scholarly journals How to recover from a bad start: size at metamorphosis affects growth and survival in a tropical amphibian

2020 ◽  
Author(s):  
Diana Szekely ◽  
Dan Cogalniceanu ◽  
Paul Szekely ◽  
Diego Armijos-Ojeda ◽  
Valentina Espinosa-Mogrovejo ◽  
...  
Keyword(s):  
Growth Rates ◽  
Survival Rates ◽  
Larval Habitat ◽  
Life Cycles ◽  
Life History Trait ◽  
Locomotor Performance ◽  
Growth And Survival ◽  
Size At Metamorphosis ◽  
Terrestrial Environments ◽  
And Performance

Abstract Background: In species with complex life cycles, size at metamorphosis is a key life-history trait which reflects the complex interactions between costs and benefits of life in the aquatic and terrestrial environments. Whereas the effects of a deteriorating larval habitat (e.g. pond desiccation) on triggering an early metamorphosis have been extensively investigated in amphibians, the consequences of the resulting reduced size at metamorphosis on fitness in the post-metamorphic terrestrial stage remain poorly understood. We tested the hypothesis that a smaller size at metamorphosis negatively affects performance and survival in the ensuing terrestrial stage. Using as model a tropical amphibian ( Ceratophrys stolzmanni ) showing a large phenotypic plasticity in metamorphosing traits, we evaluated the effects of size at metamorphosis on fitness-related trophic and locomotor performance traits, as well as on growth and survival rates. Results: Our results support the hypothesis that a larger size at metamorphosis is correlated with better survival and performance. The survival rate of large metamorphosing individuals was 95%, compared to 60% for those completing metamorphosis at a small size. Locomotor performance and gape size were positively correlated with body size, larger animals being more mobile and capable to ingest larger prey. However, smaller individuals achieved higher growth rates, thus reducing the size gap. Conclusions: Overall, size at metamorphosis affected profoundly the chances of survival in the short term, but smaller surviving individuals partly compensated their initial disadvantages by increasing growth rates.

scholarly journals How to recover from a bad start: size at metamorphosis affects growth and survival in a tropical amphibian

2020 ◽  
Author(s):  
Diana Szekely ◽  
Dan Cogalniceanu ◽  
Paul Szekely ◽  
Diego Armijos-Ojeda ◽  
Valentina Espinosa-Mogrovejo ◽  
...  
Keyword(s):  
Growth Rates ◽  
Survival Rates ◽  
Larval Habitat ◽  
Life Cycles ◽  
Life History Trait ◽  
Locomotor Performance ◽  
Growth And Survival ◽  
Size At Metamorphosis ◽  
Terrestrial Environments ◽  
And Performance

Abstract Background: In species with complex life cycles, size at metamorphosis is a key life-history trait which reflects the complex interactions between costs and benefits of life in the aquatic and terrestrial environments. Whereas the effects of a deteriorating larval habitat (e.g. pond desiccation) on triggering an early metamorphosis have been extensively investigated in amphibians, the consequences of the resulting reduced size at metamorphosis on fitness in the post-metamorphic terrestrial stage remain poorly understood. We tested the hypothesis that a smaller size at metamorphosis negatively affects performance and survival in the ensuing terrestrial stage. Using as model a tropical amphibian (Ceratophrys stolzmanni) showing a large phenotypic plasticity in metamorphosing traits, we evaluated the effects of size at metamorphosis on fitness-related trophic and locomotor performance traits, as well as on growth and survival rates. Results: Our results support the hypothesis that a larger size at metamorphosis is correlated with better survival and performance. The survival rate of large metamorphosing individuals was 95%, compared to 60% for those completing metamorphosis at a small size. Locomotor performance and gape size were positively correlated with body size, larger animals being more mobile and capable to ingest larger prey. However, smaller individuals achieved higher growth rates, thus reducing the size gap. Conclusions: Overall, size at metamorphosis affected profoundly the chances of survival in the short term, but smaller surviving individuals partly compensated their initial disadvantages by increasing growth rates.

