Agreement No. CE 59/2020 (EP)

Environmental Monitoring and

Audit for Disposal Facility to

the East of Sha Chau (2021-

2026) – Investigation

 

 

Monthly EM&A Report for

Contaminated Mud Pits to the East of Sha Chau

– August 2022

 

September 2022

 

 

Civil Engineering and Development Department

 

 

 

Mott MacDonald

3/F Manulife Place

348 Kwun Tong Road

Kwun Tong

Kowloon

Hong Kong

 

T +852 2828 5757

mottmac.hk

 

 

 

 

 

 

 

 


  

 

Issue and Revision Record

Revision

Date

Originator

Checker

Approver

Description

A

Sep 2022

Various

Thomas Chan

Eric Ching

Revision A of Submission

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Document reference:

423134 | 06/05/17 | A

 

Information class:

Standard

 

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       Introduction

1.1      Background

1.2      Reporting Period

1.3      Details of Sampling and Laboratory Testing Activities

1.4      Details of Outstanding Sampling or Analysis 

2       Brief Discussion of Monitoring Results for ESC CMP V

2.1      Introduction

2.2      Water Column Profiling of ESC CMP Vb – in August 2022

2.2.1        In-situ Measurements

2.2.2        Laboratory Measurements for Suspended Solids (SS)

2.3      Routine Water Quality Monitoring of ESC CMPs – in July 2022 

2.4      Routine Water Quality Monitoring of ESC CMPs – in August 2022

2.4.1        In-situ Measurements

2.4.2        Laboratory Measurements

2.5      Pit Specific Sediment Chemistry of ESC CMP Vb – in August 2022

2.6      Cumulative Impact Sediment Chemistry of ESC CMPs – in August 2022

2.7      Sediment Chemistry after a Major Storm of ESC CMP V – in August 2022

3       Future Key Issues 

3.1      Activities Scheduled for the Next Reporting Period

3.2      Study Programme 

 

Tables

Table 1.1

Works Schedule for ESC CMP V Works Schedule for ESC CMP V

 

Figures

Figure 2.1

Routine & Capping Water Quality Sampling Stations (Ebb-Tide) for ESC CMPs

Figure 2.2

Pit Specific Sediment Quality Monitoring Stations for CMP V

Figure 2.3

Cumulative Impact Sediment Chemistry Monitoring Stations of ESC CMPs

Figure 2.4

Sediment Chemistry after A Major Storm Monitoring Stations for ESC CMPs

Figure 2.5

Track of Tropical Cyclone Ma-on


 

Appendices

Appendix A

Sampling Schedule

Appendix B

Water Quality Monitoring Results

Appendix C

Graphical Presentations

Appendix D

Study Programme

 

 

 

 


1         Introduction

1.1         Background

The Civil Engineering and Development Department (CEDD) is managing a number of marine disposal facilities in Hong Kong waters, including the Contaminated Mud Pits (CMPs) to the East of Sha Chau (ESC) for the disposal of contaminated sediment, and various open-sea disposal grounds located to the South of Cheung Chau (SCC), East of Tung Lung Chau (ETLC) and East of Ninepins (ENP) for the disposal of uncontaminated sediment.

Environmental Permits (EPs) (Ref. No. EP-312/2008/A) was issued by the Environmental Protection Department (EPD) to the CEDD, the Permit Holder, on 28 November 2008 for the Project - Disposal of Contaminated Sediment – Dredging, Management and Capping of Sediment Disposal Facility at Sha Chau.

Under the requirements of the EP, EM&A programmes which encompass water and sediment chemistry, fisheries assessment, tissue and whole body analysis, sediment toxicity and benthic recolonisation studies as set out in the EM&A Manuals are required to be implemented. EM&A programmes have been continuously carried out during the operation of the CMPs at ESC. A review of the collection and analysis of such environmental data from the monitoring programme demonstrated that there had not been any adverse environmental impacts resulting from disposal activities.[1],[2] The current programme will assess the impacts resulting from dredging, disposal and capping operations of CMP V.

