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Document reference: |
370161 | 05|01 | A |
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Information class: |
Standard |
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This document is issued for the party which commissioned it and for specific purposes connected with the above-captioned project only. It should not be relied upon by any other party or used for any other purpose. We accept no responsibility for the consequences of this document being relied upon by any other party, or being used for any other purpose, or containing any error or omission which is due to an error or omission in data supplied to us by other parties. This document contains confidential information and proprietary intellectual property. It should not be shown to other parties without consent from us and from the party which commissioned it. |
Contents
1.3
Environmental Status in the reporting period
1.4
Summary of EM&A Requirements
2
Impact Monitoring Methodology
3.1
Impact Monitoring Schedule
3.2
Results of Impact Monitoring
4.2
Monitoring of Herpetofauna
4.3
Monitoring of Dragonflies and Butterflies
4.5
Monitoring of Water Quality
5.2
Construction Phase Audit Summary
6
Environmental Site Inspection and Audit
6.2
Solid and Liquid Waste Management Status
6.3
Status of Environmental Licences and Permits
6.4
Recommended Mitigation Measures 33
7
Report on Non-compliance, Complaints, Notifications of Summons and
Successful Prosecutions
7.1
Record of non-compliance of Action and Limit Levels
7.2
Record on Environmental Complaints Received
7.3
Record on Notifications of Summons and Successful Prosecution
7.4
Review of Reasons for and Implications of Non-compliance, Complaints,
Summons and Prosecutions
7.6
Cumulative Statistics for Complaints, Notifications of Summons and
Successful Prosecutions
8.1
Site Preparatory Works and Construction Works for the Coming Month
8.2
Key Issues for the Coming Months
8.3
Monitoring Schedule for the Coming Month
8.4
Conclusions and Recommendations 37
B.
Tentative Construction Programme (not
used)
C.
Action and Limit Levels for Construction Phase
D.
Event and Action Plan for Air Quality, Noise, Water Quality and
Landscape & Visual
F.
Graphical Plots of the Monitoring Results
G.
Weather Conditions during the Monitoring Period 61
H.
Ecological Monitoring Conducted
I.
Summary of Bird Surveys conducted
J.
Summary of Herpetofauna, Mammal and Insect Surveys Conducted
K.
Summary of Water Quality Monitoring associated with Ecological
Monitoring conducted
L.
Environmental Mitigation Measures - Implementation Status
M.
Landscape and Visual Audit Photos
Tables
Table 1.1: Summary of Impact EM&A Requirements
Table 1.2: Environmental Monitoring and Audit Schedule
for the Reporting Month
Table 2.1: Air Quality Monitoring Parameters, Frequency
and Duration
Table 2.2: Air Monitoring Stations
Table 2.3: TSP Monitoring Equipment
Table 2.4: Noise Monitoring Parameters, Frequency and
Duration
Table 2.5: Noise Monitoring Stations
Table 2.6: Noise Monitoring Equipment
Table 2.7: Water Quality Monitoring Parameters, Frequency
and Duration
Table 2.8: Water Quality Monitoring Stations
Table 2.9: Water Quality Monitoring Equipment
Table 2.10: Analytical Methods applied to Water Quality
Samples
Table 2.11: Detection Limits for Water Quality
Determinants
Table 2.13: Construction and Operation Phase Audit
Checklist
Table 2.14: Proposed Construction Phase Mitigation
Measures
Table 2.15: Proposed Operation Phase Mitigation Measures
Table 3.1: Summary of 1-hour TSP Monitoring Results
Table 3.2: Summary of 24-hour TSP Monitoring Results
Table 3.3: Summary of Construction Noise Monitoring
Results
Table 3.4: Summary of Water Quality Monitoring Results
Table 4.1: Summary of Ecological Monitoring in WRA and
Survey Area under EM&A Manual
Table 5.1: Construction and Operation Phase Audit Summary
Table 6.1: Summary of Site Inspections and
Recommendations
Table 6.2: Status of Environmental Submissions, Licences
and Permits
Table 7.1: Summary of Exceedances in Water Quality
Table 7.2: Statistics for Complaints, Notifications of
Summons and Successful Prosecution
Table 8.1: Tentative Environmental Monitoring and Audit
Schedule for the Next Reporting Month 37
Figures
Figure
1.1 General Layout Plan of the
Project Site
Figure
2.1 Locations of Air Quality
Monitoring Stations
Figure
2.2 Locations of Noise Monitoring
Stations
Figure
2.3 Locations of Water Quality
Monitoring Stations
Figure
4.1 Survey Area and Transect Walked
Figure
4.2 Water Quality Monitoring
Locations for Ecological Monitoring
Mott MacDonald Hong Kong Ltd.
(“MMHK”) has been commissioned to undertake the Environmental Team (ET)
services to carry out environmental monitoring and audit (EM&A) for both
pre-construction and construction phases of the Proposed Comprehensive
Development at Wo Shang Wai, Yuen Long.
This is the 164th
EM&A report submitted under the Condition 4.5 of Environmental Permit No.
EP-311/2008/E. This report summarises the findings on EM&A during the
period from 1 to 31 December 2023.
Exceedance of Action and Limit
Levels
There was no breach of Action or
Limit levels for Air Quality (1-hr TSP and 24-hr TSP) and Noise level (as Leq) in the reporting month.
During December 2023, a total of one Action Level and eight Limit Level
exceedances for water quality were observed. One Action Level exceedance of pH
and five Limit Level exceedances of DO were recorded at MP3; one Limit Level
exceedance of DO and two Limit Level exceedances of SS were recorded at MP4.
Implementation of Mitigation
Measures
Site audits were carried out on 4,
15, 19 and 28 December 2023 to confirm the implementation measures undertaken
by the Contractor in the reporting month. The outcomes of the site audits are
presented in Section 6 and the status of implementation of mitigation measures
in the site is shown in Appendix
L.
Record of Complaints
There was no record of complaints
received in the reporting month.
Future Key Issues
Site works scheduled to be
commissioned in the coming three months include regular maintenance work for the
Wetland Restoration Area including adjusting the water level, if required, and
removal of unwanted species in the pond. No major heavy construction works will
be carried out. Potential environmental impacts due to the activities,
including air quality, noise, water quality, ecology and landscape and visual,
will be monitored.
Environmental mitigation measures
will be implemented on site as recommended and weekly site audits will be
carried out to ensure that the environmental conditions are acceptable.
1 Introduction
1.1 Introduction
In March 2005, the Project
Proponent, Profit Point Enterprises Limited, acquired the development site at
Wo Shang Wai in Yuen Long. An Environmental Impact Assessment (EIA) was then
carried out and approved under the EIA Ordinance (EIAO),
and the Environmental Permit (EP-311/2008) for construction of the
comprehensive development in Wo Shang Wai was first granted by EPD on 9
September 2008 and has been subsequently varied, with the current version
(EP-311/2008/E) issued by EPD on 19 December 2017.
The Project involves the residential
development and associated infrastructure and wetland restoration area and
linear landscape area. The construction works under the Environmental Permit
commenced on 12 May 2010. The site formation construction works of the Wetland
Restoration Area (hereafter WRA) were completed on 15 November 2010 and the WRA
was established by October 2012, within 30 months from the commencement of
construction as stipulated in the EP. This indicated that planting works as
scheduled in the approved Wetland Restoration and Creation Scheme (WRCS; Nov 2009) were complete, except along the western and
southern boundary where the planting is affected by the existing site boundary
and noise barrier, and for which a Variation to Environmental Permit
(EP-311/2008/C) to defer planting at the location was approved. Consequently,
EP (EP-311/2008/D) including specific mitigation measures to minimise certain
identified noise impacts during the operation phase was approved. The current
valid EP (EP-311/2008/E) comprises varied conditions for the implementation and
maintenance of visual and landscape measures, and for the implementation of
noise mitigation measures.
Mott MacDonald Hong Kong Ltd.
(“MMHK”) has been commissioned to undertake the Environmental Team (ET)
services to carry out environmental monitoring and audit (EM&A) for both
pre-construction and construction phases of the Proposed Comprehensive
Development at Wo Shang Wai, Yuen Long.
According to the EP Condition 4.5,
the monthly EM&A Report shall be submitted to the Director within two weeks
after the end of the reporting month. This report summarises the findings
during the period from 1 to 31 December 2023.
1.2 Project Organization
The organisation chart and lines of
communication with respect to the on-site environmental management structure
together with the contact information of the key personnel are shown in Appendix
A.
1.3 Environmental Status in the
reporting period
During the
reporting month, Project works undertaken include:
● General site maintenance work
● Regular maintenance work for the Wetland
Restoration Area (including monitoring the water level and removal of unwanted
species in the pond), as indicated in Section 4.6.
There were no heavy construction
works carried out. The general layout plan of the Project site is shown in Figure
1.1.
1.4 Summary of EM&A Requirements
The EM&A programme requires
environmental monitoring of air quality, noise, water quality, ecology and
landscape and visual as specified in the approved EM&A Manual.
