Evaluating the Restoration of a Stream in an Abandoned Mine Land via Biomass Calculation of Benthic Macroinvertebrates |
Mi-Jung Bae
(Nakdonggang National Institute of Biological Resources)
Hyeon-Jung Seong (Nakdonggang National Institute of Biological Resources) Seong-Nam Ham (Nakdonggang National Institute of Biological Resources) Eui-Jin Kim (Nakdonggang National Institute of Biological Resources) |
1 | Ferreiro, N., C. Feijoo, A. Giorgi and L. Leggieri. 2011. Effects of macrophyte heterogeneity and food availability on structural parameters of the macroinvertebrate community in a Pampean stream. Hydrobiologia 664(1): 199-211. DOI |
2 | Kasangaki, A., D. Babaasa, J. Efitre, A. McNeilage and R. Bitariho. 2006. Links between anthropogenic perturbations and benthic macroinvertebrate assemblages in Afromontane forest streams in Uganda. Hydrobiologia 563(1): 231-245. DOI |
3 | Larranaga, A., A. Basaguren, A. Elosegi and J. Pozo. 2009. Impacts of Eucalyptus globulus plantations on Atlantic streams: changes in invertebrate density and shredder traits. Fundamental and Applied Limnology 175(2): 151. |
4 | Ligeiro, R., R.M. Hughes, P.R. Kaufmann, J. Heino, A.S. Melo and M. Callisto. 2020. Choice of field and laboratory methods affects the detection of anthropogenic disturbances using stream macroinvertebrate assemblages. Ecological Indicators 115: 106382. |
5 | Maloney, K.O., P. Munguia and R.M. Mitchell. 2011. Anthropogenic disturbance and landscape patterns affect diversity patterns of aquatic benthic macroinvertebrates. Journal of the North American Benthological Society 30(1): 284-295. DOI |
6 | Marques, M.J., E. Martinez-Conde, J.V. Rovira and S. Ordonez. 2001. Heavy metals pollution of aquatic ecosystems in the vicinity of a recently closed underground lead-zinc mine (Basque Country, Spain). Environmental Geology 40: 1125-1137. DOI |
7 | Nakano, D., N. Kuhara and F. Nakamura. 2007. Changes in size structure of macroinvertebrate assemblages with habitat modification by aggregations of caddisfly cases. Journal of the North American Benthological Society 26(1): 103-110. DOI |
8 | Rico-Sanchez, A.E., A.J. Rodriguez-Romero, J.E. Sedeno-Diaz, E. Lopez-Lopez and A. Sundermann. 2022. Aquatic macroinvertebrate assemblages in rivers influenced by mining activities. Scientific Reports 12(1): 1-14. DOI |
9 | Trigal, C., F. Garcia-Criado and C.F. ALAEZ. 2007. Macroinvertebrate communities of mediterranean ponds (North Iberian Plateau): importance of natural and human-induced variability. Freshwater Biology 52(10): 2042-2055. DOI |
10 | Albarino, R.J. and E.G. Balseiro. 2002. Leaf litter breakdown in Patagonian streams: native versus exotic trees and the effect of invertebrate size. Aquatic Conservation: Marine and Freshwater Ecosystems 12(2): 181-192. DOI |
11 | Bae, M.J., J.K. Hong and E.J. Kim. 2021a. Evaluation of the impacts of abandoned mining areas: a case study with benthic macroinvertebrate assemblages. International Journal of Environmental Research and Public Health 18(21): 11132. |
12 | Bae, M.J., S.N. Ham, Y.K. Lee and E.J. Kim. 2021b. Evaluation of Benthic Macroinvertebrate Diversity in a Stream of Abandoned Mine Land Based on Environmental DNA (eDNA) Approach. Korean Journal of Ecology and Environment 54(3): 221-228. DOI |
13 | Benke, A.C., A.D. Huryn, L.A. Smock and J.B. Wallace. 1999. Length-mass relationships for freshwater macroinvertebrates in North America with particular reference to the southeastern United States. Journal of the North American Benthological Society 18(3): 308-343. DOI |
14 | Benke, A.C. and A.D. Huryn. 2007. Secondary production of macroinvertebrates. p. 691-710. In: Methods in stream ecology, Academic Press. |
15 | Benke, A.C., A.D. Huryn. 2010 Benthic invertebrate production-facilitating answers to ecological riddles in freshwater ecosystems. Journal of the North American Benthological Society 29: 264-285. DOI |
16 | Benke, A.C. and A.D. Huryn. 2017. Secondary production and quantitative food webs. p. 235-254. In: Methods in stream ecology. Academic Press. |
17 | Burgherr, P. and E.I. Meyer. 1997. Regression analysis of linear body dimensions vs. dry mass in stream macroinvertebrates. Archiv fur Hydrobiologie 139(1): 101-112. DOI |
18 | Wickham, H., R. Francois, L. Henry and K. Muller. 2020. Dplyr: A grammar of data manipulation. Retrieved from https://CRAN.R-project.org/package=dplyr (assessced on June 1, 2022). |
19 | Derek, A. and Wheeler, P. 2020. Package 'FSA': Simple Fisheries Stock Assessment Methods. R Packag. version 0.8.30. (accessed on 1 June 2021). |
20 | Di Sabatino, A., G. Cristiano, M. Pinna, P. Lombardo, F.P. Miccoli, G. Marini, P. Vignini and B. Cicolani. 2014. Structure, functional organization and biological traits of macroinvertebrate assemblages from leaf-bags and benthic samples in a third-order stream of Central Apennines (Italy). Ecological Indicators 46: 84-91. DOI |
21 | Von Schiller, D. and A.G. Solimini. 2005. Differential effects of preservation on the estimation of biomass of two common mayfly species. Archiv fur Hydrobiologie 164(3): 325-334. DOI |