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Basic dataStandard ID: HJ 442.9-2020 (HJ442.9-2020)Description (Translated English): (Technical Specifications for Environmental Monitoring in Coastal Seas - Part 9: Emergency and Special Monitoring in Coastal Seas) Sector / Industry: Environmental Protection Industry Standard Classification of Chinese Standard: Z06 Classification of International Standard: 13.020 Word Count Estimation: 12,163 Date of Issue: 2020-12-16 Date of Implementation: 2021-03-01 Older Standard (superseded by this standard): HJ 442-2008 Regulation (derived from): Ministry of Ecology and Environment Announcement No. 66 [2020] Issuing agency(ies): Ministry of Ecology and Environment HJ 442.9-2020: (Technical Specifications for Environmental Monitoring in Coastal Seas - Part 9: Emergency and Special Monitoring in Coastal Seas)---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order. (Technical Specifications for Environmental Monitoring in Coastal Seas Part 9 Emergency and Special Monitoring in Coastal Seas) National Environmental Protection Standards of the People's Republic of China Replace HJ 442-2008 Technical specifications for environmental monitoring in coastal waters Part IX Emergency and Special Monitoring in Coastal Waters Technical specification for offshore environmental monitoring Part 9 emergency monitoring and special subject monitoring 2020-12-16 release 2021-03-01 implementation Issued by the Ministry of Ecology and Environment i table of contents Foreword...Ⅱ 1 Scope of application...1 2 Normative references...1 3 Terms and definitions...1 4 Emergency monitoring in coastal waters...2 5 Thematic monitoring of coastal waters...6 ForewordTo implement the Environmental Protection Law of the People’s Republic of China, the Marine Environmental Protection Law of the People’s Republic of China, and the People’s Republic of China Regulations of the People’s Republic of China on the Prevention and Control of Land-Source Pollutants Pollution and Damage to the Marine Environment “Regulations on the Management of Environmental Pollution Damage to the Marine Environment” and the “Administrative Measures for Environmental Functional Zones in Coastal Sea Areas” to regulate the ecological environment Environmental quality monitoring, protect the ecological environment, and ensure the scientific, accurate, systematic, and feasible Comparability and representativeness, formulate this standard. This standard was first published in.2008.The original standard drafting unit was China Environmental Monitoring Station and Zhoushan Ocean Ecological environment monitoring station. This is the first revision. The revised standard consists of the following ten parts. Part One General Provisions Part Two. Data Processing and Information Management Part III Water Quality Monitoring of Inshore Waters Part Four. Monitoring of Sediment in Coastal Seas Part V Monitoring of Biological Quality in Coastal Waters Part VI Biological Monitoring in Inshore Waters Part VII Monitoring of rivers entering the sea Part 8.Monitoring of Direct Discharge of Sea Pollution Sources and Impact on the Water Environment of Inshore Waters Part IX Emergency and Special Monitoring in Coastal Waters Part 10 Evaluation and Report This standard, as the ninth part of the revised standard, is aimed at monitoring and special monitoring of environmental emergencies in coastal waters. Work such as the formulation and revision of plans and plans, sample collection, analysis and quality control, mainly revised the following aspects. - Added the definition and related content of Green Tide; --The preparation and revision of emergency plans have been added, and the requirements for selection of monitoring methods and adjustment of emergency monitoring frequency have been improved; - Cancellation of scientific research monitoring related content and definition of habitat loss. From the date of implementation of this standard, the "Environmental Monitoring Specifications for Coastal Sea Areas" (HJ 442-2008) shall be abolished. This standard was formulated by the Department of Ecological Environment Monitoring and the Department of Regulations and Standards of the Ministry of Ecology and Environment. Drafting organizations of this standard. China Environmental Monitoring Station, Zhoushan Marine Ecological Environmental Monitoring Station of Zhejiang Province, Tianjin Ecological Environmental Monitoring Center, Dalian Ecological Environmental Monitoring Center of Liaoning Province. This standard was approved by the Ministry of Ecology and Environment on December 16, 2020. This standard will be implemented on March 1, 2021. This standard is interpreted by the Ministry of Ecology and Environment.1 Technical specifications for environmental monitoring in coastal watersPart IX Emergency and Special Monitoring in Coastal Waters1 Scope of applicationThis standard specifies the basic requirements for environmental emergencies and special monitoring in coastal waters. This standard is applicable to the formulation and revision of plans and plans, sample Collection, analysis and quality control work.2 Normative referencesThe content of this standard refers to the terms in the