scholarly journals How to recover from a bad start: size at metamorphosis affects growth and survival in a tropical amphibian

2020 ◽  
Author(s):  
Diana Szekely ◽  
Dan Cogalniceanu ◽  
Paul Szekely ◽  
Diego Armijos-Ojeda ◽  
Valentina Espinosa-Mogrovejo ◽  
...  
Keyword(s):  
Growth Rates ◽  
Survival Rates ◽  
Larval Habitat ◽  
Life Cycles ◽  
Life History Trait ◽  
Locomotor Performance ◽  
Growth And Survival ◽  
Size At Metamorphosis ◽  
Terrestrial Environments ◽  
And Performance

Abstract Background: In species with complex life cycles, size at metamorphosis is a key life-history trait which reflects the complex interactions between costs and benefits of life in the aquatic and terrestrial environments. Whereas the effects of a deteriorating larval habitat (e.g. pond desiccation) on triggering an early metamorphosis have been extensively investigated in amphibians, the consequences of the resulting reduced size at metamorphosis on fitness in the post-metamorphic terrestrial stage remain poorly understood. We tested the hypothesis that a smaller size at metamorphosis negatively affects performance and survival in the ensuing terrestrial stage. Using as model a tropical amphibian (Ceratophrys stolzmanni) showing a large phenotypic plasticity in metamorphosing traits, we evaluated the effects of size at metamorphosis on fitness-related trophic and locomotor performance traits, as well as on growth and survival rates. Results: Our results support the hypothesis that a larger size at metamorphosis is correlated with better survival and performance. The survival rate of large metamorphosing individuals was 95%, compared to 60% for those completing metamorphosis at a small size. Locomotor performance and gape size were positively correlated with body size, larger animals being more mobile and capable to ingest larger prey. However, smaller individuals achieved higher growth rates, thus reducing the size gap. Conclusions: Overall, size at metamorphosis affected profoundly the chances of survival in the short term, but smaller surviving individuals partly compensated their initial disadvantages by increasing growth rates.

scholarly journals How to recover from a bad start: size at metamorphosis affects growth and survival in a tropical amphibian

2020 ◽  
Author(s):  
Diana Szekely ◽  
Dan Cogalniceanu ◽  
Paul Szekely ◽  
Diego Armijos-Ojeda ◽  
Valentina Espinosa-Mogrovejo ◽  
...  
Keyword(s):  
Growth Rates ◽  
Survival Rates ◽  
Larval Habitat ◽  
Life Cycles ◽  
Life History Trait ◽  
Locomotor Performance ◽  
Growth And Survival ◽  
Size At Metamorphosis ◽  
Terrestrial Environments ◽  
And Performance

Abstract Background:In species with complex life cycles, metamorphosing size is a key life-history trait which reflects the complex interactions between costs and benefits of life in the aquatic and terrestrial environments. Whereas the effects of a deteriorating larval habitat (e.g. pond desiccation) on triggering an early metamorphosis have been extensively investigated in amphibians, the consequences of the resulting reduced size at metamorphosis on fitness in the post-metamorphic terrestrial stage remain poorly understood. We tested the hypothesis that a smaller size at metamorphosis negatively affects performance and fitness in the ensuing terrestrial stage. Using as model a tropical amphibian (Ceratophrys stolzmanni) showing a large phenotypic plasticity in metamorphosing traits, we evaluated the effects of froglets' size at metamorphosis on fitness-related trophic and locomotor performance traits, as well as on growth and survival rates. Results: Our results support the hypothesis that a bigger size at metamorphosis is correlated with better survival and performance. Survival rate of large metamorphosing individuals was 95%, compared to 60% for those completing metamorphosis at a small size. Locomotor performance and gape were positively correlated with size, larger animals being more mobile and capable to ingest larger preys. However, smaller individuals achieved higher growth rates, thus reducing the size gap. Conclusions: Overall, size at metamorphosis had a profound impact on short-term fitness, but smaller surviving individuals compensated their initial disadvantages by increasing growth rates.

