Sediment quality: различия между версиями

Текущая версия на 00:29, 26 апреля 2024

р. Хуанхэ^[1]

Качество наносов

Физические, химические, биологические свойства наносов.

Sediment quality

Properties of sediment chemistry, toxicity on aquatic organisms and the benthic organisms^[2].

A numerical (bulk concentration) benchmark below which a lesser adverse effect (or no adverse effect) is anticipated and above which a greater adverse effect is anticipated sequestration^[3].

Пример использования термина на английском языке

In general, sediment quality in the Southern California Bight reflects proximity to pollutant sources^[4].

Hence it is thought that the measured improvements of sediment quality in the basin could not be related to the hydrodynamics and surface runoff transport^[5].

Перевод использования на русском языке

В целом, качество наносов в бухте Южной Калифорнии является индикатором близости источников поступления загрязняющих веществ.

Поэтому считается, что зафиксированное улучшение качества наносов в бассейне не может быть связано с гидродинамикой и поверхностным стоком.

Список литературы

↑ fototelegraf.ru/377154-10-neveroyatno-krasivyx-chudes-prirody.html/chudesa-prirody-6-2
↑ Chapman P. M. The sediment quality triad approach to determining pollution-induced degradation // The Science of the Total Environment. 97/98. 1990. P. 815–825.
↑ ITRC standard glossary (URL:https://higherlogicdownload.s3.amazonaws.com/ITRC/9b5784ab-2013-4380-903f-4d7249e63f5d_file.pdf?AWSAccessKeyId=ASIAVRDO7IERBRTTFYHJ&Expires=1714119229&x-amz-security-token=IQoJb3JpZ2luX2VjEG8aCXVzLWVhc3QtMSJHMEUCIDTNEvnuaYGBPVZdZI%2FtJvE7yXxgeFVWipYQgVHAq9tNAiEA1srZiF2p%2FA1RISNignHpjCz99bDC7ST%2F1mNhoodAM1AqugUIt%2F%2F%2F%2F%2F%2F%2F%2F%2F%2F%2FARAAGgwzODAzMzczNDA3MDYiDGWPHCOAww8F2lIxriqOBUnoe23fmCYs6%2Bh6PumgRD9lZB2Qsc%2FwhJmPAN99jlpStph2AEa8d1P3E96JoDC1l%2BYiqzIj0l%2B4cwG1MkoDFY4EmNSqllvOwU1HPniIYD6GsKeoIzzQoZbvDe9wl9vst%2BzS8QD6sdtfa09Buc95fl6yCauSfHizueIcMuaeNxp18EEOhQ0JuR2w6%2B9MlGP%2B1OjIZU9gUWW%2FqTH6MSgr0cFPwMAVSg3z1EcNAJFaErM5Ohga7%2F7v5E%2F4Qe%2FtX%2BR2aXcPkUekTUXYFrtD3IWwr97I85ZjdyCVpcxOsdTCyzuyBi62rxgXPgmuFJAaJSJH3TU2HI83xsBWrVR40u4KFkAHdAf%2BU%2F2yIfpyWCsYmlg%2FF34vzQSwHtrM8XoNb65Hb2ZUatlwpRhN81xAVDgXTbivcXTfFDlbMzYEjiwzZBw%2Boa%2FN%2BPKzMrpPV6JRVOmhcNEHX9Y5bkXC9%2F0I7dawSn%2FV9o1YrP6rwClEOBbhvmXURHPr8nfXw14Fn2izrH4ilRIkgXd%2BaK6BHqfE2LI6pue4Y51VKXjzKTPNppg7lw2vWJwQGRGN80yMxEACbQ%2B2zyYdtzV2IOiLGAFOoVt%2F6v2tLA%2FVU364vbjsiy6voSxGg4SCkbsqvW6apHTHDGoW8CRXx%2BPS2EsOQW8J38RXVoDRuy7eji234lf1KBx118Ho2pD5F7dSiV4vphHuUYKvAQ7iMkd5DHFi3ng2rzZEfakLIKCPpRRDCNp6z2WtMLJJccCJFJYsXJ78iBRiCdNh%2BjdMiNVH%2FtLUi2sHzpkNMu3y%2BSiA5%2BnfvYJQbuMYC0WRmIBzFeEqyB0Hsf6cpk3PexNdiSwCplV2PX%2Fixp4vUoB4zNWIoPZPDfDe4taaMTCGj62xBjqxAdcJTM1zlICBwANJgE2PQBrWTJ8E2w%2BVfesY9DHaF4JyYh6kyOBC%2BwVIv2rpG60OwSA4PZtl0GRTV5uRumkmgv69G2eb0LZlzzd6P2n5qlaolixXeF5pwQQSWWd%2FoVqrMbr6u4oSQCGYtT7w9GmeWzxEt1Kai8atWEwJZec9OA0fYvnqAp5ZtCjdtBnF9NzfMi%2F%2B%2B19i%2FI%2FE5LjfdishMuSmlTnSGQtZzg5DNog9FneQrg%3D%3D&Signature=CN4I%2B1qPAssYqCV3c%2FTVpibZFYk%3D) (Дата обращения: 26.04.2024)
↑ Apitz S. E. Integrated Risk Assessments for the Management of Contaminated Sediments in Estuaries and Coastal Systems // Reference Module in Earth Systems and Environmental Sciences. Treatise on Estuarine and Coastal Science. V. 4. 2011. P. 311-338. doi.org/10.1016/B978-0-12-374711-2.00413-7
↑ Tokatlı C. Invisible face of COVID-19 pandemic on the freshwater environment: An impact assessment on the sediment quality of a cross boundary river basin in Turkey // International Journal of Sediment Research. – 2022. – Vol. 37. – № 2. – P. 139-150. https://doi.org/10.1016/j.ijsrc.2021.09.003.

