English  |  正體中文  |  简体中文  |  Items with full text/Total items : 6480/11652
Visitors : 20228934      Online Users : 291
RC Version 3.2 © Powered By DSPACE, MIT. Enhanced by NTU Library IR team.
Scope Adv. Search
LoginUploadHelpAboutAdminister

Please use this identifier to cite or link to this item: http://ir.ncue.edu.tw/ir/handle/987654321/15615

Title: The Effect of Ulvoid Macroalgae on the Inorganic Carbon Utilization by an Intertidal Seagrass Thalassia Hemprichii
利用沉水性葉綠素螢光分析儀實測石蓴類海藻對期間帶海草Thalassia hemprichii於無機碳源使用的影響
Authors: Liu, Shao-Lun;Wang, Wei-Lung;Dy, Danilo T.;Fu, Cheng-Chang
Contributors: 生物學系
Keywords: Bicarbonate;Photosynthesis;Taiwan;Ulvoid bloom
重碳酸鹽;窒息;光合作;台灣;石蓴類藻華
Date: 2005-07
Issue Date: 2013-03-12T01:48:28Z
Publisher: 中央研究院植物研究所
Abstract: Blooms of ulvoid macroalgae (mainly Enteromorpha and Ulva) have covered 80% of the intertidal seagrass bed at Wanlitung, southern Taiwan, effectively shading the seagrasss species Thalassia hemprichii resulting in a decrease in photosynthetic performance and low inorganic carbon (C(subscript i)) uptake. We looked for evidence of C(subscript i) limitation and investigated the C(subscript i) utilization characteristics of ulvoid-free and ulvoid-covered T. hemprichii. The rapid light curve (RLC) function of the Diving-PAM (Diving-PAM. Walz, Germany) was used to measure in situ photosynthetic performance (based on the effective quantum yield of PSⅡ [Y] values) of intact seagrasses that were placed in small incubating chambers. Significantly, a lower RETR(subscript max) (maximum relative electron transport rate) and E(subscript k) (light intensity at the onset of saturation) were noted in the ulvoid-covered compared to the ulvoid-free T. hemprichii, suggesting that the former has acclimatized to the low light environment becoming a "shade type" plant. The ulvoid-covered T. hemprichii showed some evidence of C(subscript i) limitation since a significant increase in RETR(subscript max) (up to 46%; P<0.05) was noted after an increase in the concentration of NaHCO3 from 2.2 (normal seawater) to 6.2mM. In terms of C(subscript i) utilization characteristics, T. hemprichii could directly absorb HCO3(superscript -) as the major C(subscript i) source but partially depended on the extracellular carbonic anhydrase (CA) to convert HCO3(superscript -) to CO2 prior to uptake in the ulvoid-free, high light-adapted populations. A wastewater stream with a high nutrient load coming from the urbanized area may have caused the frequent blooms of ulvoid macroalgae.
台灣南部萬里桐地區大型石蓴類海藻藻華覆蓋Thalassia hemperichii海草床面積約近80%,覆蓋的遮蔽效應造成了海草光合作用和無機碳源吸收都降低。本研究利用沉水性葉綠素螢光分析儀的快速光曲線(rapis light curve, RLC)功能在野外實測被遮蔽和未遮蔽海草間的無機碳使用情形,探討其相互間是否有無差異。研究結果顯示,相較於未遮蔽海草族群,被遮蔽族群有顯著較低的RETR(下標 max)和E(下標 k)值(P<0.05),顯示其已馴化成為適應低光的族群。當無機碳濃度從海水的2.2mM增加到6.2mM時,被遮蔽海草的光合作用顯著增加46% (P<0.05),顯示在其生長地遭遇無機碳源的限制。在無機碳源使用情況的研究上,發現適應高光未遮蔽的T. hemperichii能夠直接吸收重碳酸鹽作為光合作用的無機碳源,同時它也部分依賴胞外碳酸酣酶的幫助來吸收重碳酸鹽。因此,廢水的注入被發現造成萬里桐地區大型石蓴類海藻的藻華,並對海草造成光合生理的影響。
Relation: Botanical Bulletin of Academia Sinica, 46(3): 197-203
Appears in Collections:[生物學系] 期刊論文

Files in This Item:

File SizeFormat
index.html0KbHTML382View/Open


All items in NCUEIR are protected by copyright, with all rights reserved.

 


DSpace Software Copyright © 2002-2004  MIT &  Hewlett-Packard  /   Enhanced by   NTU Library IR team Copyright ©   - Feedback