바로가기메뉴

본문 바로가기 주메뉴 바로가기

logo

Selecting plant species for landfill revegetation: a test of 10 native species on reclaimed soils

Journal of Ecology and Environment / Journal of Ecology and Environment, (P)2287-8327; (E)2288-1220
2018, v.42 no.4, pp.259-264
https://doi.org/10.1186/s41610-018-0089-9

  • Downloaded
  • Viewed

Abstract

Background: Revegetating landfills can be a challenging task as the reclaimed soils are typically dry and have low nutrient content. Therefore, selecting suitable plant species is important for initial revegetation. The issue with current practices (in Korea) is that alien plant species have been typically selected for revegetation projects. In this context, this study selects and tests a set of native plant species for landfill revegetation, accompanied by the assessment of the landfill soils. Results: The soil of the landfill (landfill location) was in a very poor condition with high bulk density and low organic matter and nutrient contents. Among 10 tested species, only Brassica campestris showed high coverage and a sufficient number of individuals in study quadrats sown with seeds. Results suggest that plant species with heavy seeds are the only ones that can adapt to the environment of a typical landfill due to the site’s aridity and low nutrient content. The reason is due to such species’ superior wind resistance and the capacity to provide sufficient energy for the initial growth of the plants for survival in such landfill environment. Conclusions: This study recommends selecting plant species (1) with arid-adapted features and (2) whose seed weight is sufficiently heavy for survival at landfills or areas with a similar condition for future revegetation.

keywords
Landfill, Revegetation, Seed spray, Rapeseed, Reclaimed soil

Reference

1.

Anikwe MAN, Nwobodo KCA. Long term effect of municipal waste disposal on soil properties and productivity of sites used for urban agriculture in Abakaliki, Nigeria. Bioresour Technol. 2002;83:241–50.

2.

Gilman EF, Leone IA, Flower FB. Effect of soil compaction and oxygen content on vertical and horizontal root distribution. J Environ Hortic. 1987;5:33–6.

3.

Gottinger H-W. Economic models and applications of solid waste management. Abingdon: Routledge press; 2018.

4.

Johannessen LM, Boyer G. Observations of solid waste landfills in developing countries: Africa, Asia, and Latin America: The World Bank; 1999.

5.

Kim JG, Song JD, Jeon KY. Analysis of roots growth character after planting by trees species in the Saemangeum reclaimed tideland. Annual proceedings of Korean society of agricultural engineers. 0; 2012. p. 172.

6.

Kim KD, Lee EJ. Potential tree species for use in the restoration of unsanitary landfills. Environ Manag. 2005;36:1–14.

7.

Korean Expressway Corporation, K. Vegetating cut slope. Research report of KEC. 1998;2:122–6.

8.

Lee TB. Illustrated flora of Korea. Seoul: Hangmoon press; 1989.

9.

Nakayama, S., M. Inokuchi, and T. Minamitani. (2000). Seeds of wild plants in Japan. Tohoku University Press, Sendai.

10.

Reader RJ. Control of seedling emergence by ground cover and seed predation in relation to seed size for some old-field species. J Ecol. 1993;81:169–75.

11.

Shen Y, Yan X-l, Liang A-x, Li T-y. Study on thick-lift base material and seed spraying for side slope engineering protection. J Highw Transport Res Dev (English Edition). 2007;2:122–6.

12.

Song U. Ecological monitoring and management of plant, soil and leachate channel in the Sudokwon landfill, Korea. Seoul: Ph.D thesis of Seoul National University; 2010.

13.

Song U. Post-remediation use of macrophytes as composting materials for sustainable management of a sanitary landfill. Int J Phytoremediation. 2017;19:395–401.

14.

Song U, Lee EJ. Ecophysiological responses of plants after sewage sludge compost applications. J Plant Biol. 2010;53:259–67.

15.

Sung KI, Kim BW, Chung CW. Grasses and forages : optimum time of spring sowing of forage repe, oat and rye for Chinese cabbage - soiling forage double cropping system in the Taekwanryong area. Ann of anim resour sci. 2001;43:267–76.

Journal of Ecology and Environment