Growth, survival and activity patterns of recently metamorphosed Bufo marinus

1993 ◽  
Vol 20 (1) ◽  
pp. 1 ◽  
Author(s):  
MP Cohen ◽  
RA Alford
Keyword(s):  
Profile Analysis ◽  
Activity Patterns ◽  
Survival Rates ◽  
Larval Habitat ◽  
Bufo Marinus ◽  
Daily Maximum ◽  
Growth And Survival ◽  
Factors Affecting ◽  
The Mean ◽  
Stage 1

We examined factors affecting the growth and survival of postmetamorphic Bufo marinus using sampling and experiments. Bufo metamorphs, defined as newly emerged terrestrial toads of 9-29mm snout-ischium length (SIL), were classified into four stages on the basis of colour and size. Stage 1 were uniformly black and about 9-12 mm SIL, stage 2 were mottled with orange spots and about 12-16mm SL, stage 3 had a white mid-dorsal line and were about 16-25mm SIL, and stage 4 had enlarged parotoid glands and were about 25-29 mm SIL. We determined the density of each stage at three distances (0-1, 2-3, 4-5m) from their larval habitat using 1 x 1-m quadrat samples. The mean densities of all metamorphs within 1 m of water were 2.6m-2 and 2.1m-2 for the wet and early dry seasons, respectively. The mean densities of all metamorphs during both seasons at 2-3m and 4-5m from water were 0.8m-2 and 0.6m-2, respectively. Stage 2 metamorphs were most common in samples. Most stage 1 metamorphs occurred within 1m of the water in both seasons (98% wet; 95% dry). Increasing percentages of stage 2, 3 and 4 metamorphs occurred in samples 2-3 and 4-5m from water (38, 49 and 80%, respectively, averaged over both seasons). Three experiments examined the response of metamorph growth and survival rates to density in open-topped flyscreen enclosures. Stage 1 or 2 metamorphs were established at initial densities of 3.3, 6.7 and 16.7m-2. Metamorphs in the lower-density enclosures grew more rapidly than metamorphs in the higher-density enclosures. A profile analysis showed that daily survival rate was not densitydependent. Correlation analyses showed that daily metamorph survival was influenced by daily maximum and minimum temperatures. Metamorphs at lower densities attain juvenile size (30mm) more rapidly; because they survive at the same daily rates as metamorphs at higher densities they experience lower cumulative mortality as metamorphs.

scholarly journals Laminated Root Rot and Fumigant Injection Affect Survival and Growth of Douglas-Fir

2007 ◽  
Vol 22 (3) ◽  
pp. 220-227 ◽  
Author(s):  
Constance A. Harrington ◽  
Walter G. Thies
Keyword(s):  
Tree Growth ◽  
Growth Rates ◽  
Root Rot ◽  
Survival Rates ◽  
Height Growth ◽  
Douglas Fir ◽  
Infection Level ◽  
Growth And Survival ◽  
Growing Seasons ◽  
Tree Survival

Abstract Laminated root rot caused by Phellinus weirii is a significant disease of western conifers; it is important to understand the effects of the disease on tree growth and survival and, for some management objectives, to develop treatments that will reduce those effects. This study was conducted in a 47-year-old Douglas-fir (Pseudotsuga menziesii) stand in northwest Oregon. First, we evaluated the effects of root system infection on diameter and height growth. Growth rates were lowest in trees with high infection levels; root infection level affected diameter growth more than height growth. Second, we evaluated the effects of fumigation treatments on tree growth. The nine treatments were as follows: three dosages of methylisothiocyanate (MITC), four dosages of chloropicrin (trichloronitromethane), one dosage of Vorlex [20% MITC, 80% chlorinated C3 hydrocarbons (v/v)], and a control. The fumigants were applied by inserting them into holes drilled into the base of live trees. After nine growing seasons, all three of the treatments applying different dosages of MITC and the treatment applying the lowest dosage of chloropicrin had higher tree survival rates than the untreated control, and the growth rates in those four fumigation treatments were not significantly different from growth in the surviving control trees.