following documents. For undated references, the valid version is applicable to This standard. GB 3097 sea water quality standard GB/T 12763.2 Marine Survey Specification Part 2 Marine Hydrological Observation GB/T 12763.3 Marine Survey Specification Part 3 Marine Meteorological Observation GB/T 17826 Marine life classification code HJ/T 82 Technical Specification for Division of Environmental Function Zones in Coastal Waters HJ 442.1 The general rules of the first part of the technical specifications for environmental monitoring in coastal waters HJ 442.3 Technical Specifications for Environmental Monitoring in Coastal Seas Part 3 Water Quality Monitoring in Coastal Seas HJ 442.4 Technical Specification for Environmental Monitoring in Coastal Seas Part 4 Monitoring of Sediment in Coastal Seas HJ 442.5 Technical Specification for Environmental Monitoring in Coastal Seas Part 5 Monitoring of Biological Quality in Coastal Seas HJ 442.6 Technical Specification for Environmental Monitoring in Coastal Seas Part 6 Biological Monitoring in Coastal Seas HJ 442.7 Technical Specifications for Environmental Monitoring in Coastal Seas Part 7 Monitoring of Rivers Entering the Sea HJ 442.8 Technical Specification for Environmental Monitoring in Coastal Seas Part VIII Direct Discharge of Sea Pollution Sources and Water Environment in Coastal Seas Impact monitoring HJ 589 Technical Specification for Emergency Monitoring of Environmental Emergency HJ 730 Technical Specification for Layout of Environmental Monitoring Points in Coastal Waters HY/T 069 Red Tide Monitoring Technical Regulations HY/T 095 Technical Guidelines for Assessment of Marine Oil Spill Ecological Damage3 Terms and definitionsThe following terms and definitions apply to this standard. 3.1 Red tide Some microalgae, protozoa or bacteria in the ocean multiply or accumulate violently under certain environmental conditions to reach a certain level of water 2 level, an ecological abnormal phenomenon that causes the water body to change color or harm other organisms in the ocean. Red tide has many colors. 3.2 Red-tide organisms Creatures that can multiply and cause red tides are called red tide creatures. Red tide organisms include plankton, protozoa And bacteria, among them, the most harmful red tide organisms are dinoflagellate, followed by diatoms, cyanobacteria, golden algae, cryptophytes and protozoa Wait. 3.3 Harmful algal bloom (HAB) toxins Natural organic compounds produced by toxic red tide organisms. The more harmful toxins include paralytic shellfish poisoning (PSP), abdominal Digestive shellfish poisoning (DSP), neuropathic shellfish poisoning (NSP), CFP toxin (CFP), amnestic shellfish poisoning (ASP) and blue thin Bacterial toxins (cyanobacterial toxin, CTP), etc. 3.4 Red tide tracking monitoring Tracking, sampling, and analyzing the whole process of the formed red tide, the purpose is to understand the occurrence and development of red tide organisms And drift and the distribution and changes of red tide toxins. 3.5 Marine macroalgae Visible to the naked eye, most of them are multicellular filamentous, membranous, tubular or frond plants, mainly divided into Four major categories of red algae, cyanobacteria, green algae and brown algae. 3.6 Green tide Some large seaweeds (such as Enteromorpha) in the ocean float and proliferate or accumulate to a certain level under certain environmental conditions. A phenomenon that causes the marine ecological environment to be abnormal.4 Emergency monitoring in coastal waters4.1 Emergency monitoring plan In order to do a good job in the environmental emergency monitoring of the coastal waters, relevant monitoring agencies should prepare for the environmental emergency monitoring of the coastal waters. Incorporated into the environmental emergency monitoring plan, according to the nearshore sea area monitoring in the area in charge and the type and characteristics of possible accidents, Make preparations for timely mobilization of personnel, equipment and monitoring guarantees. For the larger monitoring agencies in charge of When making a case, consider the overall plan for other monitoring agencies in the region to participate in emergency monitoring. When a sudden ring occurs in the coastal waters In the event of an environmental incident, emergency monitoring will be organized in accordance with the plan. 4.2 Basic requirements of emergency monitoring plan 4.2.1 Scheme preparation and revision When an accident occurs, according to the characteristics of emergency monitoring of marine pollution accidents, in accordance with the relevant requirements of HJ 442.1, and refer to HJ 589, prepare a monitoring plan for specific emergency accidents; according to the accident development and handling process, the monitoring plan shall be timely Revised until the end of the emergency state of the accident. 