A summary
of impact EM&A requirements is presented in Table
1.1 below:
Table 1.1: Summary of Impact EM&A Requirements
|
Parameters |
Descriptions |
Locations |
Frequencies |
|
Air Quality |
24-Hour TSP |
ASR1, ASR2A, ASR3, ASR4 |
Once every 6 days |
|
1-Hour TSP |
ASR1, ASR2A, ASR3, ASR4 |
3 times every 6 days |
|
|
Noise |
Leq(30min), L90, L10 (dB(A)) |
NSR1, NSR3, NSR5, NSR7 |
Weekly |
|
Water Quality |
Dissolved Oxygen (DO), temperature, pH, suspended solids (SS) and Biochemical Oxygen Demand (BOD) |
MP1 to MP6 |
3 days per week |
|
Ecology |
Birds |
Within the Project Area and Assessment Area of 500m |
Weekly |
|
Dragonflies and Butterflies |
Within the Project Area and Assessment Area of 500m |
Once per month during Mar and Sep to Nov, and twice per month during Apr to Aug |
|
|
Herpetofauna |
Within the Project Area and Assessment Area of 500m |
Daytime: Once per month during Apr to Nov Night-time: Once per month during Mar to Aug |
|
|
Water quality of Wetland Restoration Area (WRA) |
WRA |
After filling of WRA with water, monthly for in situ water quality and every six months (end of wet season and end of dry season) for laboratory testing |
|
|
Site Inspections |
Within the Project Area and Assessment Area of 500m |
Weekly |
|
|
Landscape and Visual |
Auditing of protection of existing trees, the transplanting of existing trees, the creation of new wetland, the planting of new trees and shrubs and other landscape and visual mitigation measures |
CM1 to CM10 and OM1 to OM7 within the Project Area |
Site inspections once every two weeks during construction phase; once every two months during operational phase |
The
Environmental Quality Performance Limits for air quality, noise and water
quality are shown in Appendix
C.
The Event and Action Plan for air
quality, noise, water quality and Landscape & Visual are shown in Appendix
D.
The monitoring schedule for the
reporting month is shown in Table 1.2 as
follows.
Table 1.2: Environmental Monitoring and Audit
Schedule for the Reporting Month
2
Impact Monitoring Methodology
2.1
Introduction
For air quality, construction noise
and water quality, ecology, landscape and visual monitoring methodology,
including the monitoring locations, monitoring equipment used, monitoring
parameters, and frequency and duration, etc., are detailed in this Chapter.
2.2
Air
Quality
2.2.1 Monitoring Parameters, Frequency and Duration
In accordance with the EM&A
Manual, 1-hour and 24-hour TSP levels monitoring are to be conducted during the
construction phase. Table 2.1 summarizes the
monitoring parameters, frequency and duration of air quality monitoring.
Table
2.1: Air Quality Monitoring Parameters, Frequency and Duration
|
Monitoring Stations |
Parameter |
Frequency and Duration |
|
ASR1, ASR2A, ASR3 & ASR4 |
24-hour TSP |
At least once in every six-days |
|
1-hour TSP |
3 times every six-days |
2.2.2 Monitoring Locations
The four air quality monitoring stations
were established in the EM&A manual and were slightly adjusted during the
baseline monitoring phase. Locations of the agreed air quality monitoring
stations are listed in Table 2.2 and as shown
in Figure
2.1.
Table
2.2: Air Monitoring Stations
|
Monitoring Stations |
Locations |
|
ASR1 |
Guard house outside House No. 1, Ventura Avenue, Royal Palms* |
|
ASR2A |
At the rooftop of refuse collection point, which is located at the southwest of the project area |
|
ASR3 |
At the commercial centre at Palm Springs, which is located at the south of the project area |
|
ASR4 |
Outside works site entrance* |
*Note: Relocation of ASR1 and ASR4
were from 5 June 2018 as the previous locations were within the Project
construction site. All monitoring data at ASR1 and ASR4 from June 2018 is
measured at the new monitoring locations.
2.2.3 Monitoring Equipment
Continuous 24-hour TSP air quality
monitoring is conducted using High Volume Sampler (HVS)
(Model: GMWS-2310 Accu-vol). The HVS
meets all the requirements of the EM&A Manual. Portable direct reading dust
meters were used to carry out the 1-hour TSP monitoring. Table 2.3 summarizes the equipment used in
the impact air quality monitoring.
Table
2.3: TSP Monitoring Equipment
|
Equipment |
Model |
|
24-hr TSP monitoring |
|
|
High Volume Sampler |
GMWS 2310 Accu-vol |
|
Calibrator |
TE-5025A |
|
1-hr TSP monitoring |
|
|
Portable direct reading dust meter |
Sibata LD-3B
Laser Dust Monitor |
2.2.4 Monitoring Methodology
2.2.4.1
24-hour TSP Monitoring
Installation
The HVS
was installed in the vicinity of the air sensitive receiver. The following
criteria were considered in the installation of the HVS.
● A horizontal platform with
appropriate support to secure the sampler against gusty wind was provided.
● The distance between the HVS and any obstacles, such as buildings, was at least twice
the height that the obstacle protrudes above the HVS.
● A minimum of two metres separation
from walls, parapets and penthouse was required for rooftop sampler.
● A minimum of two metres separation
from any supporting structure, measured horizontally was required.
● No furnace or incinerator flues or
building vent were nearby.
● Airflow around the sampler was
unrestricted.
● The sampler has been more than 20
metres from any drip line.
● Permission was obtained to set up
the samplers and to obtain access to the monitoring stations.
● A secured supply of electricity is
needed to operate the samplers.
Preparation
of Filter Papers
● Glass fibre filters were labelled
and sufficient filters that were clean and without pinholes were selected.
● All filters were equilibrated in the
conditioning environment for 24 hours before weighing. The conditioning
environment temperature was around 25 °C and not variable by more than ±3 °C
with relative humidity (RH) < 50% and was not variable by more than
±5%. A convenient working RH was 40%.
Field
Monitoring
● The power supply was checked to
ensure the HVS works properly.
● The filter holder and the area
surrounding the filter were cleaned.
● The filter holder was removed by
loosening the four bolts and a new filter, with stamped number upward, on a
supporting screen was aligned carefully.
● The filter was properly aligned on
the screen so that the gasket formed an airtight seal on the outer edges of the
filter.
● The swing bolts were fastened to
hold the filter holder down to the frame. The pressure applied should be
sufficient to avoid air leakage at the edges.
● The shelter lid was closed and was secured
with the aluminium strip.
● The HVS
was warmed-up for about 5 minutes to establish run-temperature conditions.
● A new flow rate record sheet was set
into the flow recorder.
● The flow rate of the HVS was checked and adjusted at around 1.1 m3/min.
The range specified in the EM&A Manual was between 0.6-1.7 m3/min.
● The programmable timer was set for a
sampling period of 24 hrs + 1 hr, and the starting time, weather condition and
the filter number were recorded.
● The initial elapsed time was
recorded.
● At the end of sampling, the sampled
filter was removed carefully and folded in half-length so that only surfaces
with collected particulate matter were in contact.
● It was then placed in a clean
plastic envelope and sealed.
● All monitoring information was
recorded on a standard data sheet.
● Filters were sent to a HOKLAS accredited laboratory for analysis.
Maintenance
and Calibration
● The HVS
and its accessories are maintained in good working condition, such as replacing
motor brushes routinely and checking electrical wiring to ensure a continuous
power supply.
● HVSs were calibrated at two-month
intervals.
● Calibration records for HVSs are shown in Appendix
E.
2.2.4.2
1-hour TSP Monitoring
Field
Monitoring
The measuring procedures of the
1-hour dust meter are in accordance with the Manufacturer’s Instruction Manual
as follows:
● Set POWER to “ON”, push BATTERY
button, make sure that the meter’s indicator is in the range with a red line
and allow the instrument to stand for about 3 minutes (Then, the air sampling
inlet has been capped).
● Push the knob at MEASURE position.
● Push “O-ADJ”
button. (Then meter’s indication is 0).
● Push the knob at SENSI ADJ position and set the meter’s indication to S value
described on the Test Report using the trimmer for SENSI ADJ.
● Pull out the knob and return it to
MEASURE position.
● Push “START” button.
Maintenance
and Calibration
● The 1-hour dust meter would be
checked at 3-month intervals and calibrated at 1-year intervals throughout all
stages of the air quality monitoring.
2.3
Construction
Noise
2.3.1 Monitoring Parameters, Frequency and Duration
Following the requirements in the
EM&A Manual for noise, noise monitoring has to be carried out during the
construction phase. Continuous noise monitoring for the A-weighted levels Leq(30 min), L10 and
L90 is undertaken once per every week.
Table 2.4 summarizes the monitoring
parameters, frequency and duration of air quality monitoring.
Table
2.4: Noise Monitoring Parameters, Frequency and Duration
|
Monitoring Stations |
Parameter |
Frequency and Duration |
|
NSR1, NSR3, NSR5, NSR7 |
Leq(30min), L90, L10 (dB(A)) |
Once every week |
2.3.2 Monitoring Locations
The four noise quality monitoring stations
were established in the EM&A manual and were slightly adjusted during the
baseline monitoring phase. Locations of the agreed noise quality monitoring
stations are listed in Table 2.5 and as shown
in Figure
2.2.
Table
2.5: Noise Monitoring Stations
|
Monitoring Stations |
Locations |
Type of measurement |
|
NSR1 |
Noise monitoring equipment was set up near the boundary wall at Palm Springs |
Free field |
|
NSR3 |
The monitoring station was located next to the guard house at Palm Spring |
Façade |
|
NSR5 |
Outside House No. 1, Ventura Avenue, Royal Palms* |
Façade |
|
NSR7 |
The monitoring station was located near the boundary wall of the house of Mai Po San Tsuen |
Free field |
*Note: Relocation of NSR5 was from 5
June 2018 as the previous location was within the Project construction site.
All monitoring data at NSR5 from June 2018 is measured at the new monitoring
location.
2.3.3 Monitoring Equipment
Integrating
Sound Level Meter was used for noise monitoring. It is a Type 1 sound level
meter capable of giving a continuous readout of the noise level readings
including equivalent continuous sound pressure level (Leq)
and percentile sound pressure level (Lx). They comply with
International Electrotechnical Commission Publications 651:1979 (Type 1) and
804:1985 (Type 1). Table 2.6 summarizes the noise
monitoring equipment model being used.
Table
2.6: Noise Monitoring Equipment
|
Equipment |
Model |
|
Integrating Sound Level Meter |
Rion NL-52 |
|
Calibrator |
Larson Davis CAL200 |
2.3.4 Monitoring Methodology
Field
Monitoring
● The Sound Level Meter was set on a
tripod at a height of at least 1.2 m above the ground.
