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Method for monitoring environmental element pollution by transplanting fresh water bivalves

A technology for monitoring the environment of bivalve molluscs, applied in measuring devices, material analysis through electromagnetic means, instruments, etc., can solve the problems of sample germplasm quality differences, sample quantity uncertainty, and uneven specifications, and achieve consistent sample specifications , Small system error and good stability

Inactive Publication Date: 2012-05-30
FRESHWATER FISHERIES RES CENT OF CHINESE ACAD OF FISHERY SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, because field sampling may be limited by many factors (such as the number of samples is uncertain, the size is uneven, some samples cannot be collected in some waters to be investigated, and the germplasm quality of the samples may vary, etc.), there is an urgent need for in-situ monitoring in the field. On the basis of this, we have developed a standardized monitoring indicator organism that can be transplanted and recovered to investigate heavy metal pollution in various freshwater waters, in order to adapt to the "national" The target requirements of "establishing a technical system for water pollution monitoring, control and water environment quality improvement suitable for national conditions" proposed in the Eleventh Five-Year "Science and Technology Development Plan"
[0004] In the field of biological monitoring environment, bivalve mollusc colonization monitoring is still a brand-new technology, and there is no precedent for standardized colonization monitoring in freshwater environment

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0018] Embodiment 1: The method of the present invention for colonizing freshwater bivalve mollusks to monitor environmental element pollution adopts the following process steps:

[0019] Select size specifications: shell length: 14.5~17.5cm; shell height: 3.5~4.5cm; shell width: 12.0~15.0cm; shell weight: 350~600g, 19 pieces of uniform Hyriopsis mussels, 9 of which are collected In the breeding ponds of Gong'an County, Hubei Province, the other 10 mussels were derived from the same individuals raised in the above-mentioned breeding ponds, but they have been moved to the Tongzhuang River in the Three Gorges Reservoir area for one year.

[0020] The live mussels are first placed in aerated water for temporary cultivation to empty the intestines, and then measure the shell length: 14.5~17.5cm, shell height: 3.5~4.5cm, shell width: 12.0~15.0cm, weight with shell : 350~600g and other biological properties. Then obtain the soft tissue, weigh the soft tissue and store it in a refrigerat...

Embodiment 2

[0023] Embodiment 2: A method of the present invention for colonizing freshwater bivalve mollusks to monitor environmental element pollution adopts the following process steps:

[0024] Select size specifications: shell length: 14.5~17.5cm; shell height: 3.5~4.5cm; shell width: 12.0~15.0cm; shell weight: 350~600g, 19 pieces of uniform Hyriopsis mussels, 9 of which are collected In the breeding ponds of Gong'an County, Hubei Province, the other 10 mussels were derived from the same individuals raised in the above-mentioned breeding ponds, but they have been moved to the Tongzhuang River in the Three Gorges Reservoir area for one year.

[0025] The live mussels are first placed in aerated water for temporary cultivation to empty the intestines, and then measure the shell length: 14.5~17.5cm, shell height: 3.5~4.5cm, shell width: 12.0~15.0cm, weight with shell : 350~600g and other biological properties. Then the soft tissues were dissected to obtain the soft tissues, and the soft tis...

Embodiment 3

[0029] Example 3: A method for monitoring environmental element pollution of transplanted freshwater bivalves according to the present invention adopts the following process steps:

[0030] Select size specifications: shell length: 14.5~17.5cm; shell height: 3.5~4.5cm; shell width: 12.0~15.0cm; shell weight: 350~600g, 19 pieces of uniform Hyriopsis mussels, 9 of which are collected In the breeding ponds of Gong'an County, Hubei Province, the other 10 mussels were derived from the same individuals raised in the above-mentioned breeding ponds, but they have been moved to the Tongzhuang River in the Three Gorges Reservoir area for one year.

[0031] The live mussels are first placed in aerated water for temporary cultivation to empty the intestines, and then measure the shell length: 14.5~17.5cm, shell height: 3.5~4.5cm, shell width: 12.0~15.0cm, weight with shell : 350~600g and other biological properties. Then the soft tissues were dissected to obtain the soft tissues, and the soft...

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Abstract

The invention relates to a method for monitoring environmental element pollution by transplanting fresh water bivalves, which adopts the following steps: using pond culturing mussels as a comparison population, and taking mussels with same-batch and consistent specification transplanted to a water area to be monitored as an experimental population; temporarily culturing living mussels in aerated water to remove impurities in shells and alimentary tracts, removing the shells to obtain mussel parenchyma, storing the mussel parenchyma in a refrigerator; taking the mussel parenchyma out, washing the mussel parenchyma by using ultra-pure water after unfreezing, and drying, grinding the mussel parenchyma into powder for being placed in a dryer for standby application; taking the dried mussel parenchyma, placing the dried mussel parenchyma into a container, adding high-pure nitric acid, and acid-splitting the dried mussel parenchyma under room temperature; digesting by a microwave oven, and performing the constant volume to solution to be monitored by using ultra-pure water; and measuring and indicating the element accumulation discrepancy of shellfishes-mussels parenchyma and the content of heavy metal pollutant and the like as well as the experiment monitoring effect by utilizing an inductively-coupled plasma spectrometer. The invention can more accurately reflect the difference ofmultiple heavy metals and trace elements in shellfishes in changeable water environment on pollution degree and accumulation level.

Description

Technical field [0001] The invention relates to a method for transplanting freshwater bivalves to monitor environmental element pollution, specifically selecting freshwater bivalves that have been bred under artificial breeding pond conditions and having consistent growth specifications and transplanting them to the natural environment to be tested The method of trial breeding in waters, by comparing and measuring the content of multiple metal elements in the soft tissues of two types of mussel samples, and then monitoring the difference of multiple heavy metal pollution in different environments and the accumulation of trace elements in shell bodies, belongs to the field of new environmental monitoring technology development. Background technique [0002] At present, the ecological environment of my country's inland waters is mainly evaluated by measuring the concentration of water pollutants. Because the concentration of pollutants in the water is generally very low and easy to...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N27/62
Inventor 杨健刘洪波尤洋戈贤平
Owner FRESHWATER FISHERIES RES CENT OF CHINESE ACAD OF FISHERY SCI
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