OLDI (OSEANOLOGI DAN LIMNOLOGI DI INDONESIA)

Evaluation of Riparian Rehabilitation in River River Usingthe Macrozoobenthos Community Indicator. Macrozoobenthos organism is one of aquatic biota which is often used to assess the ecosystems health of river.The evaluation of riparian habitat rehabilitation using benthic macroinvertebrates has been commonly used in many countries. The purposes of this study were to evaluate the impact of Ranggeh river riparian rehabilitation and to determine environmental parameters that influenced benthic macroinvertebrate communities in Ranggeh River. This research was conductedfrom February to September 2019. Benthic macroinvertebrate Benthic macroinvertebrates, river, evaluation, EPT, rehabilitationsamples were collected using Hess Sampler in a sampling area of 0.2 m². This evaluation was carried out after two months since the rehabilitation of riparian habitat completed. The results show that rehabilitation of the riparian habitat has changed the community, in the aspects of biological metrics of taxa number, abundance, and taxa numbersof Ephemeroptera, Plecoptera, and Trichoptera (EPT). Furthermore, the taxa number and EPT metrics increased after habitat rehabilitation, however the abundance decreased slightly. In addition, the taxa number metric was positively correlated with conductivity parameter (r = 0.8), but negatively correlatedto turbidity (r = -0.91) and pH (r = -0.77). Meanwhile, the EPT metric was negatively correlated with turbidity parameters (r = -0.76) and  %embeddedness (r = -0.94). The total abundance metric was not sensitive to the parameters measured in this study. Meanwhile, biological metrics for taxa number and EPT can be used to assess rehabilitation success of river ecosystem habitats

Benthic macroinvertebrates, river, evaluation, EPT, rehabilitation

APHA.(2005). Standard methods for the examination of water and waste water. in: A.D Eaton, L.S Clesceri, M.A.H. Franson, E.W. Rice, A.E Greenberg (eds): American public health association. American water work association and water environmental federation Inc. Volume 5. New York. 1220 pp.

Anonymous.(2004). pH Requirements of freshwater aquatic life, Robertson-Bryan Inc.13 pp.

Arlindia, I., & Afdal.(2015). Analisis pencemaran Danau Maninjau dari nilai TDS dan konduktivitas listrik.Jurnal Fisika Unan,4 (4), 324-331.

Ashton, M.J., Morgan, R.P., &Stranko, S. (2014). Relations between macroinvertebrates, nutrients, and water quality criteria in wadeable streams of Maryland, USA.Environ. Monit. Assess.186, 1167–1182.

Barbour, M.T., Gerritsen, J., Snyder, B.D., &Stribling, J.B. (1999).Rapid bioassessment protocols for use in streams and wadeable rivers: periphyton, benthic macroinvertebrates and fish, Second edition, EPA 841-B-99-002. US-EPA.Office of Water Washington D.C.

Barlow-Busch, L., Baulch, H.M.,&Taylor, W.D. (2006).Phosphate uptake by seston and epilithon in the Grand River, southern Ontario.Aquatic Sciences,68(2),181-192.

Benetti, C.J., Pérez-Bilbao, A., &Garrido, J. (2012). Macroinvertebrates as Indicators of Water Quality in Running Waters: 10 Years of Research in Rivers with Different Degrees of Anthropogenic Impacts. In: Voudouris (eds). Ecological Water Quality–Water Treatment and Reuse, InTech. China. 95-122.

Bhandari, B., Tachamo Shah, R.D., &Sharma, S. (2018). Status, distribution and habitat specificity of benthic macroinvertebrates: A case Study in five tributaries of Buddhiganga River In Western Nepal. Journal of Institute of Science and Technology ,23,69-75.

Besacier-Monbertrand, A.L., Paillexa, A., &Castella, B.E. (2014).Short-term impacts of lateral hydrological connectivity restoration on aquatic macroinvertebrates.River Res. Applic.30, 557–570.

Brabec, K., Zahradkova, S., Nemejcova, D., Paril, J., Kokeš, P., &Jarkovsk, J. (2004). Assessment of organic pollution effect considering differences between lotic and lentic stream habitats. Hydrobiologia, 516, 331–346.

