes of Northeastern Brazil. Biodivers Conserv, 18: 1161 - 1170.