SEAFDECINSTITUTIONAL REPOSITORY
    • English
    • ไทย
    • 日本語
    • Bahasa Indonesia
    • Bahasa Melayu
    • Burmese
    • Filipino
    • Khmer
    • Lao
    • Tiếng Việt
  • Burmese 
    • English
    • ไทย
    • 日本語
    • Bahasa Indonesia
    • Bahasa Melayu
    • Burmese
    • Filipino
    • Khmer
    • Lao
    • Tiếng Việt
  • လော့ဂ်အင်
ပစ္စည်းပြသခြင်း။ 
  •   အိမ်
  • 03 SEAFDEC External Publications
  • Journal Articles, Conference Papers and Book Chapters by SEAFDEC Staff
  • Journal Articles
  • AQD Journal Articles
  • ပစ္စည်းပြသခြင်း။
  •   အိမ်
  • 03 SEAFDEC External Publications
  • Journal Articles, Conference Papers and Book Chapters by SEAFDEC Staff
  • Journal Articles
  • AQD Journal Articles
  • ပစ္စည်းပြသခြင်း။
JavaScript is disabled for your browser. Some features of this site may not work without it.

Plasma osmolality and chloride regulation in the sea bass Lates calcarifer

Thumbnail
ရှာဖွေ/ဖွင့်ပါ။Open
Request this article
ရက်စွဲ
1996
စာရေးသူ
Almendras, Jesus Manolo E.
Page views
415
မက်တာဒေတာ
အကြောင်းအရာအသေးစိတ်မှတ်တမ်းများကို ကြည့်ပါ။
Share 
 
စိတ္တဇ
Seawater-adapted sea bass (Lates calcarifer) subadults and fingerlings were abruptly transferred to fresh water and freshwater-adapted subadults and fingerlings to sea water. To follow the responses of plasma osmolality and chloride concentration, blood samples were taken before and at intervals after transfer. Changes in plasma osmolality and chloride showed a pattern of initial crisis when osmolality and chloride levels deviated significantly from pre-transfer levels. The initial crisis was followed by a regulatory phase when these values returned to almost pre-transfer levels. Subadults transferred to fresh water had a regulatory phase (or the ability to return plasma osmolality and chloride to near normal levels) starting at Day 4 after transfer while fingerlings transferred to fresh water had a much earlier regulatory phase, starting at Day 1. Subadults transferred to sea water had stable plasma osmolality and chloride levels at Day 2 while fingerlings transferred to sea water regulatory phase commencing at Day 1.
URI
http://hdl.handle.net/10862/1549
Suggested Citation
Almendras, J. M. E. (1996). Plasma osmolality and chloride regulation in the sea bass Lates calcarifer. The Israeli Journal of Aquaculture-Bamidgeh, 48(1), 28-34. http://hdl.handle.net/10862/1549
ဘာသာရပ်
blood; chlorides; osmoregulation; osmotic adaptations; sea bass; Lates calcarifer
Taxonomic term
Lates calcarifer
စုစည်းမှုများ စုစည်းမှုများ
  • AQD Journal Articles [1249]

Related items

Showing items related by title, author, creator and subject.

  • Thumbnail

    Culture of grouper, sea bass and red snapper 

    Toledo, Joebert D. (University of the Philippines Aquaculture Society, Inc., 2001)
    Marine fish production has increased dramatically in the past ten years and majority of the cultured species were produced in Asia in 1992. Increase in production was accompanied with concerns on increasing outbreak of ...
  • Thumbnail

    What are the latest developments in marine hatchery? 

    Españo, A. J. (Aquaculture Department, Southeast Asian Fisheries Development Center, 2001)
  • Thumbnail

    Broodstock management and seed production of marine fishes 

    Paniza, J. R. (Aquaculture Department, Southeast Asian Fisheries Development Center, 2001)

© SEAFDEC 2025
ဆက်သွယ်ရန်လိပ်စာ
 

 

လိုက်ကြည့်သည်။

သိုလှောင်ရုံတစ်ခုလုံးအစုအဖွဲ့/ စုစည်းမှုဖြန့်ချိသည့်ရက်စာရေးသူခေါင်းစဥ်ဘာသာရပ်ဤစုစည်းမှုဖြန့်ချိသည့်ရက်စာရေးသူခေါင်းစဥ်ဘာသာရပ်

မှတ်ပုံတင်ထားသော အသုံးပြုသူ

လော့ဂ်အင်

စာရင်းဇယား

အသုံးပြုမှုစာရင်းအင်းများကို ကြည့်ပါ။
Related Links
SEAFDEC/TD IRSEAFDEC/AQD IRSEAFDEC/MFRDMD IRSEAFDEC/IFRDMD IR

© SEAFDEC 2025
ဆက်သွယ်ရန်လိပ်စာ