34.2.2 Principles of point layout According to the type of pollution accident, the characteristics of the area, the degree and scope of pollution, the emergency monitoring points in the coastal waters are in accordance with HJ According to the relevant regulations of 730, the emergency accident source monitoring point shall be arranged at the pollution discharge position of the emergency accident, and set in the upstream direction of the ocean current Contrasting with monitoring points, selecting daily monitoring environmental quality monitoring points, monitoring points for coastal sea functional areas, and marine functional areas Emergency monitoring points are set up at monitoring points and beach monitoring points; according to the characteristics of the accident area, hydrology and meteorology And the distribution of selected monitoring points, determine the additional emergency monitoring points, and the selected emergency monitoring points will be regarded as the pollution impact degree Monitoring points, accident recovery monitoring points are selected according to actual conditions in emergency monitoring points, among which are not polluted The point is not used as an accident recovery monitoring point. For pollution accidents with a large impact, based on the needs of emergency accident handling and impact assessment, the basis selected at the above points On this basis, combined with the selected monitoring points, the grids are arranged in a manner of 2 km×2 km to 10 km×10 km. must When necessary, according to the accident development and disposal process, increase the monitoring points of pollution impact degree, etc. 4.2.3 Principles for determining the types, factors and frequency of emergency monitoring Common types of emergency monitoring include red tides, large seaweeds, oil spills, and hazardous chemical leaks. The factors and frequency of emergency monitoring are based on the types of emergency monitoring, the function of the environmental area, and the location of the accident. The actual pollution situation, geographical conditions, etc., strive to obtain the most representative with the least monitoring factors and the lowest sampling frequency The samples to meet the requirements of reflecting the degree of environmental pollution, the degree of impact and the scope of impact, and to ensure that it is feasible. among them. a) Emergency monitoring factors. in principle, according to the type of pollution accident, pollution factor, impact scope and impact time, etc. Determine, including the main pollution factors or the factors that reflect the characteristics of pollution or environmental impact of emergency events; b) Frequency of emergency monitoring. The frequency of monitoring starts from the time of the incident, with the principle of dense first and then sparse, and based on pollution accidents. The type, scope of influence, time of influence, weather and sea conditions are determined and adjusted in time. 4.3 Red tide and large seaweed emergency monitoring 4.3.1 Emergency investigation and monitoring preparations for red tides and large seaweeds In daily work, collect and sort out the ecological environment, geographical location, social economy, relevant organisms and Monitoring and research data and information on chemical elements, summarizing the occurrence of red tide and large seaweed green tide in the monitoring area In addition, summarize the types of algae where red tides and green tides occur. After receiving information about the occurrence of red tides and large seaweed green tides, they should immediately organize and carry out on-site investigations, and collect and organize Relevant data of the sea area, using remote sensing monitoring, species identification, sample analysis, drift path prediction and other methods and technologies to check Identify the red tide and large seaweed's influence range, density, drift process, etc.; at the same time, carry out physical and chemical, biological and other indicators tests ready. 4.3.2 Red tide and large seaweed monitoring items and monitoring factors Red tide and large seaweed emergency monitoring factors, according to the relevant regulations of HY/T 069, the occurrence of red tide and large seaweed Physical conditions, mainly including the biological elements and types of large seaweeds, sensory indicators, influence range and distribution, meteorology and water Elements of culture and water chemistry, etc., select toxin items according to the situation. include. a) Biological elements. phytoplankton type and quantity, zooplankton type and quantity, chlorophyll a; 4b) Observation items. red tide location and scope, visibility sampling, color, taste, smell and floating objects; c) Hydrometeorological elements. water depth, ocean current velocity, flow direction, sunshine, wind speed, wind direction, temperature, air pressure, weather Phenomenon, rainfall, water temperature, transparency; d) Water chemistry elements. pH, salinity, dissolved oxygen, active phosphate, active silicate, inorganic nitrogen (nitrate Salt nitrogen, nitrite nitrogen, ammonia nitrogen), the selected test items are suspended solids and chemical oxygen demand; e) Other optional test items. paralytic shellfish poisoning (PSP), diarrheal shellfish poisoning (DSP), neurogenic shellfish poisoning (NSP), Amnesic shellfish poisoning (ASP), CFP (CFP), sediment cysts, types and quantities of benthic microalgae, Benthic species and quantity, total number of heterotrophic bacteria, iron, manganese, VB1, VB12. The large seaweed samples are mainly qualitatively monitored, and the large seaweeds are identified as species according to GB/T 17826.Combine reality Ability, should use or entrust competent agencies to apply satellite remote sensing and other monitoring technologies to monitor the occurrence of large-scale algae disasters. Comprehensive and three-dimensional monitoring of accumulation and drift status. 