scholarly journals TINGKAT KELANGSUNGAN HIDUP BENIH IKAN BETOK (A.TESTUDINEUS, BLOCH) YANG DIPELIHARA DIDALAM WADAH YANG MENGGUNAKAN SHELTER BAMBU, PARALON DAN TEMPURUNG KELAPA

2020 ◽  
Vol 5 (2) ◽  
pp. 63
Author(s):  
M Yusuf Arifin ◽  
Muhammad Sugihartono ◽  
Agusten Roy Marpaung
Keyword(s):  
Research Design ◽  
Growth Rates ◽  
Survival Rates ◽  
Environmental Design ◽  
Control Treatment ◽  
Treatment Control ◽  
Growth And Survival ◽  
The People ◽  
Randomized Design ◽  
Completely Randomized Design

Betok fish is very popular with the people because of the delicious and tasty taste of the meat, therefore this type of fish is quite potential for cultivation. (Muslim 2008) in (Anggara et al 2013). Most people who cultivate betok fish (A.testudineus, Bloch) do not understand their character or behavior, so that many farmers experience complaints in maintenance, especially in their growth and survival. As an alternative to the maintenance of Betok fish (A. testudineus, Bloch), the growth rates and viability of the Betok (A. testudineus, Bloch) fry were reared in a container using a shellter. The research design used was an environmental design RAL (completely randomized design) consisting of 4 (four) treatments and 3 (three) replications. The treatments were as follows: Treatment A: Betok fish seeds (A. testudineus, Bloch) without treatment (control), Treatment B: Betok fish seeds (A. testudineus, Bloch) were given a bamboo shellter ,, Treatment C; Betok fish (A. testudineusBloch) was given a coconut shell shellter, Treatment D: Betok fish (A.testudineusBloch) was given a paralon shellter. The results showed that betok (A. tetstudineus, Bloch) seeds were maintained using a shelter (Treatment C and B) resulted in better survival rates (99.35% & 98.07%) than treatments A and D (96.15% & 96.79%).

scholarly journals Influence of the size and form of Artemia sp. nauplii on the growth and survival of Atlantic sturgeon (Acipenser oxyrinchus Mitchill) larvae

2021 ◽  
Vol 29 (2) ◽  
pp. 69-79
Author(s):  
Iwona Piotrowska ◽  
Bożena Szczepkowska ◽  
Michał Kozłowski
Keyword(s):  
Growth Rate ◽  
Body Weight ◽  
Survival Rate ◽  
Specific Growth Rate ◽  
Growth Rates ◽  
Specific Growth ◽  
Survival Rates ◽  
Atlantic Sturgeon ◽  
Growth And Survival ◽  
Acipenser Oxyrinchus

Abstract The aim of the study was to determine the influence of the size and form of Artemia sp. feed on the rearing indices of Atlantic sturgeon larvae. In the experiment, the nauplius sizes used were 480 µm (group AD), 430 µm (group AM), and 430 µm frozen nauplii (group AI). After three weeks of rearing, the sturgeon from group AD had the highest mean body weight of 0.131 g that was statistically significantly different from groups AM (0.071 g) and AI (0.033 g). The longest total length was noted in group AD (2.8 cm) and was statistically different from the others (P ≤ 0.05). Specific growth rate in groups AD and AM was 14.7 and 11.8% d−1, respectively, and these values differed statistically from those in group AI at 7.8% d−1. The highest survival rate was recorded in group AD at 60.6%, while the lowest was noted in group AI at 15.6%, and the differences between these two groups were statistically significant. The results of the experiment indicated that a feed of live 480 µm Artemia sp. nauplius significantly accelerated the growth rates and increased the survival rates of Atlantic sturgeon larvae.