● Façade and free-field measurements
were made at the monitoring locations.
● The battery condition was checked to
ensure the correct functioning of the meter.
● Parameters such as frequency
weighting, the time weighting and the measurement time were set as follows:
– frequency weighting: A
– time weighting: Fast
– time measurement: 30 minutes
intervals (between 07:00 and 19:00)
● Prior to and after each noise
measurement, the meter was calibrated using a Calibrator for 94 dB at 1
kHz. If the difference in the calibration level before and after
measurement was more than 1 dB, the measurement would be considered invalid has
to be repeated after re-calibration or repair of the equipment.
● During the monitoring period, the Leq, L10 and L90 were
recorded. In addition, any site observations and noise sources were
recorded on a standard record sheet.
Maintenance
and Calibration
● The microphone head of the sound
level meter and calibrator is cleaned with soft cloth at quarterly intervals.
● The meter and calibrator are sent to
the supplier or HOKLAS laboratory to check and
calibrate at yearly intervals.
● Calibration records are shown in Appendix
E.
2.4
Water
Quality
2.4.1 Monitoring Parameters, Frequency and Duration
In accordance with the requirements
in the EM&A Manual for water quality, water quality parameters including
Dissolved Oxygen (DO), temperature, pH, turbidity, suspended solids (SS) and
Biochemical Oxygen Demand (BOD) have to be monitored at designated monitoring
stations during construction of the Project. DO, temperature and pH were
measured in-situ whereas SS and BOD were analysed in a laboratory. The
measurements should be taken at all designated monitoring stations, three days
per week. The interval between any two sets of monitoring was not less than 36
hours. Table 2.7 summarizes the monitoring
parameters, frequency and duration of water quality monitoring.
Table 2.7:
Water Quality Monitoring Parameters, Frequency and Duration
|
Monitoring Stations |
Parameter |
Frequency and Duration |
|
MP1, MP2, MP3, MP4, MP5 & MP6 |
DO, temperature, pH, SS, turbidity, BOD |
Three days every week |
2.4.2 Monitoring Locations
The six water quality monitoring
stations were established in the EM&A manual. Locations of the agreed water
quality monitoring stations are listed in Table 2.8
and as shown in Figure
2.3.
Table
2.8: Water Quality Monitoring Stations
|
Monitoring Stations |
Easting |
Northing |
|
MP1* |
838 730.50 |
822 862.25 |
|
MP2* |
838 933.26 |
823 247.41 |
|
MP3 |
839 107.17 |
823 596.84 |
|
MP4 |
839 286.14 |
823 638.55 |
|
MP5 |
839 134.35 |
823 722.99 |
|
MP6 |
839 063.02 |
823 842.25 |
*Note: The water quality impact
monitoring at MP1 and MP2 have been terminated since July 2012 due to
withdrawal of access right from landowner.
2.4.3 Monitoring Equipment
The Water Quality Monitoring
Equipment and Analytical Methods applied to Water Quality Samples are given in Table 2.9 and Table 2.10
respectively. Details of which are discussed as follows.
Table
2.9: Water Quality Monitoring Equipment
|
Equipment |
Model |
Equipment/ Serial Number |
|
Conductivity, Dissolved oxygen, pH, Salinity and Temperature Measuring Meter, Turbidity |
YSI ProDSS |
16H104233 21K101468 21G105356 21K101469 |
|
Global Positioning System (GPS) |
Garmin eTrex Vista |
ENO 007 |
Table
2.10: Analytical Methods applied to Water Quality Samples
|
Determinant, unit |
Standard Method |
|
Total Suspended Solids, mg/L |
In house method based on APHA 2540D; ALS Method Code: EA-025 |
|
Biochemical Oxygen Demand (BOD), mg/L |
In house method based on APHA 5210B; ALS Method Code: EP-030 |
All in-situ monitoring instruments
were checked, calibrated and certified by a laboratory accredited under HOKLAS or any other international accreditation scheme before
use.
Dissolved
Oxygen (DO), Temperature, pH and Turbidity measuring equipment
A portable, weatherproof
multiparameter instrument (YSL ProDSS) was used in the
monitoring. It can be capable for measuring dissolved oxygen (DO), temperature,
pH and turbidity simultaneously with the following limits:
● a dissolved oxygen level in the
range of 0-50 mg/L and 0-500 % saturation;
● a temperature of -5 to 70 degrees
Celsius;
● pH value of 0-14 with 0.1 as the
base unit; and
● turbidity between 0-4000 NTU
Global
Positioning System (GPS)
A hand-held GPS navigator (Garmin eTrex Vista) was used to identify the designated monitoring
stations prior to water sampling.
Suspended
Solids and BOD Measurements (Sample Containers and Storage)
Water samples for SS analysis were
stored in high density polythene bottles with no preservative added, packed in
ice (cooled to 4 ºC without being frozen), delivered to the laboratory, and
analysed as soon as possible after collection. Analysis was carried out in a HOKLAS accredited laboratory.
2.4.4 Detection Limit
The limits of detection for the
in-situ and laboratory measurements are shown in Table
2.11.
Table
2.11: Detection Limits for Water Quality Determinants
|
Determinant |
Limit of Detection |
|
Dissolved Oxygen |
0.1 mg/L |
|
Temperature |
0.1 degree Celsius |
|
pH |
0.01 unit |
|
Turbidity |
0.1 NTU |
|
Suspended Solids |
2 mg/L |
|
BOD |
2 mg/L |
2.4.5 Monitoring Methodology
In situ
Measurement
All pH meters, DO/ temperature
meters had been checked and calibrated prior to use. Standard buffer solution
of at least two pH levels (either pH 4 and pH 7, or pH 7 and pH 10) had been
used for calibration of the instrument before and after use.
DO meters had been calibrated by a
laboratory accredited under HOKLAS or any other
international accreditation scheme, and subsequently re-calibrated at
three-monthly intervals throughout all stages of the water quality monitoring.
Responses of sensors and electrodes had been checked with certified standard
solutions before each use. Wet bulb calibrations for all DO meters had been
carried out before measurement at each monitoring location. For the on-site
calibration of field equipment, BS 1427:2009, "Guide to on-site test
methods for the analysis of waters" had been observed.
Measurements were taken at three
water depths, namely, 1m below water surface, mid-depth and 1m above stream
bed/pond bed, except where the water depth is less that 6m, the mid-depth
station maybe omitted. Should the water depth be less than 3 m, only the
mid-depth station will be monitored.
Replicates in-situ measurements and
samples collected from each independent monitoring event are required for all
parameters to ensure a robust statistically interpretable dataset.
Water
Samples Preparation and Analysis
For collection of water sampling
within the water courses, a 500ml clean plastic beaker was used. After
collection, the water samples were stored in high-density polythene bottles.
The sample container was rinsed with a portion of the water sample. The water
sample was then transferred to the container, labelled with a unique sample ID
and sealed with a screw cap. The water samples were stored in a cool box
maintained at 4 ºC. The water samples were then delivered to a local HOKLAS-accredited laboratory (ALS) on the same day for
analysis.
The testing methods of testing
parameters as recommended by EIA or required by EPD, with the QA/QC results are
in accordance with the requirement of HOKLAS or
international accredited scheme.
The calibration certificates for
equipment used for in-situ monitoring of water quality are attached in Appendix
E.
2.5
Ecology
2.5.1 Monitoring Parameters, Frequency and Duration
Target species and certain other fauna
were monitored within the Project Area and Assessment Area during the wetland
and residential construction phase. This is important to ensure that any
unexpected events or impacts either on- or off-site are quickly identified so
that remedial action can be taken. The groups monitored and frequency of
monitoring are shown in Table 2.12.
Table
2.12: Summary of Construction Phase Ecological Monitoring for the Wo Shang Wai
Wetland Restoration Area (WRA)
|
Species / Parameter |
Construction Phase Ecological Monitoring |
|
Birds |
Weekly (including Assessment Area) |
|
Dragonflies and Butterflies |
Once per month during March and September to November; and twice per month during April to August |
|
Herpetofauna |
Daytime: Once per month during April to November; and Night-time: Once per month during March to August |
|
Water Quality |
After filling of WRA with water, monthly for in situ water quality and every six months (end of the wet season and end of the dry season) for laboratory testing |
|
Site Inspections |
Weekly |
2.5.2 Monitoring Locations and Methodology
Ecological monitoring locations
during construction phase are shown in Figure
4.1 and the methodology for ecological monitoring is detailed in Section
4.
2.6
Landscape
and Visual
2.6.1 Monitoring Parameters, Frequency and Duration
All measures undertaken by both the
Contractor and the specialist Landscape Sub-Contractor during the construction
phase and first year of the operational phase shall be audited by a Registered
Landscape Architect, as a member of the ET, on a regular basis to ensure
compliance with the intended aims of the measures. Site inspections
should be undertaken at least once every two weeks throughout the construction
period and once every two months during the operational phase.
The broad scope of audit is detailed
below but should also be undertaken with reference to the more specific
checklist provided in Table 2.13 below.
Operational phase auditing will be restricted to the last 12 months of the
establishment works of the landscaping proposals and thus only the items below
concerning this period are relevant to the operational phase.
● The extent of the agreed works area
should be regularly checked during the construction phase. Any trespass by the
Contractor outside the limit of the works, including any damage to existing
trees and woodland shall be noted;
● The progress of the engineering
works should be regularly reviewed on site to identify the earliest practical
opportunities for the landscape works to be undertaken;
● All existing vegetation, streams and
other features within the study area which are not directly affected by the
works are retained and protected;
● The methods of protecting existing
vegetation proposed by the Contractor are acceptable and enforced;
● Preparation, lifting transport and
re-planting operations for any transplanted trees;
● The layout, design and construction
of buildings conforms to requirements specified in the EIA report;
● All landscaping works are carried
out in accordance with the EIA recommendations and with specifications;
● The planting of new trees, shrubs,
groundcover, climbers, grasses and other plans, together with the replanting of
any transplanted trees are carried out properly and within the right season;
● All necessary horticultural
operations and replacement planting are undertaken throughout the Establishment
Period to ensure the healthy establishment and growth of both transplanted
trees and all newly establishment plants.
