日本海水学会誌 57 巻, 3 号

鉛210およびセシウム137から見た相模湾における沈降粒子の振る舞いと堆積フラックス

相模湾から採取した堆積物コア20試料を用いて, 鉛210およびセシウム137の濃度を測定した. また, 時間分画式セジメントトラップ (湾中央部の定点近傍における海底上350mおよび20mの2層; 水深1550m) により捕集された粒子の鉛210濃度を測定し, その沈降フラックスを求めた.
過剰鉛210インベントリー法による平均堆積速度は,全コアでは0.05-0.19g cm^-2y^-1の範囲にあり, 定点における6試料の平均値は0.11g cm^-2y^-1であった. 後者の値はセシウム137極大層を1963年と仮定して見積もった平均堆積速度とほぼ一致した.
トラップ試料の鉛210濃度の平均値は, それぞれ上層では262 dpm g^-1, 下層では248 dpm g^-1であった. しかし, それらの平均値を用いて沈降フラックスを算出したところ, 上層で388 dpm m^-2 d^-1であるのに対して, 下層では1392 dpm m^-2 d^-1となり, 海底付近において鉛210のフラックスが3.6倍高くなることがわかった. そこで, ボックスモデルを適用して海水一堆積物系における鉛210の収支を見積もったところ, 下層トラップにおける鉛210フラックスの増加の大部分が粒子状鉛210の水平輸送に起因すること, および海底に向かうフラックスの38%に相当する粒子状鉛210が堆積せずに, さらに水平方向に輸送されることが判った.

東京湾, 陸奥湾および噴火湾海底堆積物における主要並びに微量元素の分布と挙動

東京湾 (II)(湾奥部), 東京湾 (IV)(湾口部), 陸奥湾および噴火湾の東日本沿岸海底堆積物コア試料, およびそれらの比較対照として外洋の北西太平洋海底堆積物コア試料中の主要および微量元素延べ14元素を, 機器中性子放射化分析 (INAA) により定量した. また, 鉛210法を用いて沿岸堆積物の堆積速度および堆積年代を算出した.
その結果, 以下の知見が得られた.
(1) ランタノイドパターンは全ての試料において負の傾きをもつことから, それら堆積物の起源は主に陸源物質であり, また, La*/Lu*比およびCe*/La*比より, 東京湾(II)および陸奥湾堆積物は, 河川等からの陸源物質の寄与を, より直接的に反映していることが示唆された.
さらに, Th/Sc比より, 沿岸堆積物は河川等を通じて島弧起源物質の寄与が大きく, 北西太平洋堆積物は風送による大陸起源物質の寄与が支配的であることが明らかとなった.
(2) Ce/U比-Th/U比の相関は, 全てのコア試料で相関係数が0.920～0.991と極めて高い相関を示した, また, 東京湾 (II) および噴火湾では全コアを通じて還元環境にあり, 一方, 東京湾 (IV) および陸奥湾では, 少なくとも上層部で酸化的な環境にあることが示唆された.
本研究で新たに導入したCe/U比-Th/U比を用いる方法は, 堆積環境を知る上で極めて有効と思われる.
(3)同一湾内であっても, 東京湾湾奥部 (II) は湾口部 (IV) と比べて堆積速度が2倍ほど速く, 堆積環境と同様, 堆積メカニズムにおいても明らかな相違があることが判明した. さらに, 鉄およびマンガンの濃度上昇が見られた噴火湾第5層 (堆積深度8～10cm) の堆積年代は, およそ1940～50年と求められ, その年代は, 有珠火山の噴火により昭和新山が形成された1943～45年と一致した.

海底堆積物における有機物の特徴と挙動

The present knowledge on the abundance and molecular composition of organic matter and its behavior in recent marine (deep water and coastal) sediments is reviewed. It is generally recognized that the primary phytoplankton production and the length of water column where planktonic debris are sinking to the bottom play an important role in governing the abundance of organic matter in sediments. These two factors also explain the higher amounts of readily hydrolyzable organic fractions, total amino acids and total carbohydrates in coastal sediments than in deep water sediments.
A large number of organic compoun ds are now used as indicators of marine or terrestrial biological contribution to sedimentary organic matter. Many kinds of anthropogenic organic compounds, such as oilderived long-chain alkanes, polycyclic aromatic hydrocarbons (PAHs), alkylbenzenes, alkylphenols, bisphenol A, phthalic acid esters, PCBs, DDE, dioxins, coplanar-PCBs, have been measured in the sediment cores from Tokyo Bay. The vertical profiles of those anthropogenic compounds in the sediments are considered to reflect the changes in the input of those compounds to the area surrounding the bay.

海底堆積物における長寿命人工放射性核種の分布と挙動

Over the last four decades, the Irish Sea has received controlled discharges of radioactive effluents from the Sellafield (Windscale) nuclear fuel reprocessing plant in Cumbria, UK. Enhanced levels of a range of fission, activation and transuranic elements have been detected in a variety of environmental media. Most of Pu and ²⁴¹Am and about 10% of ¹³⁷Cs discharged have been retained in a deposit of the fine sediment near the discharge point. The quantities of radionuclides discharged annually from Sellafield decreased by two orders of magnitude from the mid-1970s to 1980, but estimated internal and external exposure for critical group decreased by only less than one order of magnitude over this period. Redistribution of the highly contaminated marine sediment is potentially of major significance.
In this paper, a review is presented of published work and our studies relating to the artificial long-lived radionuclides, ⁹⁹Tc, ¹³⁷Cs, ²³⁷Np, Pu isotopes and ²⁴¹Am, in sediments around the Irish Sea coast. The dominant mechanism (solution and/or particle transport) of supply of these radionuclides to coastal sediment is mainly discussed.

海底堆積物と間隙水における相互作用

In order to investigate the chemical form of authigenic phosphate compounds being precipitated in coastal sediemnt, vertical distributions of dissolved phophate and fluoride in pore water from the sediments of Funka Bay Japan, were determined.
We found an inverse relationship between interstitial phosphate and fluoride concentrations, suggesting precipitation of an authigenic fluoro-phosphorus compound with a P/F atomic ratio of around 1/3 in the sediemnt. The solubility experiments of biogenic silica were done using the Funak Bay sediments. The solubility coefficients were estimated from temporal change of interstitial silicate in a temperature controlled room of 6, 11 and 22°C. The change of silicate concentrartion is irreversible for temperature, the irreversibility is larger at surface than in a deeper layer. This suggested that biogenic silicate in a deeper layer is more crystallized than at surface.

マングローブ堆積物とマングローブ地生態系

The mangrove ecosystem and the deposit are developing only upper half of the tidal zone. The ecosystem is stretching like a narrow green belt surrounding the tropical to sub tropical coast. The sediment has the following characteristics:
1. The sediment might be formed up as the results of interaction of not only fluvial and marine process but also the biomass accumulation and bioturbation processes.
2. The organic to peaty material is a distinctive indicator of the sea-level change and the history of mangrove forest.
3. The inner structure of mangrove forest is categorized into three zones. Zone 1 is located near the mean tide level formed by tidal and fluvial process. Zone 2 is formed by man grove organics accumulation and bioturbation which is developing between the mean to mean high water level. Zone 3 is developing between the mean high and the highest high water level that is formed by the process of mudlobster bioturbati on and weak tidal water movement. These three zones develop the remarkable sediment.