Cesar, D.A.S.,& Henry, R. (2017). Is similar the distribution of Chironomidae (Diptera) and Oligochaeta (Annelida, Clitellata) in a river and a lateral fluvial area?.Acta Limnologica Brasiliensia 29 (6).http://doi.org/10.1590/S2179-975x1217

Chessman, B. (2003). Signal 2 – A Scoring System for macroinvertebrate (water bug) in Australian River, Monitoring river health initiative technical report no 31, Commonwealth in Australia. Canberra. 32pp.

Cobo, R.J., Everaert, G., Iñiguez-Vela, X., Córdova-Vela, G., Díaz-Granda, C., Cisneros, F., Nopens, I., &Goethals, P.L.M. (2017). A Methodology to model environmental preferences of ept taxa in the Machangara River Basin (Ecuador).Water, 195(9), 1–31.

https:// doi.org/10.3390/w9030195

Czekanowski, J. (1909). Zur differential-diagnose der neander-talgruppe, korrespbl. Dt. Ges. Anthrop. 40 ,44-47.

Decamps, H., Naiman, R.J., &McClain, M.E. (2009).Riparian zones, in: Likens G.E. (eds). Encyclopedia of Inland Waters, Elsevier, USA.396-403.

Ekawati, I. (2005). Mineralisasi nitrogen pada pengomposan jerami.Jurnal AGRI-TEK.5(2): 1-3.

Frame, H., & Reiter, M.S. (2013). Enhanced efficiency fertilizer materials: Nitrogen stabilizer. Petersburg: Virginia Polytechnic Institute and State University.

Gee, G.W.,& Bauder, J.W. (1986). Particle size analysis, in: Klute A. (eds). Methods of Soil Analysis (Part 1).Physical and mineralogical methods.second edition. American Society of Agronomy, Agronomy Monograph 9 (1), Madison, Wisconsin, 1188pp.

Hamid, S.A.,& Rawi, C.S. (2017).Application of aquatic insects (Ephemeroptera, Plecoptera and Trichoptera) in water quality assessment of Malaysian Headwater.Tropical Life Sciences Research,28(2), 143–162.

Hamid, S.A.,& Rawi, C.S. (2011). Influence of substrate embeddedness and canopy cover on the distribution of Ephemeroptera, Plecoptera and Trichoptera (EPT) in tropical rivers, Aquatic Insects: International Journal of Freshwater Entomology, 33(4), 281-292.

Hanafi, S., &Purnama, J. (2012). Konsentrasi nutrien di saluran pembuangan Kota Makassar: Sebuah survei awal. Jurnal Sainsmat,1(1), 68-78.

Hines, S.L.,& Hershey, A.E. (2011). Do channel restoration structures promote ammonium uptake and improve macroinvertebrate-based water quality classification in urban streams?.Inland Waters,1, 133-145.

Irwan, F.,& Afdal.(2016). Analisis hubungan konduktivitas listrik dengan total dissolved solid (tds) dan temperatur pada beberapa jenis air.Jurnal Fisika Unand, 5(1): 85-93.

Jones, J.I., Murphy, J.F., Collins, A.L., Sear, D.A., Naden, P.S., &Armitage, P.D. (2012).The impact of fime sediment on macroinvertebrates.River Research and Application,28, 1055-1071.

Jun, Y.C., Kim, N., Kwon, S., Han, S., Hwang, I., Park, J., Won, D., Byun, M., Kong, H., Lee, J.,& Hwang, S. (2011). Effects of land use on benthic macroinvertebrate communities: Comparison of two mountain streams in Korea. Annales de Limnologie –International Journal of Limnology,47, 35-49.

Juwitanti, E., Ain, C., &Soedarsono, P. (2013). Kandungan nitrat dan fosfat air pada proses pembusukan eceng gondok (Eichhornia Sp.), Diponegoro Journal of Maquares, 2, 46-52.

Kasno, A. (2009). Jenis dan sifat pupuk anorganik. Balai Penelitian Tanah, Bogor.

Kemp, P., Sear, D., Collins, A., Naden, P.,&Jones, I. (2011).The Impacts of fine sediment on riverine fish.Hydrological Processes, 25, 1800-1821.

Kovach, W.L., (2010). MVSP - A MultiVariate Statistical Package for Windows, ver. 3.2.Kovach Computing Services.Pentraeth. Wales. U.K.