A proposal on the change of number of sample replication of water quality and sediment monitoring as well as combination of routine water quality monitoring and water quality monitoring during capping operation was submitted to EPD and agreed by EPD on 3 December 2020. The proposed changes have been effective for the EM&A activities since December 2020. In early 2022, after implementing the Phase 1 optimisation for at least one year, a further data review was conducted. The monitoring data has been reviewed and demonstrated that the data robustness and representativeness are maintained. Therefore, a technical note presenting the data review results served as a supplementary information was submitted to EPD and presented that Phase 2 optimization of sample replication of water quality and sediment monitoring for the Project will be implemented in 2022. EPD expressed no comment on the review and note the implementation of Phase 2 optimization of sample replication on 18 May 2022, and thus this optimization has been effective for the EM&A activities since July 2022.

The latest sampling schedule is provided in Appendix A.

The present EM&A programme under Agreement No. CE 59/2020 (EP) covers the dredging, disposal and capping operations of the ESC CMP V (see Appendix A for the EM&A programme.) Detailed works schedule for ESC CMP V is shown in Table 1.1. In August 2022, the following works were undertaken:

    Disposal of contaminated mud at ESC CMP Vb; and

    Capping operations at ESC CMP Vd.

Table 1.1: Works Schedule for ESC CMP V

1.2         Reporting Period

This Monthly EM&A Report for Contaminated Mud Pits to the East of Sha Chau – August 2022 covers the EM&A activities for the reporting period of August 2022 (from 1 to 31 August 2022).

1.3         Details of Sampling and Laboratory Testing Activities

The following monitoring activities were undertaken for ESC CMP V during the reporting period:

    Water Column Profiling of ESC CMP Vb;

    Routine Water Quality Monitoring of ESC CMPs;

    Pit Specific Sediment Chemistry of ESC CMP Vb;

    Cumulative Impact Sediment Chemistry of ESC CMPs;

    Sediment Chemistry after a Major Storm of ESC CMP V; and.

    Sediment Toxicity Tests of ESC CMPs.

    Demersal Trawling for ESC CMPs.

1.4         Details of Outstanding Sampling or Analysis

Laboratory analysis data of metals and metalloid for Routine Water Quality Monitoring of ESC CMPs in August 2022 are still under consolidation, which will be presented in the Monthly EM&A Report of the next reporting period.

The following analyses are in progress and will be presented in the corresponding quarterly report:

    Species identification of the biota samples collection from Demersal Trawling for ESC CMPs in August 20212; and

    Sediment Toxicity Tests of ESC CMPs in August 2022.

 

 

 

2         Brief Discussion of Monitoring Results for ESC CMP V

2.1         Introduction

This section presents a brief discussion of the results obtained from the following monitoring activities for ESC CMP V during the reporting period:

    Water Column Profiling of ESC CMP Vb;

    Routine Water Quality Monitoring of ESC CMPs;

    Pit Specific Sediment Chemistry of ESC CMP Vb;

    Cumulative Impact Sediment Chemistry of ESC CMPs; and

    Sediment Chemistry after a Major Storm of ESC CMP V.

2.2         Water Column Profiling of ESC CMP Vb – in August 2022

Water Column Profiling was undertaken at a total of two sampling stations (Upstream and Downstream stations) on 17 August 2022. The monitoring results have been assessed for compliance with the Water Quality Objectives (WQOs) set by Environmental Protection Department (EPD). This consists of a review of the EPD routine water quality monitoring data for the wet season period (April to October) of 2011 – 2020 from stations in the North Western Water Control Zone (WCZ), where the ESC CMPs are located.[3] For Salinity, the averaged value obtained from the Reference (Upstream) station was used for the basis as the WQO. Levels of Dissolved Oxygen (DO) and Turbidity were also assessed for compliance with the Action and Limit Levels (see Table B1 of Appendix B for details).