scholarly journals Aquaculture of the Big-Bellied Seahorse Hippocampus Abdominalis Lesson 1827 (Teleostei: Syngnathidae)

2021 ◽  
Author(s):  
◽  
Chris M C Woods
Keyword(s):  
Growth Rates ◽  
Reproductive Output ◽  
Survival Rates ◽  
Stocking Density ◽  
Economic Feasibility ◽  
Natural Diet ◽  
Growth And Survival ◽  
One Year ◽  
Hippocampus Abdominalis ◽  
Tank Colour

<p>Seahorses (Teleostei: Syngnathidae) are subjects of worldwide demand for medicinal use, as curios, and as live ornamental aquarium fish. Aquaculture has the potential to replace or at least supplement potentially unsustainable wild exploitation as the supply source of seahorses. The primary aim of the research within this thesis was to determine techniques for improving the technical and economic feasibility for commercially culturing the big-bellied seahorse Hippocampus abdominalis in New Zealand. In a preliminary investigation, the breeding of wild H. abdominalis in captivity and rearing of juveniles was examined, as difficulties have been encountered with these in historical attempts at culturing H. abdominalis. Breeding was found to be facilitated by providing tanks with a water height of 1 m. This depth of water allowed females to transfer their eggs to male seahorses during the vertical rising stage of mating. Growth rates of progeny to sexual maturity were reasonable with seahorses reaching an average 11 cm in standard length (SL) at one year of age, but high juvenile mortality was observed in the first few months of age, with an average 10.6% of juveniles surviving to one year. Further on-growing of these first generation progeny to seven years of age (average of 27 cm SL for both sexes) demonstrated the robustness of the species in captivity and potential to supply large seahorses to the medicinal trade where large size is desirable. To improve juvenile survival and growth, the effects of initial tank colour, lighting arrangement and stocking density on early juveniles were tested. Juveniles at one week of age were found to have higher attack rate and capture success on Artemia nauplii in clear jars than those contained in white- or black-wrapped jars, but this effect of tank colour had less affect on one month-old juveniles. Juveniles were also found to suffer fewer incidences of air bubble ingestion in side-illuminated tanks due to positively phototactic prey (Artemia) being drawn away from the water surface. The rearing of juveniles from birth to two months of age in glass aquaria with side-illumination and tank surfaces blacked-out above the waterline resulted in survival rates of >80% due to increased feeding efficiency and reduced risk of air bubble ingestion. Juvenile growth and survival at stocking densities of 1, 2 and 5 juveniles l-1 demonstrated that increasing stocking density resulted in reduced growth and survival, due to the greater occurrence of juveniles grasping and wrestling each other with their prehensile tails. Producing live foods for fish is a significant cost in finfish culture. This has led to concerted efforts to develop appropriate artificial or inert diets to reduce culture costs. To determine whether juvenile seahorses could be weaned from live food to inert diets, two inert diets (Golden Pearls and frozen copepods) were tested. It was demonstrated that one and two month-old juvenile H. abdominalis could ingest and survive on these inert foods. Co-feeding the inert diets with live Artemia improved feeding on the inert foods. However, growth and survival rates of juveniles on the inert diets were inferior to those fed only on live enriched Artemia. Cultured live foods such as Artemia are often enriched with various enrichment media to boost their nutritional value. However, enrichment media can vary in their nutritional value relative to the final target organisms they are being fed to, as well as their relative cost-effectiveness. Therefore, the effect of different Artemia enrichments on the growth and survival of H. abdominalis and their relative cost-effectiveness was tested using three commercial enrichment products (Super Selco®, DHA Protein Selco® and Algamac-3050®) and a low-cost Artemia on-growing diet (EPABSF/Spirulina platensis). On a cost/benefit basis, EPABSF/S. platensis worked out to be the most cost- effective for H. abdominalis, with comparable growth rates to seahorses fed Artemia enriched with DHA Protein Selco® and Algamac-3050®. Juvenile growth rates were poorest on Artemia enriched with Super Selco®. Feeding seahorses frozen mysid shrimp may help reduce culture costs and also increase cultured seahorse marketability to the aquarium trade, but their efficacy in seahorse culture is largely untested. Frozen mysids (Amblyops kempi) were shown to be an acceptable alternative to live enriched Artemia for H. abdominalis, providing comparable rates of seahorse growth and survival. When daily rations of frozen mysids at 5%, 10%, 15% and 20% wet body weight (wbw) were tested there was no growth advantage to feeding seahorses more than 5% wbw per day in terms of increase in seahorse length. There was a wet weight gain and Condition Factor (CF) advantage associated with increasing feed ration >10%. Feed conversion ratios (FCR) became less efficient as feed ration increased based on the total amount of mysids offered to seahorses, with increasing food wastage. However, when actual mysid consumption was taken into account there were no significant differences in FCR between rations. The natural diet and male reproductive output of H. abdominalis in Wellington Harbour was examined for use as aquaculture benchmarks. Natural diet consisted mainly of epibenthic and epifaunal crustaceans (e.g. amphipods, mysid shrimp and caridean shrimp). There were no sex-related differences in diet although there were some size- related differences with smaller seahorses consuming more amphipods. Some of the prey species eaten by wild H. abdominalis may show potential as cultured foods. Wild males produced an average of 271 juveniles per brood, with brood size increasing with parent male size. Comparison of wild reproductive output data with those of cultured male H. abdominalis revealed that cultured male output was approximately 27% lower than that of wild males. However, there were no differences in the quality (size and weight) of the juveniles produced by wild and cultured male H. abdominalis. It is suggested that cultured female reproductive output is the primary determinant in lower cultured male seahorse reproductive output. The research within this thesis has contributed to improving the technical and economic feasibility for commercially culturing the big-bellied seahorse Hippocampus abdominalis.</p>