Table
2.13: Construction and Operation Phase Audit Checklist
|
Area of Works |
Items to be Monitored |
|
Works Area |
Check the extent of the Works to ensure that the Works Area is not exceeded the site boundaries. |
|
Protection of all trees and woodland blocks to be retained |
Identification and demarcation of trees / vegetation to be retained, erection of physical protection (e.g. fencing), monitoring against possible incursion, physical damage, fire, pollution, surface erosion, etc. |
|
Streams |
Ensure no run-off into existing streams |
|
Clearance of existing vegetation |
Identification and demarcation of trees / vegetation to be cleared, checking of extent of works to minimize damage, monitoring of adjacent areas against possible incursion, physical damage, fire, pollution, surface erosion, etc. |
|
Transplanting of trees |
Identification and demarcation of trees / vegetation to be transplanted, monitoring of extent of pruning / lifting works to minimize damage, timing of operations implementation of all stages of preparatory and translocation works, and maintenance of transplanted vegetation, etc. |
|
Topsoil stripping |
Ensuring existing topsoil is stripped and stored under recognized good practice and is hydroseeded and regularly turned to prevent anaerobic conditions |
|
New buildings |
Ensure that building finishes accord with mitigation proposals with regard to colour and albedo. |
|
Boundaries |
Ensuring hoarding are erected as required |
|
Noise Barrier |
Ensure noise barrier design accords with the mitigation proposals with regard to location, materials and finishes. |
|
Night-time lighting |
Ensuring night-time lighting is directional, hooded and shielded away from VSRs |
|
Plant supply |
Monitoring of operations relating to the supply of specialist plant material (including the collecting, germination and growth of plants from seed) to ensure that plants will be available in time to be used within the construction works. |
|
Landscape and wetland treatments generally |
Check that wetland, and hard / soft landscape designs conform to intent of mitigation measures and agreed designs |
|
Soiling, planting, etc. |
Monitoring of implementation and maintenance of soiling and planting works against possible incursion, physical damage, fire, pollution, surface erosion, etc. |
|
Establishment Works |
Monitoring of implementation of maintenance operation during Establishment Period |
2.6.2 Monitoring Locations
The monitoring locations should
check against the mitigation measures proposed under the approved Environmental
Impact Assessment, which are summarised as follows in Table
2.14 and Table 2.15:
Table
2.14: Proposed Construction Phase Mitigation Measures
|
ID No. |
Landscape and Visual Mitigation Measures |
|
CM1 |
The construction area and contractor’s temporary works areas should be minimised to avoid impacts on adjacent landscape. |
|
CM2 |
Screening of construction works by hoardings/noise barriers around Works area in visually unobtrusive colours, to screen Works. |
|
CM3 |
Reduction of construction period to practical minimum. |
|
CM4 |
Topsoil, where identified, should be stripped and stored for re-use in the construction of the soft landscape works, where the soil material meets acceptable criteria and where practical. The Contract Specification shall include storage and reuse of topsoil as appropriate. |
|
CM5 |
Hydroseeding or sheeting of soil stockpiles with visually unobtrusive material (in earth tone). |
|
CM6 |
Advance screen planting of noise barriers. |
|
CM7 |
Control night-time lighting and glare by hooding all lights. |
|
CM8 |
Ensure no run-off into streams adjacent to Project Area. |
|
CM9 |
Protection of existing trees on boundary of project area shall be carefully protected during construction. Detailed Tree Protection Specification shall be provided in the Contract Specification. Under this specification, the Contractor shall be required to submit, for approval, a detailed working method statement for the protection of trees prior to undertaking any works adjacent to all retained trees, including trees in contractor’s works areas. (Tree protection measures will be detailed at S16 and Tree Removal Application stage). |
|
CM10 |
Trees unavoidably affected by the works shall be transplanted where practical. Trees should be transplanted straight to their destinations and not held in a nursery. A detailed Tree Transplanting Specification shall be provided in the Contract Specification, if applicable. Sufficient time for necessary tree root and crown preparation periods shall be allowed in the project programme. |
Table
2.15: Proposed Operation Phase Mitigation Measures
|
ID No. |
Landscape Mitigation Measures |
|
OM1 |
Compensatory Tree Planting for all felled trees shall be provided to the satisfaction of relevant Government departments. Required numbers and locations of compensatory trees shall be determined and agreed separately with Government during the Tree Felling Application process under DEVB TC(W) 7/2015. |
|
OM2 |
A continuous belt of screen planting along southern perimeter of project area with fast growing tree species. At least 450 trees capable of reaching a height > 10m within 10 years should be planted. Planting of the belt of trees shall be carried out as advance works ahead of other site formation and building works. |
|
OM3 |
Maximise soft landscape and amenity water bodies in residential areas of the development. Approximately 750 trees (of Heavy Standard size) should be planted. Where space permits, roadside berms should be created. Street trees should be of species that reach a mature height of no less than 15m. |
|
OM4 |
Maximise freshwater habitat wetland creation consistent with achieving other parameters. Minimum 4.74 ha to be provided. Wetlands must have natural edge profiles with >1m wide emergent zone. No access to the wetland by residents and all wetlands must be screened from residential development by a continuous tree screen at interface with residential development or earth mounding such that disturbance is minimised. Implementation of the wetland shall be carried out as advance works. |
|
OM5 |
Use appropriate (visually unobtrusive and non-reflective) building materials and colours in built structures. |
|
OM6 |
During detailed design, refine building layout to create a min. 10m wide gap between buildings north of Wo Shang Wai pond and also two min. 10m wide gaps in the row of buildings adjacent to Royal Palms. |
|
OM7 |
Streetscape elements (e.g. paving, signage, street furniture, lighting etc.) shall be sensitively designed in a manner that responds to the local context and minimises potential negative landscape and visual impacts. Lighting units should be directional and minimise unnecessary light spill. |
3.1 Impact Monitoring Schedule
Impact monitoring for air quality
(dust), noise and water quality due to the construction work were undertaken
during the reporting month in compliance with the EM&A manual in the
reporting period. Regular site inspections were carried out on 4, 15, 19 and 28
December 2023 during the reporting month to assess the compliance with
environmental requirements.
3.2
Results of Impact Monitoring
3.2.1 Air Quality Monitoring
3.2.1.1
1-hour TSP
Results of 1-hour TSP at the four
monitoring locations are summarised in Table 3.1.
Graphical plots of the monitoring results are shown in Appendix
F. The weather conditions in the reporting period are provided in Appendix
G.
Table 3.1:
Summary of 1-hour TSP Monitoring Results
|
Monitoring Date |
Start Time |
1-hr TSP (mg/m3) |
Range (mg/m3) |
Action Level (mg/m3) |
Limit Level (mg/m3) |
||
|
1st Result |
2nd Result |
3rd Result |
|||||
|
ASR1 |
|
|
|
|
|
|
|
|
06-Dec-23 |
08:22 |
81 |
63 |
49 |
19-81
|
378 |
500 |
|
12-Dec-23 |
08:09 |
33 |
31 |
30 |
|||
|
15-Dec-23 |
08:56 |
31 |
35 |
37 |
|||
|
21-Dec-23 |
08:48 |
23 |
19 |
27 |
|||
|
27-Dec-23 |
13:02 |
37 |
32 |
33 |
|||
|
ASR2A |
|
|
|
|
|
|
|
|
06-Dec-23 |
13:00 |
77 |
58 |
46 |
25-77
|
357 |
500 |
|
12-Dec-23 |
12:56 |
29 |
32 |
34 |
|||
|
15-Dec-23 |
13:19 |
28 |
26 |
27 |
|||
|
21-Dec-23 |
13:13 |
25 |
32 |
26 |
|||
|
27-Dec-23 |
09:01 |
42 |
38 |
37 |
|||
|
ASR3 |
|
|
|
|
|
|
|
|
06-Dec-23 |
13:18 |
72 |
53 |
42 |
24-72
|
358 |
500 |
|
12-Dec-23 |
13:14 |
30 |
28 |
25 |
|||
|
15-Dec-23 |
13:02 |
29 |
29 |
31 |
|||
|
21-Dec-23 |
13:32 |
24 |
25 |
25 |
|||
|
27-Dec-23 |
09:18 |
40 |
38 |
33 |
|||
|
ASR4 |
|
|
|
|
|
|
|
|
06-Dec-23 |
08:42 |
75 |
57 |
43 |
27-75
|
372 |
500 |
|
12-Dec-23 |
08:31 |
35 |
36 |
32 |
|||
|
15-Dec-23 |
08:35 |
27 |
29 |
32 |
|||
|
21-Dec-23 |
09:10 |
33 |
30 |
30 |
|||
|
27-Dec-23 |
13:19 |
35 |
34 |
38 |
|||
3.2.1.2
24-hour TSP
Results of 24-hour
TSP at the four monitoring locations are summarised in Graphical plots of the
monitoring results are shown in Appendix
F. The weather conditions in the reporting period are provided in Appendix
G.