2.2.1          In-situ Measurements

Analyses of results for August 2022 indicated that levels of Salinity, pH and DO complied with the WQOs at both Downstream and Upstream stations (Table B2 of Appendix B). Levels of DO and Turbidity at all stations complied with the Action and Limit Levels (Tables B1 and B2 of Appendix B).

2.2.2          Laboratory Measurements for Suspended Solids (SS)

Analyses of results for August 2022 indicated that the SS level at both Downstream and Upstream stations complied with the WQO and the Action and Limit Levels (Tables B1 and B2 of Appendix B).

Overall, the monitoring results indicated that the mud disposal operation at ESC CMP Vb did not appear to cause any deterioration in water quality during this reporting period.

2.3         Routine Water Quality Monitoring of ESC CMPs – in July 2022

Further to Section 2.3.2 of the Monthly EM&A Report for Contaminated Mud Pits to the East of Sha Chau – July 2022, laboratory analysis data of dissolved metals and metalloid in Routine Water Quality Monitoring of ESC CMPs conducted in July 2022 is presented in Tables B4 of Appendix B and Figures 1 of Appendix C. The laboratory analysis of samples indicated that the concentrations of Arsenic, Zinc, Cadmium, Chromium, Copper, Mercury and Nickel were detected in the samples at all stations and their concentrations of most metals and metalloids were generally similar across stations, except the concentration of Zinc which was lower at Intermediate (INF) stations.

Laboratory analysis data of Nutrients and Suspended Solid in Routine Water Quality Monitoring of ESC CMPs in July 2022 is presented again in Table B5 of Appendix B for easy reference.

Overall, results of the Routine Water Quality Monitoring which indicated that the disposal and capping operation at ESC CMPs did not appear to cause any unacceptable deterioration in water quality in July 2022. Detailed statistical analysis will be presented in the Quarterly EM&A Report to investigate any spatial and temporal trends of potential concern.

2.4         Routine Water Quality Monitoring of ESC CMPs – in August 2022

Routine Water Quality Monitoring of ESC CMPs was undertaken on 22 August 2022. The monitoring results have been assessed for compliance with the WQOs (see Section 2.2 above for details). The monitoring results are shown in Tables B6 and B7 of Appendix B and Figures 2 to 10 of Appendix C. A total of sixteen (16) monitoring stations were sampled in August 2022 as shown in Figure 2.1.

2.4.1          In-situ Measurements

Graphical presentation of the monitoring results (Temperature, DO, pH, Salinity and Turbidity) is shown in Figures 2 to 7 of Appendix C. Analyses of results indicated that the levels of pH, DO and Salinities complied with the WQOs at all stations in August 2022.

The levels of DO and Turbidity complied with the Action and Limit Levels at all stations (Table B3 of Appendix B; Figures 4 and 7 of Appendix C).

Overall, in-situ measurement results of the Routine Water Quality Monitoring indicated that the disposal and capping operation at ESC CMPs did not appear to cause any unacceptable impacts in water quality in August 2022.

2.4.2          Laboratory Measurements

Refer to Section 1.4, laboratory analysis data of metals and metalloid in August 2022 are still under consolidation, which will be presented in the Monthly EM&A Report of the next reporting period.

For nutrients, concentrations of Total Inorganic Nitrogen (TIN) were higher than the WQO (0.5 mg/L) at Reference (RFE), Impact (IPE) and Intermediate (INE) stations (Table B7 of Appendix B; Figure 8 of Appendix C). It should be noted that due to the effect of the Pearl River, the North Western WCZ has historically experienced higher levels of TIN.[4] Therefore, the exceedances of TIN WQO at these stations are unlikely to be caused by the disposal operation at ESC CMPs. The concentration of Ammonia Nitrogen (NH3-N) was slightly higher at Impact (IPE) station (Table B7 of Appendix B; Figure 8 of Appendix C). The concentrations of Biochemical Oxygen Demand (BOD5) were higher at Reference (RFE) and Intermediate (INE) station (Table B7 of Appendix B; Figure 9 of Appendix C).