Kuliberg, A. (1992). Benthic macroinvertebrate community structure in 20 streams of varying pH and humic content. Environmental Pollution,78, 103-106.

Maneechan, W., & Prommi, T.O. (2015).Diversity and distribution of aquatic insects in streams of the Mae Klong watershed, Western Thailand.PsycheA Journal of Entomology, 2015(2), 1-7, http://doi.org/10.1155/2015/912451

Merritt, R.W.,& Cummins, K.W. (2019).An introduction of the aquatic insects of North America, 5" Edition. Kendall Hunt Publishing Company. Dubuque. Iowa. 1498 pp.

Miller, S.W., Budy, P., & Schmidt, J.C. (2010).Quantifying macroinvertebrate responses to in-stream habitat restoration: applications of meta-analysis to river restoration.Restoration Ecology, 18(1), 8–19.

Molokwu, N.D., Pedro, G., Bradshaw, T., Blake, A., Henessey, C., & Merten, E. (2014). Effects of substrate on the benthic macroinvertebrate community: an experimental approach. Ecological Engineering, 73, 109-114.

National Research Council (NRC). 2002. Riparian Areas: Functions and Strategies for Management. Washington, DC: The National Academies Press.

https://doi.org/ 10.17226/10327

Quinn, J.M., Davies-Colley, R.J., Hickey, C.W., Vickers, M.L., &Ryan, P.A. (1992) . Effects of clay discharges on streams. 2. Benthic invertebrates. Hydrobiologia, 248, 235–247.

Reice, S.R., &Wohlenberg, M., (1993). Monitoring freshwater benthic macroinvertebrates and benthic processes: measure for asssessment of ecosystem health, in D. Rosenberg & V.H. Resh (Eds): Freshwater Biomonitoring and Benthic Macroinvertebrates, Chapman & Hall. New York. 287-305 hal.

Ruzickova, S., Weissova, V., Uher, B., &Helesic, J. (2017). Macroinvertebrate herbivores and epilithon algae community of a stream affected by mineralized heated mining water inflow. Ann. Limnol- Int. J. Lim., 53(2017), 189–201.

Putri, F.D.M., Wisyastuti, E., &Christiani.(2014). Hubungan perbandingan total nitrogen dan total fosfor dengan kelimpahan chrysophyta di perairan Waduk Panglima Besar Soedirman, Banjarnegara.Scripta Biologica,1(1), 196-101.

Saragih, D., Hamim, H., &Nurmauli, N. (2013). Pengaruh dosis dan waktu aplikasi pupuk urea dalam meningkatkan pertumbuhan dan hasil jagung pioneer 27. J. Agrotek Tropik, 1(1), 50-54.

Spänhoff, B.,& Arle, J. (2007).Setting attainable goals of stream habitat restoration from a macroinvertebrate view.Restoration Ecology,15, 317–320.

StatSoft.Inc. (2011).STATISTICA (data analysis software system), version 10.www.statsoft. com.

Stoyanova, T., Vidinova, Y., &Tyufekchieva, V. (2014).Ephemeroptera, Plecoptera and Trichoptera as indicators for ecological quality of the Luda Reka River, Southwest Bulgaria.Acta Zoologica Bulgarica, 66(2), 255-260.

Sultana, J., Recknagel, F., Tibby, J., &Maxwell, S. (2019). Comparison of water quality thresholds for macroinvertebrates in two Mediterranean catchments quantified by the inferential techniques TITAN and HEA. Ecological Indicators, 101, 867–877.

Thorp, J.H., & Covich, A.P. (1991).Ecology and classification of North American freshwater invertebrates.Academic Press.Inc. New York.

US-EPA.(2017), Water Quality 101.Retrieved from https://ace-project.org/water-quality-101/.

Yanti, E.V. (2017). Dinamika musiman kualitas air di daerah Sungai Kahayan Kalimantan Tengah. Ziraa’ah, 42(2), 107-118.

Yustiawati, Syawal, M., &Aisyah, S., (2019). Pengukuran kondisi fisika dan kimia Sungai Ranggeh dalam rangka pengelolaan perikanan di Danau Maninjau.Prosiding Pertemuan Ilmu Lingkungan Nasional Universitas Padjadjaran.