Sedimentary environments of the Furuya Formation (Late Pleistocene), Shizuoka Prefecture, Japan
スポンサーリンク
概要
- 論文の詳細を見る
Depositional environments of the Makinohara Upland area, Shizuoka Prefecture, are determined from detailed sedimentological, paleontological and stratigraphical data.The results are summarized as follows:1) The Furuya Formation (maximum thickness 30m) is composed mainly of fine-grained sediments that were deposited in shallow embayments during transgressions of the sea up narrow valleys in the early stage of a so-called Last Interglacial Age.2) The Furuya Formation can be divided into five superposed mappable lithologic cycles (coded I-V), each of which shows a nearly complete, fining-upward, sedimentary sequence consisting of, in ascending order, a basal gravel, a sand, sandy clay, and finally clay (Figs. 5, 6).3) The Makinohara Formation (maximum thickness 50m) comformably overlies the Furuya Formation. The sedimentary surface of the Makinohara Formation forms the terrace known as the Makinohara Upland. The Makinohara Formation is laterally divided into two lithofacies; poorly sorted gravel proximally, and well sorted sands in the distal parts of the buried valleys. The sands that were deposited near the river mouth and near the bay mouth and coastal areas of the"Paleo-Sagara-Bay" are considered deltaic and coastal sand bank deposits, respectively.4) The history of sedimentation in the study region is interpreted as follows (Figs. 10, 11):(a) Before the Last Interglacial Age two major valleys had been cut to Neogene basement.(b) During the early stage of the interglacial transgression, fluvial sediments consisting of coarse sands and gravel were deposited along the distal parts of the buried valleys (Sedimentary cycles I-II).(c) As the transgression continued, marine water soon inundated the buried valleys and the initial"Paleo-Sagara-Bay"was formed (Sedimentary cycles III-IV).(d) During a standstill of the sea at the time of maximum transgression, a "Paleo-Sagara-Bay"became filled with fine sediments, eventually forming a marsh (Sedimentary cycle V).(e) After the maximum phase of the transgression, the"Paleo-Sagara-Bay"was totally covered by coarse fluvial deposits and/or coastal and deltaic sand.5) Because the last (marsh) phase of"Paleo-Sagara-Bay"was at sea level, the amount of differential crustal movement within the study area can be closely estimated. It has been determined that in the uplands (Makinohara) of the northern part of the study area the contact between the Furuya Formation and the Makinohara Formation has been uplifted at least 150m (Figs. 12, 13).
- 日本第四紀学会の論文
著者
関連論文
- 浜名湖周辺地域産出のナウマンゾウ化石
- 静岡県浜松市佐浜町のナウマンゾウ発掘調査地における中部更新統浜松層の堆積層と貝形虫化石
- ナウマンゾウ模式地での再発掘調査
- ナウマン象発掘計画 : 示準化石ナウマン象模式地(浜松市佐浜)の再発掘と自然史の復元 : 小・中・高生、一般市民、学生、研究者が連携したナウマン象の総合研究
- ナウマン象の模式標本
- 21世紀のオストラコーダ研究に向けて : 第14回オストラコーダ国際シンポジウム報告
- 書評
- 第 14 回オストラコーダ国際シンポジウム
- 浜名湖の生い立ち
- 日本沿岸内湾性介形虫類の特性 : 古環境解析の指標として
- 浜名湖の起源と地史的変遷
- 花井 Microfilm Collection
- 第 10 回オストラコーダ国際シンポジウム
- 浜名湖のボーリング柱状試料について
- 第 9 回オストラコーダ国際シンポジウム
- 浜名湖東岸完新統の層序・層相とその年代
- 沖積層柱状試料採取器の開発
- 更新世古谷層(静岡県)の介形虫群集 : 古生物
- 北海道渡島半島黒松内地方の地質
- 小型有孔虫カタログ(3)
- 駿河湾より採取した底質資料
- 小型有孔虫カタログ(2)
- 小型有孔虫カタログ
- Sedimentary environments of the Furuya Formation (Late Pleistocene), Shizuoka Prefecture, Japan