Removal effect of pollutants from stormwater runoff in shallow bioretention system with gramineous plants

Author:

Yang Jing1ORCID,Luo Hui12ORCID,Wang Huiteng1,Qin Teng1,Yang Mingyu1,Chen Limin1,Wu Xi1,He Bao-Jie3456

Affiliation:

1. a School of Civil and Ocean Engineering, Jiangsu Ocean University, Lianyungang 222005, China

2. b Institute of Oceanology, Chinese Academy of Sciences, Qingdao 266071, China

3. c Faculty of Built Environment, University of New South Wales, Sydney, NSW 2052, Australia

4. d Centre for Climate–Resilient and Low–Carbon Cities, School of Architecture and Urban Planning, Chongqing University, Chongqing 400045, China

5. e Key Laboratory of New Technology for Construction of Cities in Mountain Area, Ministry of Education, Chongqing University, Chongqing 400045, China

6. f Network for Education and Research on Peace and Sustainability (NERPS), Hiroshima University, Hiroshima 739-8530, Japan

Abstract

ABSTRACT The bioretention system is one of the most widely used low impact development (LID) facilities with efficient purification capacity for stormwater, and its planting design has been a hot spot for research at home and abroad. In this paper, ryegrass (Lolium perenne L.), bermuda (Cynodon dactylon Linn.), bahiagrass (Paspalum notatum Flugge), and green grass (Cynodon dactylon × C .transadlensis ‘Tifdwarf’) were chosen as plant species to construct a shallow bioretention system. The growth traits and nutrient absorption ability of four gramineous plants were analyzed. Their tolerance, enrichment, and transportation capacity were also evaluated to compare plant species and their absorptive capacity of heavy metals (Cu, Pb, and Zn). Results showed that the maximum absorption rate (Imax) ranged from 22.1 to 42.4 μg/(g·h) for P and ranged from 65.4 to 104.8 μg/(g·h) for NH4+-N; ryegrass had the strongest absorption capacity for heavy metals and the maximum removal rates of Cu, Pb, and Zn by four grasses were 78.4, 59.4, and 51.3%, respectively; the bioretention cell with ryegrass (3#) was significantly more effective in purifying than the unplanted bioretention cell (1#) during the simulated rainfall test. Overall, the system parameters were optimized to improve the technical application of gramineous plants in the bioretention system.

Funder

Xinjiang Biomass Solid Waste Resources Technology and Engineering Center of China

Lianyungang Key Research and Development Plan (Social Development) project of China

Postgraduate Research & Practice Innovation Program of Jiangsu Province

The Natural Science Foundation of the Jiangsu Higher Education Institutions of China

Publisher

IWA Publishing

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