TY - JOUR
T1 - Ecological Performance of the Restored South East New Territories (SENT) Landfill in Hong Kong (2000–2012)
AU - Chen, Xun Wen
AU - Wong, James Tsz Fung
AU - Mo, Wing Yin
AU - Man, Yu Bon
AU - Ng, Charles Wang Wai
AU - Wong, Ming Hung
N1 - Publisher Copyright:
Copyright © 2015 John Wiley & Sons, Ltd.
PY - 2016/8/1
Y1 - 2016/8/1
N2 - South East New Territories (SENT) landfill (Phase I) was saturated with wastes and capped with a cover system to prevent rainfall infiltration and gas emission and to support plant growth. Subsequently, a revegetation program was conducted in 1997. Line transects were used for monitoring (i) the restored area (AT), (ii) the area adjacent to AT (BT) and (iii) the area outside AT, which served as control (CT). Flora and fauna diversities, plant performance (chlorophyll florescent and stomatal resistance of Acacia confusa) and soil properties were monitored during 2000–2012. There were 28, 24 and 23 plant species, and 61, 39 and 61 animal species found at AT, BT and CT during the past 13 years, respectively. The total number of plants recorded at AT fluctuated considerably, and was more stable at BT, especially CT. The results of similarity analyses showed that the plant community at AT were significantly different (P < 0·01) from those at BT and CT, whereas no difference was noted among fauna communities at different sites. Soil properties, including pH, bulk density, moisture content, total organic content, organic matter, total Fe and total Zn were significantly different (P < 0·05) among sites. The decreasing trend of soil pH in all sites indicated that regional soil acidification may have occurred. Soil moisture content and stomatal resistance of A. confusa were negatively correlated, which showed that AT was more subjected to drought than BT and CT. Plants in restored area were more sensitive to the changes in environmental conditions compared with those of control site.
AB - South East New Territories (SENT) landfill (Phase I) was saturated with wastes and capped with a cover system to prevent rainfall infiltration and gas emission and to support plant growth. Subsequently, a revegetation program was conducted in 1997. Line transects were used for monitoring (i) the restored area (AT), (ii) the area adjacent to AT (BT) and (iii) the area outside AT, which served as control (CT). Flora and fauna diversities, plant performance (chlorophyll florescent and stomatal resistance of Acacia confusa) and soil properties were monitored during 2000–2012. There were 28, 24 and 23 plant species, and 61, 39 and 61 animal species found at AT, BT and CT during the past 13 years, respectively. The total number of plants recorded at AT fluctuated considerably, and was more stable at BT, especially CT. The results of similarity analyses showed that the plant community at AT were significantly different (P < 0·01) from those at BT and CT, whereas no difference was noted among fauna communities at different sites. Soil properties, including pH, bulk density, moisture content, total organic content, organic matter, total Fe and total Zn were significantly different (P < 0·05) among sites. The decreasing trend of soil pH in all sites indicated that regional soil acidification may have occurred. Soil moisture content and stomatal resistance of A. confusa were negatively correlated, which showed that AT was more subjected to drought than BT and CT. Plants in restored area were more sensitive to the changes in environmental conditions compared with those of control site.
KW - biodiversity
KW - ecological performance
KW - landfill restoration
KW - man-made ecosystem
KW - soil acidification
KW - soil properties
UR - http://www.scopus.com/inward/record.url?scp=84923674124&partnerID=8YFLogxK
U2 - 10.1002/ldr.2366
DO - 10.1002/ldr.2366
M3 - Article
AN - SCOPUS:84923674124
SN - 1085-3278
VL - 27
SP - 1664
EP - 1676
JO - Land Degradation and Development
JF - Land Degradation and Development
IS - 6
ER -