Analyses of results for the reporting period indicated that the SS levels at all stations complied with the wet season WQO (12.0 mg/L) and the Action and Limit Levels (Tables B1 and B7 of Appendix B; Figure 10 of Appendix C).

Based on the available results of the Routine Water Quality Monitoring which indicated that the disposal and capping operation at ESC CMPs did not appear to cause any unacceptable deterioration in water quality during the reporting period. Detailed statistical analysis will be presented in the Quarterly EM&A Report to investigate any spatial and temporal trends of potential concern.

2.5         Pit Specific Sediment Chemistry of ESC CMP Vb – in August 2022

Monitoring locations for Pit Specific Sediment Chemistry for ESC CMP Vb are shown in Figure 2.2. A total of six (6) monitoring stations were sampled on 19 August 2022.

The concentrations of most inorganic contaminants were lower than the Lower Chemical Exceedance Levels (LCELs) at most stations, except for Arsenic. The concentrations of Arsenic were higher than the LCEL at Pit-Edge station ESC-NECA and Active-Pit stations ESC-NPCA, ESC-NPCB (Figures 11 and 12 of Appendix C).

Whilst the average concentration of Arsenic in the Earth’s crust is generally ~2mg/kg, significantly higher Arsenic concentrations (median = 14 mg/kg) have been recorded in Hong Kong’s onshore sediments.[5] It is presumed that the natural concentrations of Arsenic are similar in onshore and offshore sediments,[6] and relatively high Arsenic levels may thus occur throughout Hong Kong. Therefore, the LCEL exceedances of Arsenic are unlikely to be caused by the disposal operations at ESC CMP Vb but rather as a result of naturally occurring deposits.

For organic contaminants, the concentration of Total Organic Carbon (TOC) was higher at Active-Pit station ESC-NPCB (Figure 13 of Appendix C). The concentrations of Low Molecular Weight Polycyclic Aromatic Hydrocarbons (PAHs) were similar across all stations, while concentrations of High Molecular Weight Polycyclic Aromatic Hydrocarbons (PAHs) was higher at Active Pit station ESC-NPCB (Figure 14 of Appendix C). The concentrations of Tributyltin (TBT) were similar across all stations (Figure 15 of Appendix C). The concentrations of Total Polychlorinated Biphenyls (PCBs), Total dichloro-diphenyl-trichloroethane (DDT) and 4,4’-dichlorodiphenyldichloroethylene (DDE) were below the limit of reporting at all stations during the reporting period.

Overall, there is no evidence indicating any unacceptable environmental impacts to sediment quality outside the pit area as a result of the contaminated mud disposal operations at ESC CMP Vb during the reporting period.

Statistical analysis will be undertaken and presented in the corresponding Quarterly EM&A Report to investigate whether there are any unacceptable impacts in the area caused by the contaminated mud disposal.

2.6         Cumulative Impact Sediment Chemistry of ESC CMPs – in August 2022

Monitoring locations for Cumulative Impact Sediment Chemistry for ESC CMPs are shown in Figure 2.3.  A total of nine (9) monitoring stations were sampled on 18 August 2022.

Analyses of results for the Cumulative Impact Sediment Chemistry Monitoring indicated that the concentrations of most inorganic contaminants were below the LCEL at most stations during the reporting period, except concentrations of Arsenic were higher than the LCEL at Near-field station ESC-RNB1, Mid-field stations ESC-RMA, ESC-RMB, Far-field station ESC-RFB and Capped Pits station ESC-RCA1, as well as concentrations of Silver were higher than the LCEL at Ma Wan station MW1 (Figures 16 and 17 of Appendix C). As discussed in Section 2.4, the LCEL exceedances of Arsenic are unlikely to be caused by the disposal operations at ESC CMP Vb but rather as a result of naturally occurring deposits. While Ma Wan Station is comparatively apart from the Near-field, Mid-field, Far-field and Capped pits stations with no exceedance of LCEL in silver concentration, therefore, there is no evidence indicating the exceedances of Silver to be caused by the disposal operations at ESC CMP Vb.

