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Wave Exposure and its
Effects on the Diversity
of a Shoreline
Anne Haley, Lauren Jonah, Riki Krentz,
Jessica Hingley & Caroline Méthé
Introduction - diversity
• Health and survival of ecosystem
• 2 variables: richness & evenness
• Two diversity indices: Shannon-Wiener and Simpson’s
• Physical & biological stressors affect diversity - eg. wave
exposure
Wave Exposure
• Strong influence on diversity
• Contradictory past research in animal species
• More agreement in botanical species
− Greater diversity in wave-exposed
Effects of wave exposure
• Research question: What is the optimal amount of wave
exposure to yield the greatest diversity?
• Intermediate Disturbance Hypothesis
• Our hypothesis: greater diversity at moderate → high → low
• Three sites: low, moderate and high
Methods
• Indian Point, Greens Point and Bar road
• 10 quadrants of 1x1m
• 100m transect line
Methods
• Quadrant counts
− Animal counts & estimates
− % plant coverage estimates
• Unknown species were taken back
to the lab for further
identification
Results
• No significant difference between sites
− Data was not normalized
• Diversity indices
− Moderate → Low → High
Results - Fauna
Results - Fauna
•
•
Species diversity: moderate → low → high
• Moderate wave exposure = highest alpha
• Overall low beta (changeover in species)
Results - Flora
Results - Flora
•
• Species diversity: high → moderate → low
• High and low wave exposure = highest alpha
• Overall high beta (changeover in species)
Discussion
• Support for the intermediate disturbance hypothesis
− Moderate wave exposure = greatest species diversity
• High wave exposure sites did not have greater diversity
than sites with low wave exposure
• These results were analyzed only on animal species,
due to plant abundance was measured in percent
coverage
Discussion
Crashing of waves on intertidal substrate
(disturbance): independent variable
Habitat disturbances:
− Renew limiting resources: oxygen,
nutrients
− Prevent dominating species
Excessive amounts = unsuitable habitat
Discussion
High Wave Exposure
Greater number of plants
• Plants are colonizers after disturbance due to
succession
No barnacles recorded
• Desiccation, duration of emergence
• Whiplash effect (Grant, 1997)
− Fronds physically remove barnacles with
wave motion
• Interaction with whelks?
Discussion
Low Wave Exposure
Very few plants were found
• Soft, muddy substrate which does not
provide a surface for fauna to grow
Areas for improvement
• Samples collected from the immediate surface
•
Some species gone unnoticed
• Brief sampling time (low tide)
• Estimations
• Varying counting methods
• Normalize data
• Inaccurate identification
•
Little differences in barnacle and periwinkle species
Conclusions
• Species diversity was highest in areas with moderate
wave intensity
• Proven by the intermediate disturbance hypothesis
− Balance of disturbances yields the greatest amount
of species richness and evenness → diversity
Questions?