Table 3.2: Summary of 24-hour TSP Monitoring
Results
|
Monitoring Date |
Monitoring Results (mg/m3) |
Range (mg/m3) |
Action Level (mg/m3) |
Limit Level (mg/m3) |
|
ASR1 |
|
|
|
|
|
06-Dec-23 |
83 |
80-190 |
226 |
260 |
|
12-Dec-23 |
80 |
|||
|
15-Dec-23 |
116 |
|||
|
21-Dec-23 |
190 |
|||
|
27-Dec-23 |
113 |
|||
|
ASR2A |
|
|
|
|
|
06-Dec-23 |
58 |
42-105
|
213 |
260 |
|
12-Dec-23 |
42 |
|||
|
15-Dec-23 |
98 |
|||
|
21-Dec-23 |
105 |
|||
|
27-Dec-23 |
54 |
|||
|
ASR3 |
|
|
|
|
|
06-Dec-23 |
58 |
40-142
|
205 |
260 |
|
12-Dec-23 |
40 |
|||
|
15-Dec-23 |
98 |
|||
|
21-Dec-23 |
142 |
|||
|
27-Dec-23 |
90 |
|||
|
ASR4 |
|
|
|
|
|
06-Dec-23 |
74 |
60-182
|
237 |
260 |
|
12-Dec-23 |
60 |
|||
|
15-Dec-23 |
114 |
|||
|
21-Dec-23 |
182 |
|||
|
27-Dec-23 |
119 |
No exceedance
of 1-hour and 24-hour TSP (Action or Limit Level) was recorded in the reporting
period.
3.2.2 Construction Noise Monitoring
The
construction noise monitoring results are summarized in Table
3.3. Graphical plots of the monitoring data are shown in Appendix
F. The weather conditions in the reporting period are provided in Appendix
G.
Table
3.3: Summary of Construction Noise Monitoring Results
|
Monitoring Date |
Start Time |
Mean and Range of Noise Levels, dB(A) |
Limit Level for Leq (dB(A)) |
||
|
Leq |
L10 |
L90 |
|||
|
NSR1 |
|
|
|
|
|
|
06-Dec-23 |
11:25 |
44 |
47 |
37 |
75 |
|
12-Dec-23 |
11:18 |
48 |
50 |
40 |
|
|
21-Dec-23 |
14:46 |
47 |
51 |
41 |
|
|
27-Dec-23 |
15:53 |
47 |
48 |
41 |
|
|
NSR3 |
|
|
|
|
|
|
06-Dec-23 |
10:28 |
43 |
45 |
39 |
75 |
|
12-Dec-23 |
10:24 |
42 |
44 |
39 |
|
|
21-Dec-23 |
13:41 |
42 |
44 |
39 |
|
|
27-Dec-23 |
15:05 |
42 |
44 |
39 |
|
|
NSR5 |
|
|
|
|
|
|
06-Dec-23 |
09:37 |
43 |
44 |
41 |
75 |
|
12-Dec-23 |
09:32 |
47 |
50 |
43 |
|
|
21-Dec-23 |
10:32 |
47 |
50 |
44 |
|
|
27-Dec-23 |
14:17 |
45 |
47 |
40 |
|
|
NSR7 |
|
|
|
|
|
|
06-Dec-23 |
08:46 |
67 |
69 |
64 |
75 |
|
12-Dec-23 |
08:40 |
67 |
69 |
64 |
|
|
21-Dec-23 |
09:25 |
67 |
69 |
64 |
|
|
27-Dec-23 |
13:26 |
66 |
68 |
64 |
|
No exceedance
(Action/Limit Level) of construction noise was recorded in the reporting
period.
3.2.3 Water Quality Monitoring
The water quality monitoring results
are summarized in Table 3.4. Graphical plots
of the monitoring data are shown in Appendix
F. The weather conditions in the reporting period are provided in Appendix
G.
Table
3.4: Summary of Water Quality Monitoring Results
|
Monitoring Date |
Temp (ºC) |
pH |
Dissolved Oxygen (DO) (mg/L) |
DO (%) |
Turbidity (NTU) |
BOD (mg/L)(1) |
Suspended Solids (mg/L)(1) |
|
MP3 |
|
|
|
|
|
|
|
|
01/12/2023 |
21.8 |
7.6 |
5.9 |
67.2 |
10.5 |
4 |
11 |
|
04/12/2023 |
23.6 |
7.0 |
7.8 |
91.3 |
14.4 |
<2 |
21 |
|
06/12/2023 |
22.0 |
7.4 |
5.5 |
62.6 |
6.8 |
4 |
11 |
|
08/12/2023 |
22.6 |
7.3 |
5.7 |
66.2 |
9.9 |
<2 |
10 |
|
11/12/2023 |
22.8 |
7.4 |
6.6 |
77.3 |
5.5 |
3 |
5 |
|
13/12/2023 |
23.7 |
7.2 |
7.5 |
90.8 |
7.3 |
2 |
8 |
|
15/12/2023 |
23.0 |
7.3 |
6.4 |
75.2 |
7.6 |
3 |
9 |
|
18/12/2023 |
18.2 |
7.2 |
7.4 |
78.3 |
9.8 |
<2 |
11 |
|
20/12/2023 |
17.0 |
7.3 |
7.7 |
80.3 |
8.4 |
3 |
16 |
|
22/12/2023 |
16.7 |
7.5 |
7.9 |
79.7 |
10.7 |
3 |
17 |
|
27/12/2023 |
16.8 |
7.3 |
8.0 |
82.0 |
11.4 |
<2 |
16 |
|
29/12/2023 |
17.6 |
7.4 |
7.8 |
81.9 |
7.0 |
5 |
19 |
|
Action Level |
- |
<5.5 or >7.5 |
<6.85 |
- |
>64 |
- |
>65 |
|
Limit Level |
- |
<4.0 or >8.0 |
<6.65 |
- |
>67 |
- |
>66 |
|
|
|
|
|
|
|
|
|
|
MP4 |
|||||||
|
01/12/2023 |
21.4 |
7.1 |
5.2 |
60.2 |
44.0 |
4 |
58 |
|
04/12/2023 |
23.7 |
6.8 |
7.6 |
90.0 |
41.7 |
<2 |
63 |
|
06/12/2023 |
21.6 |
7.2 |
3.8 |
43.0 |
32.9 |
3 |
48 |
|
08/12/2023 |
22.5 |
7.4 |
4.8 |
55.0 |
27.9 |
2 |
43 |
|
11/12/2023 |
22.4 |
7.3 |
5.7 |
67.4 |
16.0 |
2 |
17 |
|
13/12/2023 |
23.2 |
7.3 |
6.1 |
74.9 |
14.0 |
4 |
15 |
|
15/12/2023 |
22.5 |
7.4 |
5.8 |
67.5 |
9.4 |
3 |
11 |
|
18/12/2023 |
18.0 |
7.4 |
6.0 |
63.6 |
18.3 |
2 |
18 |
|
20/12/2023 |
17.3 |
7.1 |
6.4 |
67.4 |
23.5 |
6 |
27 |
|
22/12/2023 |
16.3 |
7.2 |
7.0 |
70.8 |
16.5 |
4 |
22 |
|
27/12/2023 |
17.1 |
7.5 |
7.2 |
75.3 |
18.8 |
4 |
19 |
|
29/12/2023 |
17.3 |
7.3 |
7.0 |
73.4 |
20.1 |
11 |
29 |
|
Action Level |
- |
<5.5 or >7.5 |
<3.91 |
- |
>60 |
- |
>50 |
|
Limit Level |
- |
<4.0 or >8.0 |
<3.82 |
- |
>64 |
- |
>53 |
|
|
|
|
|
|
|
|
|
|
MP5 |
|||||||
|
01/12/2023 |
21.1 |
7.4 |
7.7 |
86.5 |
39.3 |
17 |
55 |
|
04/12/2023 |
23.7 |
7.1 |
7.7 |
90.4 |
32.6 |
<2 |
46 |
|
06/12/2023 |
20.7 |
7.4 |
5.9 |
65.3 |
40.0 |
8 |
50 |
|
08/12/2023 |
22.7 |
7.4 |
6.2 |
72.6 |
27.0 |
2 |
31 |
|
11/12/2023 |
23.0 |
7.3 |
6.1 |
70.8 |
21.4 |
3 |
26 |
|
13/12/2023 |
23.3 |
7.4 |
6.3 |
77.6 |
12.3 |
3 |
14 |
|
15/12/2023 |
22.8 |
7.4 |
6.2 |
72.6 |
9.3 |
2 |
9 |
|
18/12/2023 |
17.3 |
7.3 |
6.8 |
72.2 |
16.4 |
2 |
17 |
|
20/12/2023 |
16.8 |
7.0 |
7.3 |
75.2 |
38.1 |
5 |
45 |
|
22/12/2023 |
16.9 |
7.3 |
7.2 |
73.9 |
17.2 |
3 |
16 |
|
27/12/2023 |
17.3 |
7.3 |
7.5 |
78.6 |
17.1 |
3 |
18 |
|
29/12/2023 |
17.5 |
7.5 |
7.3 |
76.2 |
18.3 |
14 |
23 |
|
Action Level |
- |
<5.5 or >7.5 |
<4.13 |
- |
>81 |
- |
>66 |
|
Limit Level |
- |
<4.0 or >8.0 |
<3.87 |
- |
>84 |
- |
>69 |
|
|
|
|
|
|
|
|
|
|
MP6 |
|
|
|
|
|
|
|
|
01/12/2023 |
21.0 |
7.5 |
7.2 |
80.7 |
38.8 |
16 |
53 |
|
04/12/2023 |
23.6 |
7.0 |
7.7 |
89.9 |
30.6 |
<2 |
42 |
|
06/12/2023 |
20.7 |
7.5 |
6.4 |
71.3 |
38.6 |
7 |
46 |
|
08/12/2023 |
23.0 |
7.2 |
6.0 |
69.9 |
26.3 |
2 |
29 |
|
11/12/2023 |
23.1 |
7.4 |
6.0 |
69.4 |
23.3 |
4 |
23 |
|
13/12/2023 |
23.3 |
7.3 |
6.6 |
80.8 |
11.9 |
3 |
12 |
|
15/12/2023 |
22.9 |
7.3 |
6.0 |
70.0 |
9.1 |
2 |
11 |
|
18/12/2023 |
17.5 |
7.3 |
6.5 |
68.0 |
15.9 |
2 |
14 |
|
20/12/2023 |
16.6 |
7.0 |
7.0 |
71.8 |
32.3 |
4 |
40 |
|
22/12/2023 |
17.0 |
7.3 |
7.2 |
75.1 |
16.3 |
3 |
19 |
|
27/12/2023 |
17.3 |
7.3 |
7.3 |
76.2 |
15.9 |
3 |
15 |
|
29/12/2023 |
17.6 |
7.5 |
7.1 |
74.4 |
16.8 |
13 |
21 |
|
Action Level |
- |
<5.5 or >7.5 |
<4.61 |
- |
>94 |
- |
>75 |
|
Limit Level |
- |
<4.0 or >8.0 |
<4.52 |
- |
>96 |
- |
>75 |
Notes:
(1)
“<2”: Value is too
low to indicate (<2mg/L).