For organic contaminants, the concentration of TOC was higher at Far-field station ESC-RFB and Ma Wan station MW1 (Figure 18 of Appendix C). The concentrations of High Molecular Weight PAHs were higher at Near-field station ESC-RNA and Mid-field station ESC-RMA (Figure 19 of Appendix C). The concentrations of TBT were higher at Ma Wan station MW1 (Figure 20 of Appendix C). The concentrations of Total PCBs, Total DDT, 4,4’-DDE and Low Molecular Weight PAHs were below the limit of reporting at all stations during the reporting period. 

Overall, there is no evidence indicating any unacceptable environmental impacts to sediment quality as a result of the contaminated mud disposal operations at ESC CMP Vb during the reporting period. Statistical analysis will be undertaken and presented in the corresponding Quarterly EM&A Report to investigate whether there are any unacceptable impacts in the area caused by the contaminated mud disposal.

2.7         Sediment Chemistry after a Major Storm of ESC CMP V – in August 2022

Sampling for Sediment Chemistry after a Major Storm Event was conducted at nine (9) monitoring stations (see Figure 2.4 for the locations of the monitoring stations) on 29 August 2022 after the visit of tropical cyclones Chaba, which led to the issue of No. 8 Gale or Storm Signal on 1 August 2022. The tracks of Ma-on are shown in Figure 2.5.

Figure 2.5: Track of Tropical Cyclone Ma-on (Source: Hong Kong Observatory)

Analyses of results for the Sediment Chemistry after a Major Storm indicated that the concentrations of all inorganic contaminants were below the LCEL in August 2022, except for Arsenic and Silver. The concentrations of Arsenic were higher than the LCEL at Near-field station ESC-RNB1, Mid-field station ESC-RMA, Far-field stations ESC-RFB and Capped Pit stations ESC-RCB1. The concentrations of Silver were higher than the LCEL at Ma Wan station MW1 (Figures 21 and 22 of Appendix C).

As discussed in Section 2.5, the LCEL exceedances of Arsenic are unlikely to be caused by the disposal operations at ESC CMP Vb but rather as a result of naturally occurring deposits. Also, refer to Section 2.6, there is no evidence indicating the exceedances of Silver to be caused by the disposal operations at ESC CMP Vb.

Overall, there appeared to be no evidence showing the failure of ESC CMP V in retaining disposed mud or causing contamination of sediments after the major storm event in August 2022.

3         Future Key Issues

3.1         Activities Scheduled for the Next Reporting Period

The following monitoring activities will be conducted in the next reporting period of September 2022 for ESC CMP V (see Appendix A for the sampling schedule):

    Water Column Profiling of ESC CMP Vb;

    Routine Water Quality Monitoring of ESC CMPs;

    Pit Specific Sediment Chemistry of ESC CMP Vb; and

    Demersal Trawling for ESC CMPs.

3.2         Study Programme

A summary of the Study Programme is presented in Appendix D.

 


[1] ERM (2013) Final Report. Submitted under Agreement No. CE 4/2009 (EP) Environmental Monitoring and Audit for Contaminated Mud Pit at East Sha Chau. For CEDD.

[2] ERM (2017) Final Report. Submitted under Agreement No. CE 23/2012 (EP) Environmental Monitoring and Audit for Contaminated Mud Pits to the South of The Brothers and at East Sha Chau (2012 - 2017). For CEDD.

[5] Sewell RJ (1999) Geochemical Atlas of Hong Kong. Geotechnical Engineering Office, Government of the Hong Kong Special Administrative Region

[6] Whiteside PGD (2000) Natural geochemistry and contamination of marine sediments in Hong Kong. In: The Urban Geology of Hong Kong (ed. Page A & Reels SJ). Geological Society of Hong Kong Bulletin No. 6, p109-121