Post on 13-Jan-2016
Rejuvenation of Hawaiian FishpondsPart 1. Reproduction of Hawaiian Oysters Part 2. Extension Services on the Big Island
Daren GarriquesJr. Extension Agent
Center for Sustainable Aquaculture
Potential Resource
• Hawaii fish ponds have long history of aquaculture
• Historical records indicate fish and inverts were harvested
• Modern times the remaining fish ponds represent an important resource for – Science, self-sustainability and cultural identity
He`eia Fishpond:
Photo by Paepae o He`eia
Past 3 years• Oyster hatchery work• Spat collectors trials, C. gigas growth trial data
collection • D. sandvicensis reproductive biology and
framing
•Tours and community outreach•Aquaponics implementation and technology transfer to schools •Mullet hatchery and distribution
Past 4 months
D. sandvicnesis• 2 to 5 cm in size and ~ 1 to 2 cm in depth• Related to European oyster (O. edulis) and
other tropical small oyster like Caribbean osyter (D. frons)
• Fossil record common to all Hawaii island
Importance of D. sandvicensis
• Endemic to Hawaii • Ecological role of bivalves– Precipitation of suspended solids• In lagoons & estuaries
– Reef building
• Possible aquaculture product • Future application for monitoring pollutants
Gametogenic cycle importance• Base line information– Aquaculture – Other endemic bivalve might be similar
• Future studies – Larvae recruitment– More parameter to characterize this endemic
species– Ecological role studies– Toxicology studies of coastal waters
Possible seasonal patterns of reproduction of D. sandvicensis
• Temperate and boreal species of bivalves show a period of reproductive activity usually during early spring.
• Subtropical species usually are more active during high food abundance in spring and summer
• Tropical species are usually more active in spring and summer months but can also be active in fall and winter months.
Spat collectors placing and monitoring at He’eia
• January 2009 Spat collection bags set at fish pond
• February to June 2009 bags were checked for signs of spat (once per month)
• Substrate used in trial was not colonized
Methods
• Once a month for a year samples (oysters) are collected from He’eia fish pond Oahu
• Two different groups collected at same time for:– CI ratios (30)– GS histology (12)
Field sample collection
CI Samples
Histology
Results
Results cont.
D. Sandvicensis reproductive cycle
• Tropical pattern– CI lower is significant lower in summer months
samples– GS 1 is more significant present in summer
months samples
• Adapted for year around spawning/brooding– GS1 present slightly in Fall and Winter months
C. gigas growth trial data collection 2009
Oyster hatchery work
• C. gigas 2009-2010– Experience gained on all aspects of seed and spat
production • D. sandvicnesis – 2009 (wild stocks) • Spawning, brood collection, larvae rearing and setting
trials– 2010 (wild and F1 stocks)• Brood collection, larvae rearing, setting and growth
trials
Larvae collector
Spat 2 weeks old
Larvae 2 days old Adult 2 years old
D. Sandvicensis culture system
2011 mullet hatchery and extension work
Mullet hatchery work• Hatchery set up• Trials for spawning– Winter spawning trials– Conditioning 6 females – Summer trials ( late June early July 2011)• Monitoring • Spawning
• Fingerling production• Distribution and technology transfer
Mullet hatchery
Winter Spawning trial
• 3 trials– January 28– February 3– February 17
• 1-1.5 million eggs per female
• No fertilization
Conditioning
• 18 fish– 6 females– 12 unkown
• Artificial photoperiod– 1 year into 6 months– Increments in 15 to 30
minutes– First check for mature
females in late May 2011
Extension to fish ponds• Currently identifying obstacles for mullet
production– Literature research management of fry– Life feed production
• Once successful spawning is achieved– Fingerling transportation– Stock densities
Aquaponics
Aquaponic system PACRC
Aquaponic in construction forKeaukaha elementary
Ocean Day at PACRC
Tours
# of Tours 22
Schools 17
Private 5
Total Adults 148
Total students 254
Total 402
Mahalo!