scholarly journals Aquaculture of the Big-Bellied Seahorse Hippocampus Abdominalis Lesson 1827 (Teleostei: Syngnathidae)

2021 ◽  
Author(s):  
◽  
Chris M C Woods
Keyword(s):  
Growth Rates ◽  
Reproductive Output ◽  
Survival Rates ◽  
Stocking Density ◽  
Economic Feasibility ◽  
Natural Diet ◽  
Growth And Survival ◽  
One Year ◽  
Hippocampus Abdominalis ◽  
Tank Colour

<p>Seahorses (Teleostei: Syngnathidae) are subjects of worldwide demand for medicinal use, as curios, and as live ornamental aquarium fish. Aquaculture has the potential to replace or at least supplement potentially unsustainable wild exploitation as the supply source of seahorses. The primary aim of the research within this thesis was to determine techniques for improving the technical and economic feasibility for commercially culturing the big-bellied seahorse Hippocampus abdominalis in New Zealand. In a preliminary investigation, the breeding of wild H. abdominalis in captivity and rearing of juveniles was examined, as difficulties have been encountered with these in historical attempts at culturing H. abdominalis. Breeding was found to be facilitated by providing tanks with a water height of 1 m. This depth of water allowed females to transfer their eggs to male seahorses during the vertical rising stage of mating. Growth rates of progeny to sexual maturity were reasonable with seahorses reaching an average 11 cm in standard length (SL) at one year of age, but high juvenile mortality was observed in the first few months of age, with an average 10.6% of juveniles surviving to one year. Further on-growing of these first generation progeny to seven years of age (average of 27 cm SL for both sexes) demonstrated the robustness of the species in captivity and potential to supply large seahorses to the medicinal trade where large size is desirable. To improve juvenile survival and growth, the effects of initial tank colour, lighting arrangement and stocking density on early juveniles were tested. Juveniles at one week of age were found to have higher attack rate and capture success on Artemia nauplii in clear jars than those contained in white- or black-wrapped jars, but this effect of tank colour had less affect on one month-old juveniles. Juveniles were also found to suffer fewer incidences of air bubble ingestion in side-illuminated tanks due to positively phototactic prey (Artemia) being drawn away from the water surface. The rearing of juveniles from birth to two months of age in glass aquaria with side-illumination and tank surfaces blacked-out above the waterline resulted in survival rates of >80% due to increased feeding efficiency and reduced risk of air bubble ingestion. Juvenile growth and survival at stocking densities of 1, 2 and 5 juveniles l-1 demonstrated that increasing stocking density resulted in reduced growth and survival, due to the greater occurrence of juveniles grasping and wrestling each other with their prehensile tails. Producing live foods for fish is a significant cost in finfish culture. This has led to concerted efforts to develop appropriate artificial or inert diets to reduce culture costs. To determine whether juvenile seahorses could be weaned from live food to inert diets, two inert diets (Golden Pearls and frozen copepods) were tested. It was demonstrated that one and two month-old juvenile H. abdominalis could ingest and survive