|A A A|

Detailed Reference Information

Detailed information for reference 27751

 Idrisi, N. and S.D. Salman (2005) Distribution, development, and metabolism of larval stages of the warmwater shrimp, Caridina babaulti basrensis (Decapoda, Atyidae). Marine and Freshwater Behaviour and Physiology 38(1): 31–42. PDF is 204kB

 

Comment or Correction

Report a problem or comment on this reference.

Thank you!

PDF quality information

PDF quality and completeness not (yet) assessed

Certification information

2008-07-14 N. Dean Pentcheff Viewed paper/PDF original

Reference change log

No changes logged

Reference record internal details

Reference ID 27751
Reference type journalarticle
Authors Idrisi, N.
Salman, S.D.
Publication Year (for display) 2005
Publication Year (for sorting) 2005
Title Distribution, development, and metabolism of larval stages of the warmwater shrimp, _Caridina babaulti basrensis_ (Decapoda, Atyidae)
Secondary Title Marine and Freshwater Behaviour and Physiology
Secondary Authors  
Tertiary Title  
Tertiary Authors  
Volume 38
Issue 1
Pages 31–42
Place published  
Published  
Date  
URL
Abstract
Peak release of zoea I larvae of the warmwater shrimp, Caridina babaulti basrensis (Al-Adhub AHY 1987) in the field coincided with the highest summer water temperature (33 C). Zoea I abundances did not correlate significantly with the phase of the lunar cycle ( p¼0.256) and only slightly with time of day (day : night regimes, p¼0.079). Temperature correlated significantly with zoeae I larval release in the field ( p <0.0001). Development and respiration were measured at constant water temperatures ranging from 20 to 35 C in coordination with the temporal distribution of larvae in the field. Cumulative duration for the development of the larval phase of C. babaulti basrensis was 11.4, 7.7, and 6.1 days at 25, 30, and 35 C, respectively. Larvae were unable to complete development at 20 C. Respiration rate for larval C. babaulti basrensis increased in direct proportion to temperature, and revealed metabolic stress at high temperatures. Laboratory rearing supported field data, which indicated a constraint on the presence of stage I zoeae in the plankton at lower temperatures (20 C). Although some larval stages may be metabolically stressed at higher temperatures, rapid development rates accomplished at higher temperatures may be a likely mechanism for retention within the habitat and recruitment to the adult population.
Keywords  
Remarks  
Reference Contributor Tag atolla
Last Changed Wed Dec 5 10:57:53 2012

Creative Commons License Copyright NHMLAC    Design: Dean Pentcheff pentcheff@gmail.com