高濃度の窒素を含む地下水の海岸への流出過程

アクセス数 : 1199
ダウンロード数 : 95

今月のアクセス数 : 2
今月のダウンロード数 : 0
File
rikei30_06.pdf 3.55 MB 種類 : fulltext
Title ( eng )
高濃度の窒素を含む地下水の海岸への流出過程
Title ( jpn )
Discharge process of groundwater with highly concentrated nitrogen to the beach
Creator
林 政輝
竹井 務
峯 孝樹
斎藤 光代
重枝 豊実
吉田 浩二
Contributors 国立情報学研究所
Source Title
広島大学総合科学部紀要. IV, 理系編
Memoirs of the Faculty of Integrated Arts and Sciences, Hiroshima University. IV, Science reports
Volume 30
Start Page 87
End Page 96
Abstract
To clarify discharge process of groundwater with highly concentrated nitrogen into the sea, we observed subsurface flow and nitrate flux with tidal variation, using piezometer method. We installed a paire of piezometers with various depths at 3 plots on a relatively slopy beach in Ikuchijima Island, measured hydraulic head and collected water at all piezometers and a well at distance of 100m to landward from the shoreline inland area at two hours interval from 6-am to 6-pm on June 6, 2004. Water samples were analyzed for Cl-and DN(Dissolved Nitrogen), respectively. Groundwater discharge was confirmed at the vicinity of shoreline, mixing with seawater. Because it stopped during the High tide, groundwater contribution ratio increased below the shoreslope. Nitrogen concentration in groundwater at the landward well was high, whereas, it declined in the subsurface water below the shoreline. We estimated the DN concentration of beach subsurface water, based on the mixing process of inland groundwater with seawater. The calculated one was extremely higher than actual one. Theses results suggest denitrification on the beach. In addition, based on this research, the difference between calculated and actual ones was large in stagnant subsurface water with high groundwater contribution ratio during the high tide. We confirmed the dynamics of nitrate decline and two types of water mixing processes with tidal variation.
Keywords
discharge process
dissolved nitrogen
groundwater
slopy beach
NDC
Pollution. Environmental engineering [ 519 ]
Language
eng
Resource Type departmental bulletin paper
Publisher
広島大学総合科学部
Date of Issued 2004-12
Publish Type Version of Record
Access Rights open access
Source Identifier
[ISSN] 1340-8364
[NCID] AN10435936