on these inert foods. Co-feeding the inert diets with live Artemia improved feeding on the inert foods. However, growth and survival rates of juveniles on the inert diets were inferior to those fed only on live enriched Artemia. Cultured live foods such as Artemia are often enriched with various enrichment media to boost their nutritional value. However, enrichment media can vary in their nutritional value relative to the final target organisms they are being fed to, as well as their relative cost-effectiveness. Therefore, the effect of different Artemia enrichments on the growth and survival of H. abdominalis and their relative cost-effectiveness was tested using three commercial enrichment products (Super Selco®, DHA Protein Selco® and Algamac-3050®) and a low-cost Artemia on-growing diet (EPABSF/Spirulina platensis). On a cost/benefit basis, EPABSF/S. platensis worked out to be the most cost- effective for H. abdominalis, with comparable growth rates to seahorses fed Artemia enriched with DHA Protein Selco® and Algamac-3050®. Juvenile growth rates were poorest on Artemia enriched with Super Selco®. Feeding seahorses frozen mysid shrimp may help reduce culture costs and also increase cultured seahorse marketability to the aquarium trade, but their efficacy in seahorse culture is largely untested. Frozen mysids (Amblyops kempi) were shown to be an acceptable alternative to live enriched Artemia for H. abdominalis, providing comparable rates of seahorse growth and survival. When daily rations of frozen mysids at 5%, 10%, 15% and 20% wet body weight (wbw) were tested there was no growth advantage to feeding seahorses more than 5% wbw per day in terms of increase in seahorse length. There was a wet weight gain and Condition Factor (CF) advantage associated with increasing feed ration >10%. Feed conversion ratios (FCR) became less efficient as feed ration increased based on the total amount of mysids offered to seahorses, with increasing food wastage. However, when actual mysid consumption was taken into account there were no significant differences in FCR between rations. The natural diet and male reproductive output of H. abdominalis in Wellington Harbour was examined for use as aquaculture benchmarks. Natural diet consisted mainly of epibenthic and epifaunal crustaceans (e.g. amphipods, mysid shrimp and caridean shrimp). There were no sex-related differences in diet although there were some size- related differences with smaller seahorses consuming more amphipods. Some of the prey species eaten by wild H. abdominalis may show potential as cultured foods. Wild males produced an average of 271 juveniles per brood, with brood size increasing with parent male size. Comparison of wild reproductive output data with those of cultured male H. abdominalis revealed that cultured male output was approximately 27% lower than that of wild males. However, there were no differences in the quality (size and weight) of the juveniles produced by wild and cultured male H. abdominalis. It is suggested that cultured female reproductive output is the primary determinant in lower cultured male seahorse reproductive output. The research within this thesis has contributed to improving the technical and economic feasibility for commercially culturing the big-bellied seahorse Hippocampus abdominalis.</p>

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