4.3.3 Monitoring frequency The frequency of emergency monitoring of red tides or large seaweeds is determined according to the scope of occurrence and affected areas. Generally carry out continuous tracking monitoring, Sampling is performed once a day, if necessary and weather and sea conditions permit, it can be increased to twice a day until it disappears; When tides and large seaweeds occur for a long time or when the occurrence area is large, the interval can be extended appropriately, but generally not less than 2 days 1 time. 4.4 Emergency monitoring of oil spill 4.4.1 Oil spill investigation and monitoring preparation In daily work, we should collect and sort out the ecological environment, geographic location, socio-economic, and primitive Regarding monitoring data and other materials, organize investigations into fixed and mobile risk sources and related information that may occur in oil spill accidents. After receiving the information of the oil spill, the on-site investigation should be organized immediately, combined with remote sensing monitoring, oil spill identification, Means or techniques such as sample analysis and oil spill drift path prediction, to find out the source, amount, spread and process of oil spill; At the same time, prepare for the monitoring of physical, chemical and biological indicators. Oil spill accident monitoring mainly includes oil spill source determination, oil spill dynamic monitoring, emergency response effect, public investigation, etc. Test HY/T 095 corresponding regulations. 4.4.2 Monitoring items and monitoring factors The oil spill emergency monitoring items or monitoring factors are determined according to actual conditions, including. a) Remote sensing monitoring. using satellite remote sensing or aerial remote sensing to quickly define the area and scope of the oil spill, and calculate the oil spill Contaminated area; estimate the large amount of oil spill based on on-site monitoring, remote sensing technology, oil spill drift numerical simulation technology, etc. small; b) Hydrometeorological elements. including water depth, ocean current velocity, flow direction, wind speed, wind direction, water temperature, transparency, water color, Tides, when conditions permit, are measured at the same time as required items; c) Water chemistry elements. compulsory test items include petroleum, selective test items include polycyclic aromatic hydrocarbons (PAHs), oil spill types, Benzene, volatile phenol, sulfide, pH, salinity, dissolved oxygen, chemical oxygen demand, biochemical oxygen demand and suspension Thing 5d) Biological elements. selected test items, including phytoplankton species and quantity, zooplankton species and quantity, Type benthic organisms, intertidal organisms, microorganisms, swimming organisms, rare and endangered organisms; e) Sediment elements. the required test items are petroleum, and the selected test items include organic carbon, redox potential, sulfide, Polycyclic aromatic hydrocarbons, benzene series. 4.4.3 Monitoring frequency The frequency of monitoring should be conducted in a timely manner after the oil spill accident occurs; according to the investigation, combined with the affected sea area The area, extent of damage, weather and sea conditions, etc. are regularly tracked and monitored, and the frequency of tracking Generally, it is monitored once a day, and can be increased to 2 times a day when necessary and weather and sea conditions permit. 4.5 Emergency monitoring of hazardous chemical leakage 4.5.1 Investigation and monitoring preparations for hazardous chemical leakage accidents Organize and carry out investigations of risk sources of hazardous chemicals leakage accidents, mainly including Identification of hazardous chemicals and analysis of hazard degree, geographic environment investigation, data collection, emergency measures and control situation after accident Situation investigation and public investigation. After a hazardous chemical leakage accident occurs, an on-site investigation should be carried out immediately to determine the source of the sp......Tips & Frequently Asked Questions:Question 1: How long will the true-PDF of HJ 442.9-2020_English be delivered?Answer: Upon your order, we will start to translate HJ 442.9-2020_English as soon as possible, and keep you informed of the progress. The lead time is typically 1 ~ 3 working days. The lengthier the document the longer the lead time.Question 2: Can I share the purchased PDF of HJ 442.9-2020_English with my colleagues?Answer: Yes. The purchased PDF of HJ 442.9-2020_English will be deemed to be sold to your employer/organization who actually pays for it, including your colleagues and your employer's intranet.Question 3: Does the price include tax/VAT?Answer: Yes. 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