Research Groups
Larval Ecology
 A priority in marine biological sciences is to increase quantitative
measurements of the development and survival of larvae in the plankton.
Seventy percent of marine species have planktonic larvae (a critical
life-history stage), yet there is little information on their ecology.
This reflects the difficulties associated with studying larvae in the
plankton, where the advection by water currents rapidly disperse these
stages. The lack of quantitative developmental and mortality data has
hindered an understanding of many aspects of marine ecology, ranging
from the effective management of economically important species, through
to an understanding of the evolution of life-history strategies. our
research aims to gain a better understanding of life-history strategy
outcomes by examining the survival, development, and dispersal of planktotrophic
and lecithotrophic echinoderm larvae within the plankton of Doubtful
Sound. Specifically, we will carry out a quantitative and study on;
 Life-history strategies and larval development in crab and echinoderm
species- Dispersal of lecithotrophic and planktotrophic larvae within
Doubtful Sound
- Rates of mortality of lecithotrophic and planktotrophic
larvae
- Rates of development of lecithotrophic and planktotrophic
larvae
- Rates of larval development and mortality in summer (high
food) and winter (low food) conditions
- Comparison between theoretical
estimates of larval mortality with those measured in the fiord
Ultraviolet Radiation influences on invertebrate larval ecology
 Larvae are a key stage of most marine species, and their rates of mortality
and development are crucial life history parameters. Ultraviolet (UV)
radiation can have a deleterious effect on development and survival
of larval stages, and will affect community composition if there are
species-specific differences in the tolerance of these stages to UV
radiation. This research will examine differences in UV tolerance of
NZ invertebrate in Southern New Zealand.
We are particularly interested in sunscreening and anti-oxidant compounds
in the embryos and larval stages. Differences in the concentration of
these photo-protective compounds may influence the larvae's susceptibility
to UV.
People
Dr Steve Wing
Dr Miles Lamare
Associate Professor Mike Barker
Students
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