Benjamin L. Chisnall scite author profile

Growth rates of New Zealand endemic longfinned eels (Anguilla dieffenbachii) from streams in pasture and indigenous forest, and from two hydroelectric lakes (Lakes Karapiro and Matahina), were estimated by otolith examination. Habitat-specific growth was further investigated with measurement of widths of annual bands in otoliths. Longfinned eels 170-1095 mm in length ranged between 4 and 60 years old (N = 252). Eels in pastoral streams grew faster (mean annual length increment ±95% CL = 24 ± 3 mm to 36 ± 7 mm) than eels in streams in indigenous forest (annual length increment 12 ± 2 mm to 15 ± 3 mm). Eels from the hydro-electric lakes had growth rates (annual length increments 19 ± 4 and 19 + 7 mm) similar to eels from pastoral streams. Otoliths of most eels showed annual band widths that indicated growth in several different habitats, corresponding to growth during upstream migration, and limited movement among adult habitats. Estimated age at marketable size (220 g) ranged between 7 and 26 years. The particularly slow growth of longfinned eels in streams in indigenous forest has considerable implications for management. The fast growth rates of eels in hydro-electric lakes provides

show abstract

Factors regulating the downstream migration of mature eels (Anguillaspp.) at Aniwhenua Dam, Bay of Plenty, New Zealand

Boubee

Mitchell

Chisnall

et al. 2001

New Zealand Journal of Marine and Freshwater Research

View full text Add to dashboard Cite

The downstream migrations of mature longfinned eels (Anguilla dieffenbachii Gray, 1842) and shortfinned eels (Anguilla australis Richardson, 1848) were investigated at Aniwhenua Dam on the Rangitaiki River between 1992 and 1998. Migrants were mostly females over 1000 mm total length (TL) with otoliths indicating rapid growth rates. Migrations, which occurred on a few nights each autumn, generally began once water temperatures began to decline and ended when temperatures dropped below c. 11 °C. Rainfall and flow increases were found to be key factors triggering migration events. Rainfall exceeding a cumulative total of 40 mm over 3 days accounted for 60% of migrant eels arriving at Aniwhenua. It is proposed that such rainfall triggers could be used as predictors to instigate mitigation activities that would allow mature eels to proceed uninjured past barriers such as hydro-electric dams.

show abstract

Age validation and movement of freshwater eels (Anguilla dieffenbachiiandA. australis) in a New Zealand pastoral stream

Chisnall

Kalish

1993

New Zealand Journal of Marine and Freshwater Research

View full text Add to dashboard Cite

Forty-seven eels were captured, tagged, and released into a 420 m lowland section of the pastoral Ahirau Stream, North Island, New Zealand. Eels were marked with jet inoculations of alcian-blue dye, and plastic tube tags were surgically inserted into the gut cavity. Oxytetracycline hydrochloride was injected intraperitoneally to provide markers on otoliths. Over 3 years, 25 tagged eels were recaptured in the same stream reach, 16 of these within 20 m of their original sites of capture. All recaptured eels retained internal tags which had been incorporated into intestinal mesentary membrane, and 57% of eels recaptured over the first 2 years retained dye marks. Annual length increments, determined from measurement of tagged individuals, were 65 ± 15 mm (mean ± 95% confidence limits) for longfinned eels, and 29±18 mm for shortfinned eels. Translucent zones counted after single fluorescent rings corresponded to the number of years eels had been at liberty. The occurrence of the OTC fluorecence within the translucent zone confirms that these zones are formed in winter in both longfinned and shortfinned eels. Comparison of rings on unburnt and burnt otoliths from tagged eels validated the break-and-burn technique of age determination for both species of New Zealand eel. M93001

show abstract

Seasonal arrival patterns of juvenile freshwater eels(Anguillaspp.) in New Zealand

Jellyman¹,

Chisnall

Bonnett

et al. 1999

New Zealand Journal of Marine and Freshwater Research

View full text Add to dashboard Cite

The arrival season of glass eels of both New Zealand species of freshwater eel, the shortfinned eel (Anguilla australis (Richardson)) and the longfmned eel (A. dieffenbachii (Gray)), was studied by electric fishing of 13 streams/rivers throughout east and west coasts of both North and South Islands at 14-day intervals. Sites were usually located at the most downstream riffle exposed at low tide, and sampled by single-pass electro fishing. The species composition was dominated by shortfins, with exceptions being west coast sites, one in the North Island and two in the South Island. From a comparison of species proportions in adjacent catchments, it was concluded that glass eels make choices about entry in particular water-types. As the stage of pigmentation advanced during the arrival season, "early stage" glass eels were defined and densities of these compared to show seasonal arrival patterns- M98073

show abstract

Habitat preferences of shortfinned eels(Anguilla australis), in two New Zealand lowland lakes

Jellyman¹,

Chisnall

1999

New Zealand Journal of Marine and Freshwater Research

View full text Add to dashboard Cite

The habitats used by shortfinned eels (Anguilla australis (Richardson)) in Lakes Ellesmere (Canterbury) and Waahi (Waikato), New Zealand, were determined using a variety of capture techniques during the summers of 1994/95-1997/98. The most successful technique used to catch juvenile eels (<300 mm total length (TL)) in Lake Ellesmere was a 2-m wide beam trawl; larger eels were captured mainly by fine-meshed fyke nets. Trawl catches during the night exceeded catches during the day by a factor of 2.4. In Lake Ellesmere, juvenile eels were mainly caught in the depth range 0.6-1.2 m, on a gravel and/or mud substrate, and within 1 km of the shore. In contrast, larger eels (>300 mm) preferred sandy substrates, but showed no marked preference for particular depths or distances offshore. The spatial distribution of both size groups was non-random. Although water temperature did not influence catch rates (CPUE, catch-per-unit-effort) of either size group, catches of the smaller eels were greater during the new moon phase than during the other phases-catches of larger eels were unaffected by lunar phase. Length-frequency distributions of eels from Lake Ellesmere were strongly bimodal, with eels 200-300 mm poorly represented-this probably M98068 Received 22 September 1998; accepted 15 December 1998 reflects poor recruitment for several years, either because lake opening times did not coincide with the availability of glass eels, or because overall numbers of glass eels were low. Juvenile eels in Lake Waahi, caught in fine-meshed fyke nets and in special brush collectors, were also inshore residents; unlike Lake Ellesmere, juvenile eels could be caught at the lake margins, probably because Lake Waahi is not subject to the same wind-induced water level fluctuations as Lake Ellesmere. Recruitment into Lake Waahi commenced in mid December, but there was evidence of low recruitment in past years for this lake also. An important outcome of this research is that estimates of the number of juvenile eels to be transplanted during stocking programmes should be made using the area of the shallow littoral rather than the area of the whole lake.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.