[1] totelegraf.ru/377154-10-neveroyatno-krasivyx-chudes-prirody.html/chudesa-prirody-6-2

[2] Chapman P. M. The sediment quality triad approach to determining pollution-induced degradation // The Science of the Total Environment. 97/98. 1990. P. 815–825.

[3] ITRC standard glossary (URL:https://higherlogicdownload.s3.amazonaws.com/ITRC/9b5784ab-2013-4380-903f-4d7249e63f5d_file.pdf?AWSAccessKeyId=ASIAVRDO7IERBRTTFYHJ&Expires=1714119229&x-amz-security-token=IQoJb3JpZ2luX2VjEG8aCXVzLWVhc3QtMSJHMEUCIDTNEvnuaYGBPVZdZI%2FtJvE7yXxgeFVWipYQgVHAq9tNAiEA1srZiF2p%2FA1RISNignHpjCz99bDC7ST%2F1mNhoodAM1AqugUIt%2F%2F%2F%2F%2F%2F%2F%2F%2F%2F%2FARAAGgwzODAzMzczNDA3MDYiDGWPHCOAww8F2lIxriqOBUnoe23fmCYs6%2Bh6PumgRD9lZB2Qsc%2FwhJmPAN99jlpStph2AEa8d1P3E96JoDC1l%2BYiqzIj0l%2B4cwG1MkoDFY4EmNSqllvOwU1HPniIYD6GsKeoIzzQoZbvDe9wl9vst%2BzS8QD6sdtfa09Buc95fl6yCauSfHizueIcMuaeNxp18EEOhQ0JuR2w6%2B9MlGP%2B1OjIZU9gUWW%2FqTH6MSgr0cFPwMAVSg3z1EcNAJFaErM5Ohga7%2F7v5E%2F4Qe%2FtX%2BR2aXcPkUekTUXYFrtD3IWwr97I85ZjdyCVpcxOsdTCyzuyBi62rxgXPgmuFJAaJSJH3TU2HI83xsBWrVR40u4KFkAHdAf%2BU%2F2yIfpyWCsYmlg%2FF34vzQSwHtrM8XoNb65Hb2ZUatlwpRhN81xAVDgXTbivcXTfFDlbMzYEjiwzZBw%2Boa%2FN%2BPKzMrpPV6JRVOmhcNEHX9Y5bkXC9%2F0I7dawSn%2FV9o1YrP6rwClEOBbhvmXURHPr8nfXw14Fn2izrH4ilRIkgXd%2BaK6BHqfE2LI6pue4Y51VKXjzKTPNppg7lw2vWJwQGRGN80yMxEACbQ%2B2zyYdtzV2IOiLGAFOoVt%2F6v2tLA%2FVU364vbjsiy6voSxGg4SCkbsqvW6apHTHDGoW8CRXx%2BPS2EsOQW8J38RXVoDRuy7eji234lf1KBx118Ho2pD5F7dSiV4vphHuUYKvAQ7iMkd5DHFi3ng2rzZEfakLIKCPpRRDCNp6z2WtMLJJccCJFJYsXJ78iBRiCdNh%2BjdMiNVH%2FtLUi2sHzpkNMu3y%2BSiA5%2BnfvYJQbuMYC0WRmIBzFeEqyB0Hsf6cpk3PexNdiSwCplV2PX%2Fixp4vUoB4zNWIoPZPDfDe4taaMTCGj62xBjqxAdcJTM1zlICBwANJgE2PQBrWTJ8E2w%2BVfesY9DHaF4JyYh6kyOBC%2BwVIv2rpG60OwSA4PZtl0GRTV5uRumkmgv69G2eb0LZlzzd6P2n5qlaolixXeF5pwQQSWWd%2FoVqrMbr6u4oSQCGYtT7w9GmeWzxEt1Kai8atWEwJZec9OA0fYvnqAp5ZtCjdtBnF9NzfMi%2F%2B%2B19i%2FI%2FE5LjfdishMuSmlTnSGQtZzg5DNog9FneQrg%3D%3D&Signature=CN4I%2B1qPAssYqCV3c%2FTVpibZFYk%3D) (Дата обращения: 26.04.2024)

[4] Apitz S. E. Integrated Risk Assessments for the Management of Contaminated Sediments in Estuaries and Coastal Systems // Reference Module in Earth Systems and Environmental Sciences. Treatise on Estuarine and Coastal Science. V. 4. 2011. P. 311-338. doi.org/10.1016/B978-0-12-374711-2.00413-7

[5] Tokatlı C. Invisible face of COVID-19 pandemic on the freshwater environment: An impact assessment on the sediment quality of a cross boundary river basin in Turkey // International Journal of Sediment Research. – 2022. – Vol. 37. – № 2. – P. 139-150. https://doi.org/10.1016/j.ijsrc.2021.09.003.

[1]

[2]

[3]

[4]

[5]