(2)
For the Limit Level of
DO, 1-percentile of baseline data is adopted as it is greater than 2mg/L.
(Refer to Baseline
Monitoring Report)
(3)
Values in Bold
indicate Action Level exceedance.
(4)
Values Underlined
and in Bold indicate Limit Level exceedance.
3.2.3.1
Exceedance
Investigation and Findings
During December 2023, a total of one Action Level and 8 Limit Level
exceedances for water quality were observed. One Action Level exceedance of pH
and five Limit Level exceedances of DO were recorded at MP3; one Limit Level
exceedance of DO and two Limit Level exceedances of SS were recorded at MP4.
Exceedance of pH and DO at MP3
Exceedance of the Action Level of pH
was observed on 1 December 2023. Exceedances of the Limit Level of DO were
observed on 1, 6, 8, 11 and 15 December 2023 at MP3.
As understood, the fish pond near the site (represented by MP3) is
separated from the open ditch by the pond bund (since commencement of
construction phase EM&A monitoring in May 2010) and from the construction
site by the WRA (since it was completed in November 2010). No direct discharge
from the project site to the fish pond was observed. It is noted as well that
there have been no heavy construction activities in the reporting period.
Mitigation measures for water quality protection, including the provision
of wastewater treatment facilities (with sedimentation tank and AquaSed) and
proper drainage system that separates from the WRA, have been implemented (see
Photo 1 & 2). No adverse impact on the fish pond near the site was
observed, including on the days with exceedance of water quality parameters.
According to the results of the baseline water quality monitoring
conducted prior to the commencement of construction works, the pH recorded at
MP3 ranged from 7.7 to 8.6. The recorded pH exceedance (7.6) is therefore
considered to be within the range of the natural variations at this
location.
It is also noted from AFCD's Environmental
Management of Pond Fish Culture (EMPFC) guidelines
from its Series of Good Aquaculture Practice that the pH level of fishpond
water should be between 6 and 8.5 and for good water quality DO levels should
be maintained above 4 mg/L. The recorded exceedance value for pH was within the
guideline recommendations and the recorded values for DO were above the
recommended minimum. Aerators were observed on most days with DO exceedance so
as to mitigate low DO levels. Nevertheless, the Contractor was reminded to
implement the water quality mitigation measures in accordance with the
recommendation stated in Section 5.6.1 - 5.6.4 of the EIA Report as far as
practicable.
It is therefore concluded that the pH and DO exceedances at MP3 were
possibly due to localised natural variations and external factors such as pond
fish culture activities in the fish pond represented by MP3, which are not
related to project activities.
Exceedance of SS and DO at MP4
Exceedances of the Limit Level of SS
were observed on 1 and 4 December 2023 and exceedance of the Limit Level of DO
was observed on 6 December 2023 at MP4.
Significant growth of water plant was
observed at MP4 on the days of DO and SS exceedance (see Photos 8-10).
Excessive growth of vegetation and its degradation may have led to a decrease
in the DO level in the water. In addition, it is possible that such growth may
have impeded the normal flow of ditch water resulting in localised
accumulations of SS.
It is believed that the SS and DO
exceedances at MP4 were probably due to localised natural variations, water
plant growth and its degradation and external activities unrelated to the
project.
Conclusion
As a
result, the abovementioned exceedances were unlikely to be due to the project
works and therefore not considered to be related to the project.
|
Photo 1 |
Installation
of barrier at the drainage channel to intercept site runoff and pump the wastewater
to the sedimentation tanks prior to wastewater treatment facilities (AquaSed)
(near discharge outlet to the northern ditches)
19 December
2023 |
||
|
Photo 2 |
Wastewater treatment facilities (AquaSed, sedimentation tanks) inside the site (near
discharge outlet to the northern ditches)
23 December
2023 |
||
|
Photo 3 |
Appearance of the water body at MP3 on 1 December 2023 |
||
|
|
|
||
|
Photo 4 |
Appearance of the water body at MP3 on 6 December 2023 |
||
|
|
|
||
|
Photo 5 |
Appearance of the water body at MP3 on 8 December 2023 |
||
|
|
|
||
|
Photo 6 |
Appearance of the water body at MP3 on 11 December 2023 |
||
|
|
|
||
|
Photo 7 |
Appearance of the water body at MP3 on 15 December 2023 |
||
|
|
|
||
|
Photo 8 |
Appearance of the water body at MP4 on 1 December 2023 |
||
|
|
|
||
|
Photo 9 |
Appearance of the water body at MP4 on 4 December 2023 |
||
|
|
|
||
|
Photo 10 |
Appearance of the water body at MP4 on 6 December 2023 |
||
|
|
|
4.1 Monitoring of Birds
This report documents surveys
conducted in the Survey Area between 1 and 31 December 2023. The Wetland Restoration
Area (WRA) is also surveyed as the area is accessible and site formation works
for WRA has been completed. The updated survey transect is provided in Figure 4.1.
Dates and ecological surveys conducted during this period are summarised in Appendix
H.
Monitoring was undertaken following
the survey methodology in the EM&A Manual. A transect was followed in the
bird surveys (see Figure 4.1).
All bird species were identified to species and all bird species of
conservation importance and/or wetland dependent were enumerated and recorded
to the habitats in which they were observed. Flying birds were not recorded
unless they were foraging and/or associated with the habitat (such as swifts,
swallows and birds of prey). Further, notable bird observations
during other surveys or site inspections were also recorded.
Bird surveys were conducted on a
weekly basis. A total of 46 bird species were recorded in the Survey Area
(excluding the WRA) during regular surveys in the reporting month. Among them
23 were species of conservation importance and/or
wetland-dependence. Within the WRA, 46 bird species were recorded in
the reporting month. Among them 18 were species of conservation importance
and/or wetland-dependence including two of the three target species (Little
Egret and Chinese Pond Heron).
The WRA attracts several species of
conservation importance, including the Little Grebe (Tachybaptus
ruficollis), Great Cormorant (Phalacrocorax carbo), Grey Heron (Ardea cinerea), Purple Heron (Ardea purpurea), Great Egret (Ardea alba), Little Egret (Egretta garzetta),
Chinese Pond Heron (Ardeola bacchus), Black Kite (Milvus migrans),
Black-winged Stilt (Himantopus Himantopus), Pied Kingfisher (Ceryle rudis) and
Collared Crow (Corvus torquatus). Little
Grebe, Pied Kingfisher and Collared Crow are listed by Fellowes et al. as of
“Local Concern” in 2002. Great Cormorant, Grey Heron, Great Egret, Little Egret
and Chinese Pond Heron are listed by Fellowes et al. as of “Potential Regional
Concern” in 2002. Purple Heron, Black Kite and Black-winged Stilt are listed by
Fellowes et al. as of “Regional Concern” in 2002.
A summary of survey
data is provided in Appendix
I.
4.2
Monitoring
of Herpetofauna
No regular herpetofauna survey was
conducted in December 2023. Herpetofauna recorded during other surveys or site
inspection works were recorded as ‘outside survey’.
No amphibian or reptile was recorded
in the Survey Area (excluding the WRA). Within the WRA 1 species of reptile
(Long-tailed Skink Eutropis longicaudata) was recorded outside surveys.
A summary of the survey findings is
provided in Appendix
J.
4.3
Monitoring
of Dragonflies and Butterflies
No
odonates and butterflies survey was
conducted in December 2023. Odonates
and butterflies recorded during other surveys or site inspection works were
recorded as ‘outside survey’.
Within the WRA 3
butterfly species were recorded in the WRA during outside surveys. Among them
the Common Awl was listed by Fellowes et al. as of “Local Concern” in 2002.
A summary of the survey findings is
provided In Appendix
J.
4.4 Monitoring of Mammals
Monitoring of mammals was conducted concurrently
with other faunal surveys. Any mammal species encountered during site
inspections or other habitat management works were recorded as ‘outside
survey’.
No mammal species was
recorded in the Survey Area (excluding the WRA) during regular or outside
surveys.
There was no mammal
species recorded during the regular daytime survey. Scats of Leopard Cat
(Prionailurus bengalensis) were found
within the WRA during the site inspection on 29 December 2023, indicating that
the species was present in the WRA during the reporting month.
A summary of the survey findings is
provided in Appendix
J.
4.5
Monitoring
of Water Quality
Regular
water level monitoring works were conducted on 12 December 2023, additional
water level monitoring was conducted on 29 December 2023 since water was
discharged from Cell 4 in the middle of the reporting month.
The water
levels in the reporting month ranged between 150cm and 195cm during the water
level monitoring works.
The water
level of the Cells allowed wetland birds to use as foraging site and attracted
diving birds such as Little Grebe (Tachybaptus
ruficollis) as well as kingfishers to forage. The shallower areas along the
edges of ponds and islets attracted ardeids such as Great Egret (Ardea alba), as well as the target species
Little Egret (Egretta garzetta)
and Chinese Pond Heron (Ardeola bacchus). These areas were also used by other
wetland-dependent birds as foraging and/or perching sites, such as
White-breasted Waterhen (Amaurornis phoenicurus), Green Sandpiper (Tringa
ochropus) and Common Sandpiper (Actitis hypoleucos).
