TY - JOUR
T1 - Growth characteristics of six wetland plants and their influences on domestic wastewater treatment efficiency
AU - Li, Li
AU - Yang, Yang
AU - Tam, Nora F.Y.
AU - Yang, Lei
AU - Mei, Xiu Qin
AU - Yang, Feng Juan
N1 - Funding Information:
The work described in this paper was supported by the Project of Renovation of Compound Polluted Village and Integration of Repairing Technique in Pearl River Delta of China (Project No. 2012BAJ21B07), the Fundamental Research Funds for the Central Universities, and the Fund of Science Cultivation and Innovation of Jinan University (Project No. 21611392, 11609422).
PY - 2013/11
Y1 - 2013/11
N2 - Plants are an indispensable component of a constructed wetland; however, the eco-physiological characteristics of wetland plants and their influences on wastewater treatment efficiency are still unclear. In this study, we investigated the growth features of six commonly used wetland plants, namely, Canna indica (Ci), Iris pseudacorus (Ip), Pontederia cordata (Pc), Cyperus alternifolius (Ca), Vetiveria zizanioides (Vz), and Pennisetum purpureum (Pp) that were treated with sewage. After 50 days of treatment, plants treated with diluted sewage, especially Ci and Ip, had a better growth rate than those receiving undiluted sewage. The abilities of different wetland plants to directly take up nitrogen (9.28-17.26mgg-1 DW) and phosphorus (0.89-2.18mgg-1 DW) were species-specific, but within each species, uptake was similar between diluted and undiluted sewage. Total biomass determined the total accumulation of N and P in plant tissues. The removal of pollutants, except nitrate and organic matter, was dependent on both plant species and sewage dilution. The first-order rate constants (K) for nitrate and organic matter were similar between diluted and undiluted sewage. Differences in the removal of nitrate and biochemical oxygen demand among plant species were due to differences in chlorophyll fluorescence, a photosynthetic characteristic, leading to different root lengths. The amounts of oxygen release to the rhizosphere (radial oxygen loss [ROL]) by wetland plant was directly governed by total root biomass and significantly influenced the removal of ammonia and total dissolved phosphorus via processes such as plant uptake and nitrification. The removal of total phosphorus and chemical oxygen demand resulted from the filtration by root systems. A non-species-specific significant positive correlation was found between ROL (12.50-205.25μmolO2d-1g-1 DWroot) and root porosity (9.95-32.49%). These results suggest that the root features and photosynthetic characteristic of wetland plants are important determinants of sewage treatment efficiency and could be used to select appropriate plants for constructed wetland systems.
AB - Plants are an indispensable component of a constructed wetland; however, the eco-physiological characteristics of wetland plants and their influences on wastewater treatment efficiency are still unclear. In this study, we investigated the growth features of six commonly used wetland plants, namely, Canna indica (Ci), Iris pseudacorus (Ip), Pontederia cordata (Pc), Cyperus alternifolius (Ca), Vetiveria zizanioides (Vz), and Pennisetum purpureum (Pp) that were treated with sewage. After 50 days of treatment, plants treated with diluted sewage, especially Ci and Ip, had a better growth rate than those receiving undiluted sewage. The abilities of different wetland plants to directly take up nitrogen (9.28-17.26mgg-1 DW) and phosphorus (0.89-2.18mgg-1 DW) were species-specific, but within each species, uptake was similar between diluted and undiluted sewage. Total biomass determined the total accumulation of N and P in plant tissues. The removal of pollutants, except nitrate and organic matter, was dependent on both plant species and sewage dilution. The first-order rate constants (K) for nitrate and organic matter were similar between diluted and undiluted sewage. Differences in the removal of nitrate and biochemical oxygen demand among plant species were due to differences in chlorophyll fluorescence, a photosynthetic characteristic, leading to different root lengths. The amounts of oxygen release to the rhizosphere (radial oxygen loss [ROL]) by wetland plant was directly governed by total root biomass and significantly influenced the removal of ammonia and total dissolved phosphorus via processes such as plant uptake and nitrification. The removal of total phosphorus and chemical oxygen demand resulted from the filtration by root systems. A non-species-specific significant positive correlation was found between ROL (12.50-205.25μmolO2d-1g-1 DWroot) and root porosity (9.95-32.49%). These results suggest that the root features and photosynthetic characteristic of wetland plants are important determinants of sewage treatment efficiency and could be used to select appropriate plants for constructed wetland systems.
KW - Chlorophyll fluorescence induction
KW - Diluted sewage
KW - Nutrient uptake
KW - Radial oxygen loss (ROL)
KW - Root length
KW - Wetland plant
UR - http://www.scopus.com/inward/record.url?scp=84885455401&partnerID=8YFLogxK
U2 - 10.1016/j.ecoleng.2013.09.044
DO - 10.1016/j.ecoleng.2013.09.044
M3 - Article
AN - SCOPUS:84885455401
SN - 0925-8574
VL - 60
SP - 382
EP - 392
JO - Ecological Engineering
JF - Ecological Engineering
ER -