查詢結果分析
來源資料
相關文獻
- A Comparison of Nutrient Characteristics and Primary Productivity in the Sulu Sea and South China Sea
- Primary Production and Chemical Composition of Emergent Aquatic Macrophytes, Schoenoplectus Mucronatus Ssp. Robustus and Sparganium Fallax, in Lake Yuan-Yang, Taiwan
- 紡織業與電子業的生產力和獲利能力之研究
- 氣候變遷對我國週邊海域營養鹽及基礎生產力變動的影響
- 提高生產力降低發病死亡損失經驗談
- 清潔生產與ISO 14000
- 我國警察組織績效觀念檢討改革芻議
- 比較兩岸三地生產力成長的來源
- 隧道工程生產力比較與影響因素之分析--以北宜高速公路南港二號與彭山隧道為例
- 華人的企業文化與生產力
頁籤選單縮合
題 名 | A Comparison of Nutrient Characteristics and Primary Productivity in the Sulu Sea and South China Sea=蘇祿海與南海的營養鹽特性及初級生產力的比較 |
---|---|
作 者 | Jacinto,Gil S.; Dupra,Vilma C.; Narcise,Ingrid S.; Padayao,Daisy O.; Velasquez,Imelda B.; San Diego-McGlone,Maria Lourdes; | 書刊名 | 臺灣海洋學刊 |
卷 期 | 37:3 1999.01[民88.01] |
頁 次 | 頁219-229 |
分類號 | 351.933 |
關鍵詞 | 南中國海; 蘇祿海; 營養鹽; 生產力; 深層綠葉錄濃度最大; South China Sea; Sulu Sea; Nutrients; Primary productivity; Deep chlorophyll maximum; |
語 文 | 英文(English) |
中文摘要 | 南海與蘇祿海的營養鹽垂直分佈有不同的特性,兩虛的表水幾乎都缺營養鹽。南 海水的營養鹽濃度愈深愈高,而蘇祿海的營養鹽在 400m 深度以下濃度均一。蘇祿海的中層 及底層水是自南海的中層水經海檻流入的。營養鹽躍層在陸棚區有淺化現象,它可能是因地 轉流的調整,或是由於內波進入淺水區而抬升水層的一個短暫現象。每一測站的葉綠素濃度 值最大的水層,都在營養鹽躍層之上,且與溶解氧最大值的水層在同一深度。整層水的初級 生產力在蘇祿海的深水區最大 (195 ± 2gC . m �鴃D yr �笐� '), 高於其淺水區 (166 ± 3 gC . m �鴃D yr �笐� ) 及南海的外海區 .147±3gC.m�鴃Dyr�笐�)。整層水的浮 游植物生質量在兩海域有相似的趨勢。 |
英文摘要 | A comparison of vertical nutrient characteristics in the South China Sea (SCS) and Sulu Sea showed the typical nutrient depletion in surface water and enrichment with depth with greater maximum apparent in the SCS relative to the uniform behavior of nutrients below 400 m in the Sulu Sea. This may be explained by sill inflow of SCS intermediate waters that supplies intermediate and bottom waters of the Sulu Sea. Shallowing of the nutricline on the shelf may be due to geostrophic adjustment or may be pulses of upwelled water associated with shoaling of internal waves. The deep chlorophyll maximum was found above the nutricline at all stations and coincided with the maximum dissolved oxygen concentration. The depth-integrated primary production rates in the oceanic region of the Sulu Sea (195 ± 2 gC . m �鴃D yr �笐� ) was determined to be the highest followed by the shoal area (166 ± 3 gC . m �鴃D yr �笐� ) and the oceanic region in the SCS (147 ± 3 gC . m �鴃D yr �笐� ). Plankton biomass estimates integrated with depth showed similar trends for both basins. |
本系統中英文摘要資訊取自各篇刊載內容。