The current water level will be kept for wetland bird usage.
In-situ
water quality monitoring of all other parameters was conducted on 19 December
2023.
Monitoring
data is presented in Appendix
K. Locations for the monitoring of water quality for the ecological
monitoring are shown in Figure
4.2.
4.6
Management
Activities
4.6.1 Vegetation Management
Regular vegetation management
activities undertaken at the site in December 2023 primarily involved removal
of excessive grass and exotic species along Cell bunds, emergency vehicular
access (EVA) and open water areas of Cell 1, Cell 2, Cell 3 and Cell
4.
Fallen leaves along
the EVA of Cell 3 and Cell 4 were swept or blown aside and formed thicker piles
of plant materials on both sides of the EVA. These piles were used to attract
herpetofauna and butterflies.
Vegetation along the EVA provided
foraging and roosting habitats for breeding birds, as well as nectar sources
for butterflies and rooting sites of dragonflies. Pruning will be kept to a
minimum if the branches do not block the passage.
Wetland-dependent
Purple Heron (Ardea purpurea) were
regularly recorded in the WRA. Apart from reed (Phragmites australis),
the birds would also use Cattail (Typha sp.) stands. The reedbeds,
cattails and the utilization of these vegetations by these birds will be
closely monitored before any clearance work is conducted.
4.6.2 Wildlife Management
During the site
inspection work in December 2023, no active Red Imported Fire Ant nest was
recorded. Any active nest of the Red Imported Ant identified in the following
months will be treated with AFCD approved pesticide.
Egg masses of Apple
Snails (Pomacea canaliculata)
found along concrete structures of the WRA (e.g., sluice gates between Cells,
concrete structures of all Cells and concrete wall of Cell 4) were cleared by
hand.
Egg masses of the Apple Snails
growing on aquatic vegetation of Cell 1, Cell 2, Cell 3 and Cell 4 were cleared
by hand.
Apple Snails were removed from the Cells during
vegetation clearance works.
Mitigation actions have been taken
in the WRA during the survey period to increase the WRA utilization by wetland
dependent species and birds, including:
1. Controlling the vegetation at Cell 1, Cell 2,
Cell 3 and Cell 4; and
2. Controlling the water level at Cell 1, Cell 2,
Cell 3 and Cell 4.
4.7 Summary
Ecological monitoring during
December 2023 was carried out according to the survey methodology and frequency
outlined in the EM&A Manual.
A summary of the survey findings is
listed in Table 4.1:
Table 4.1: Summary of Ecological Monitoring in WRA
and Survey Area under EM&A Manual
|
Species |
Survey Area (excluding WRA) |
WRA |
|
Birds |
46 |
46 |
|
Birds (of conservation importance and/or wetland-dependence) |
23 |
18 |
|
Amphibians |
0 |
0 |
|
Reptiles |
0 |
1 |
|
Mammals |
0 |
1 |
|
Odonates |
0 |
0 |
|
Butterflies |
0 |
3 |
Survey findings indicate that the
ponds within the Survey Area supported numbers and diversity of
wetland-dependent birds typical of fishpond areas. The WRA continues to attract
wetland dependent fauna and serves as a buffer between the residential portion
and the fishponds in the north.
Two of the three target species
Little Egret (Egretta garzetta)
and Chinese Pond Heron (Ardeola bacchus) were observed foraging along the shallow water
areas (including the edge of the cells and non-vegetated islets) or perching on
tall vegetations within the WRA.
Dense and tall vegetation along the
edge of the EVA attracted insectivorous birds, such as Common Tailorbird (Orthotomus sutorius)
and Prinias (Prinia
spp.). The vegetation also acts as night-time roosts for odonates, butterflies and diurnal birds. These vegetation
stands will be kept provided that the branches do not overgrow and obscure the
EVA. During vegetation clearance some of these areas were only treated with
minimum trimming to preserve suitable habitats for wildlife.
The reedbed and adjacent vegetation
were frequently used by Purple Heron (Ardea
purpurea). The reedbed and adjacent vegetation will be closely monitored
before conducting any clearance work.
Fallen leaves scattered along the
EVA were swept aside and formed a thicker layer of fallen plant materials.
These piled-up plant materials are used to attract amphibians and reptiles
within the WRA.
5.1 Site Inspections
The EM&A programme for Landscape
and Visual impact due to the construction commenced in June 2010 and continued
during the reporting period. Site inspections on Landscape and Visual impact
were carried out on 15 and 28 December 2023 to confirm the implementation of
mitigation measures at the construction stage.
The Event and Action Plan for
Landscape & Visual is shown in Appendix
D.
5.2
Construction
Phase Audit Summary
The audit was undertaken with
reference to the specific checklists provided in Table
2.13 – Table 2.15 and audit results are
summarized below in Table 5.1. Representative
photos showing the implementation of mitigation measures are presented in Appendix M.
Table
5.1: Construction and Operation Phase Audit Summary
|
Area of Works |
Items of be Monitored |
|
Works Area |
The boundaries of the works area have been established on site in accordance with the contract documents and approved plans (EP), and the limit of current heavy construction activity is now confined to within the site hoardings (North side of the site / access road) and the noise barriers (other sides of the site). Minor works such as horticultural maintenance of the planting and transplanted trees, and boundary fence repair was proceeding along the Royal Palms – Palm Springs boundary. (Appendix M Photo 1 – Table 2.14 CM2 refers) No construction works were observed to have exceeded the site boundaries. No construction was carried out at the wetland restoration area after 15 November 2010. |
|
Protection of all trees and woodland blocks to be retained |
Trees retained within the site along the northeast boundary, beside wetland restoration area, have been identified and protected by temporary protective fencing. |
|
Streams |
The works site is partly encircled by a berm / perimeter channel to intercept surface water and prevent it from washing off into any of the neighbouring sites. Surface water is collected within the site in a temporary drainage channel. Gravels beds and barriers have been installed to filter site runoff, sedimentation ponds have been provided to enable primary treatment before discharge to mains drains. |
|
Clearance of existing vegetation |
Site clearance was completed prior to the commencement of construction. |
|
Transplanting of trees |
Tree transplanting has been completed, with the trees relocated to various points within the planting strip along the southern boundary of the site, outside the noise barrier. Most of the trees continue to re-establish well. Trees such as tree no. AA34, 36 & 291 were observed to have poor health condition. Regular watering and close monitoring of these trees are recommended. |
|
Topsoil stripping |
Suitable pond bund and soil material which had been excavated and stockpiled from the original site, has now been re-used within the landscape works. Dust suppression measures are active along all internal site access tracks. |
|
New buildings |
No new permanent buildings have yet been constructed on site. |
|
Boundaries |
Hoardings have been erected along most of the boundaries of the site. Installation of new screen fence between the future residential sites and the constructed wetland restoration areas is complete. Fence has been painted green to match with the surrounding vegetated environment. (Appendix M Photo 1 – Table 2.14 CM2 refers) |
|
Noise Barrier |
Noise barriers have been installed along the southern and western boundaries of the site in accordance with the contract requirements. Their design complies with the mitigation requirements, with upper 6 to 7m portion of the barrier being made from a translucent material with green tinted (to match with the environment). Supporting GMS structure, likewise, has been painted green. (Appendix M Photo 3 – Table 2.14 CM6 refers). |
|
Night-time lighting |
No night-time works were reported to have been carried out during the monitoring period. |
|
Landscape and wetland treatments generally |
Continuous belt of screen planting along the southern and western boundaries of the site has been completed. The formation, soiling and water control structures of the wetland restoration area have been completed. (Appendix M Photo 3 – Table 2.14 CM6 refers) The wetland areas have been established, with the ponds are being seasonally filled with rainwater. Planting of areas around the WRA cells is complete. No construction was carried out at the wetland restoration area after 15 November 2010. (Appendix M Photo 2 – Table 2.14 CM2 refers) |
|
Soiling, etc. |
The soil placement and grading for each of the wetland restoration areas has been completed. Refilling for those holes left after the whole tree removal works has been completed. |
|
Plant supply |
The plant material used in the Advance Planting Strip and in the WRA are all commonly available species and came from commercial sources. Transplanted reeds (Phragmites australis) at the wetland habitat came from the temporary holding nursery onsite. |
|
Planting |
The tree species are all from the approved list. Seedling trees and shrubs have been established at the margins of the wetland cells. Some invasive species and undesirable exotic species have been found during site inspection; removal of these species should be undertaken on a regular basis. |
|
Establishment Works |
The advance planting, the compensatory planting and transplanted trees are generally being maintained by the landscape sub-contractor in accordance with the specification to ensure that the contract requirements are met. Tree no. 56, 59, 71 and 292 were removed due to safety concern. Tree no. 324 and 344 were observed with signs of presence of termites. Application of pesticide and close monitoring of the trees are recommended. Removal of overgrown weeds, unplanned tree seedlings and invasive climbers in the space behind screen noise barrier needs to be undertaken on a monthly basis as they may inhibit the advance planting. Regular removal of invasive species (i.e., apple snails, Leucaena leucocephala, Mikania micrantha, Mimosa pudica, Bidens alba, Ludwigia erecta, Sesbania cannabina, etc.) in WRA should be undertaken. The growth of shrubs / seedlings on the north side of the WRA remains fair. |
6.1 Site Inspection
The ET had carried out construction
phase weekly site inspections on 4, 15, 19 and 28 December 2023. All
observations have been recorded in the site inspection checklist and passed to
the Contractor together with the appropriate recommended mitigation measures
where necessary. The key observations from site inspections and associated
recommendations are summarized in Table 6.1.
Table
6.1: Summary of Site Inspections and Recommendations
|
Key Observations |
ET Recommendation |
Contractor’s Responses / Action(s) Undertaken |
Close-out (Date) |
|
Nil |
|
|
|
6.2
Solid
and Liquid Waste Management Status
The Contractor has been registered
as a chemical waste producer for the Project. Construction and demolition (C&D) material sorting was carried out on site. A
sufficient number of receptacles were available for general refuse collection.
As advised by the Contractor, no
inert C&D material (i.e. broken concrete/ big
boulders) were generated on site and sent to a sorting facility for recycling
into rockfill. No metals were generated and collected by registered recycling
collector. No paper/cardboard packing and no plastics were generated on site
and collected by registered recycling collector. No chemical waste was
generated and collected by licensed chemical waste collector. No other types of
wastes (e.g. general refuse) were generated on site and disposed of at public
landfill facility.
The Contractor is advised to
maintain on site waste sorting and recording system and maximize reuse /
recycling of C&D wastes, whenever these are
generated.
6.3
Status
of Environmental Licences and Permits
The environmental permits, licences,
and/or notifications on environmental protection for this Project which were
valid during the reporting period is summarised in Table
6.2.
Table 6.2:
Status of Environmental Submissions, Licences and Permits
|
Statutory Reference |
Description |
Permit/Reference No. |
Status |
|
EIAO |
Environmental Permit |
EP-311/2008/E |
Valid |
|
APCO |
Notification of Construction Work under APCO |
2018-027-A-1 (20 July 2020) |
Valid |
|
WPCO |
Discharge Licence |
WT00037436-2021 (21 Apr 2021) |
Valid |
|
WDO |
Registration as Chemical Waste Producer |
WPN0000-542-H3083-04 |
Valid |
|
WDO |
Bill Account for Disposal |
700945423 |
Valid |
Legend: EIAO – Environmental Impact Assessment Ordinance; APCO –
Air Pollution Control Ordinance; WPCO –Water
Pollution Control Ordinance; WDO – Waste Disposal Ordinance
6.4
Recommended
Mitigation Measures
The EM&A programme followed the
recommended mitigation measures in the EM&A Manual. The EM&A
requirements as well as the summary of implementation status of the
environmental mitigation measures are provided in Appendix
L. In particular, the following mitigation measures continue to be
implemented at the site:
Air Quality
● Access roads should be sprayed with
water or dust suppression chemical to maintain the entire road surface wet or
paved.
Water Quality
● Site effluent should be discharged
in accordance with the discharge licence.
● The site should be confined and
properly maintained to avoid silt runoff.
● Chemicals will always be stored on
drip trays or in bunded areas.
Waste Management
● The chemical waste storage area
should be clearly labelled.
● General refuse should be stored in
enclosed bins or compaction units separate from C&D
and chemical wastes.
7.1 Record of non-compliance of Action
and Limit Levels
There was no breach of Action or
Limit Levels for Air Quality and Noise monitoring in the reporting month.
A summary is presented in Table 7.1
below.
Table 7.1:
Summary of Exceedances in Water Quality
|
Monitoring Date |
pH |
Dissolved Oxygen (DO) (mg/L) |
Turbidity (NTU) |
Suspended Solids (mg/L)(1) |
|
MP3 |
|
|
|
|
|
01/12/2023 |
7.6 |
5.9 |
10.5 |
11 |
|
06/12/2023 |
7.4 |
5.5 |
6.8 |
11 |
|
08/12/2023 |
7.3 |
5.7 |
9.9 |
10 |
|
11/12/2023 |
7.4 |
6.6 |
5.5 |
5 |
|
15/12/2023 |
7.3 |
6.4 |
7.6 |
9 |
|
Action Level |
<5.5 or >7.5 |
<6.85 |
>64 |
>65 |
|
Limit Level |
<4.0 or >8.0 |
<6.65 |
>67 |
>66 |
|
MP4 |
|
|
|
|
|
01/12/2023 |
7.1 |
5.2 |
44.0 |
58 |
|
04/12/2023 |
6.8 |
7.6 |
41.7 |
63 |
|
06/12/2023 |
7.2 |
3.8 |
32.9 |
48 |
|
Action Level |
<5.5 or >7.5 |
<3.91 |
>60 |
>50 |
|
Limit Level |
<4.0 or >8.0 |
<3.82 |
>64 |
>53 |
Notes:
(1)
“<2”: Value is too low to indicate (<2mg/L).
(2) For the Limit
Level of DO, 1-percentile of baseline data is adopted as it is greater than
2mg/L. (Refer to Baseline
Monitoring Report)
(3) Values in Bold
indicate Action Level exceedance.
(4) Values Underlined
and in Bold indicate Limit Level exceedance.
7.2 Record on Environmental Complaints Received
No environmental complaint was
received during the reporting month.
7.3
Record
on Notifications of Summons and Successful Prosecution
No notifications of summons or
successful prosecution were received the reporting month.
7.4
Review
of Reasons for and Implications of Non-compliance, Complaints, Summons and
Prosecutions
Non-compliance
Investigations have been carried out
to identify the causes of the water quality exceedances.
The investigation findings are
presented in Section 3.2.3.1. It was concluded that the above-mentioned
exceedances were unlikely to be due to the construction works and therefore not
considered to be related to the project.
Complaints,
Summons and Prosecutions
Not applicable for this reporting
month.
7.5
Follow-up
Actions Taken
Non-compliance
The Event and Action Plan has been
followed. Although it is considered that the exceedances were not related to
the Project, the Contractor was reminded to implement the water quality mitigation
measures in accordance with the recommendation stated in Section 5.6.1 – 5.6.4
of the EIA Report as far as practicable, regular spot checks would be conducted
on the nearby discharge by the Contractor and he would inform the ET for
investigation.
Complaints,
Summons and Prosecutions
Not applicable for this reporting
month.
7.6
Cumulative
Statistics for Complaints, Notifications of Summons and Successful Prosecutions
Cumulative statistics for
complaints, notifications of summons and successful prosecutions for the
Project account for period starting from the date of commencement of
construction (i.e., 12 May 2010) to the end of the reporting month and are
summarized in Table 7.2 below.
Table
7.2: Statistics for Complaints, Notifications of Summons and Successful
Prosecution
|
Reporting Period |
Cumulative Statistics |
||
|
Complaints |
Notifications of Summons |
Successful Prosecutions |
|
|
This reporting month (December 2023) |
0 |
0 |
0 |
|
From 12 May 2010 to end of the reporting month (December 2023) |
8 |
0 |
0 |
8.1 Site Preparatory Works and
Construction Works for the Coming Month
Site works to be commissioned in the
coming month include:
● Regular maintenance work for the
Wetland Restoration Area (including adjusting the water level, if required, and
removal of unwanted species in the pond)
● No heavy construction works
8.2
Key
Issues for the Coming Months
Key issues to be considered in the
coming three months include:
● Provision of water spraying or dust
suppression chemical to prevent generation of dust from activities on-site and
the haul road during dry weather conditions;
● Provision of wheel washing
facilities at vehicle exit point;
● Generation and treatment of site surface
runoffs and wastewater from activities on-site and during wet weather conditions;
● Sorting, recycling, storage and
disposal of general refuse and construction waste from activities on-site; and
● Management of chemicals and
avoidance of oil spillage on-site and to the drainage system.
8.3
Monitoring
Schedule for the Coming Month
The environmental site inspection
and environmental monitoring will be continued in the coming month.
Impact monitoring for air, noise, water quality, ecology
and landscape and visual in accordance with the approved EM&A Manual has
commenced since 12 May 2010. The tentative monitoring schedule for December
2023 is shown in the Table 8.1.
Table
8.1: Tentative Environmental Monitoring and Audit Schedule for the Next
Reporting Month
8.4 Conclusions and Recommendations
8.4.1 Conclusions
The EM&A programme as
recommended in the EM&A manual has been undertaken in the reporting month
since 12 May 2010.
Monitoring of Air Quality, Noise,
Water Quality, Ecology and Landscape and Visual impacts due to the Project was
under way. In particular, the 1-hr TSP, 24-hr TSP, noise level (as Leq) and water quality parameters (such as pH,
DO, turbidity and SS) under monitoring have been checked against established
Action and Limit levels.
There was no breach of Action or
Limit Levels for Air Quality and Noise monitoring in the reporting month.
During December 2023, a total of one Action Level and eight Limit Level
exceedances for water quality were observed. One Action Level exceedance of pH
and five Limit Level exceedances of DO were recorded at MP3; one Limit Level
exceedance of DO and two Limit Level exceedances of SS were recorded at MP4.
8.4.2 Recommendations
With considerations on the
construction activities and environment, the following recommendations were
provided:
Air Quality
● All stockpiles should be covered by
tarpaulin or kept wet by water spraying;
● All vehicles should be washed to
remove any dusty materials before leaving the construction sites;
● The portion of road leading the
construction site that is within 30m of a designated vehicle entrance or exit
should be kept clear of dusty materials;
● During the dry season, sufficient
water spraying should be provided at haul road to reduce dust emission; and
● Ensure proper functioning of the
wheel wash facility.
Noise
● Mobile plant should be sited as far
away from NSRs as possible;
● Plant known to emit noise strongly
in one direction should be orientated to direct noise away from the NSRs; and
● The construction activities should
be better scheduled to reduce noise nuisance.
Water Quality
● Effluent should be discharged in
accordance with the discharge licence conditions;
● Soil contaminated with
chemicals/oils should be removed from site and the voids should be created
filled with suitable materials; and
● Silt and debris should be removed
from the temporary drainage channel regularly.
Waste Management
● General refuse should be stored in
enclosed bins or compaction units separate from C&D
and chemical wastes to minimise odour, pest and litter
impacts.
● Reuse the excavated materials as far
as practical to reduce the amount of waste disposal;
● C&D waste should be segregated and
stored in different containers to other wastes to encourage the re-use or
recycling of materials and their proper disposal;
● Ensure drip trays are provided for
chemical containers to prevent leakage or soil contamination;
● All plants and vehicles should be
properly maintained to prevent oil leakage; and
● Oil stains on soil should be cleared
by disposal of contaminated soil.
9
References
9.1
List
of References
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