Over the past months, you may have
followed discussions about our efforts to count and tag horseshoe
crabs on several area beaches and Avalonia’s Sandy Point Island.
On Wednesday, July 17, Avalonia
volunteer taggers Binti Ackley and Beth Sullivan were joined by
Professors Jennifer Mattei and Mark Beekey, and four students from
Sacred Heart University to do further studies of the population on
the Island. Thanks to Avalonia member and Pine Point science teacher
Jon Mitchell we were transported, gear and all, back and forth, and
he joined the group.
The Sacred Heart team has been studying
all aspects of Horseshoe Crab biology: life spans, migration routes,
mating studies, habitat quality, nesting and hatching studies as well
as all stages in between. A great deal of information has been
amassed over the last decade and they continue to compile and add to
the data base.
On this morning, we arrived at the
beach at low tide, giving us the greatest expanse of beach where we
expected to find nest depressions, as well as mud flats and small
pools where we might find newly hatched juveniles. Horseshoe crab
nests are mostly dug during the high tide and at night. This morning
there were dozens of depressions along the high tide line indicating
nesting activity over the last week. We gently scraped away layers of
sand until we uncovered the clusters of eggs. Newly deposited eggs
are glistening grey/blue, not much bigger than grains of sand, and
are somewhat clumped together.
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| Horseshoe crab eggs look like small pearls mixed in the sand. |
As the eggs mature, they appear to
become more beige or peach colored, and the ones that were closest to
hatching were nearly translucent and the minute crab could be seen,
at times, moving inside the egg. Samples of eggs were taken from
dozens of different nests along the shore. They will be evaluated for
numerous things. Some will be checked for heavy metals, including
lead. This is often found in habitats near where hunting has
occurred and the lead shot becomes absorbed into the sand area and
into the eggs. They will also evaluate for the caloric content of
the eggs to see the quality of the “food supply” inside of the
egg, usually measured in the fat content, and may indicate health or
viability.
Another interesting aspect of examining
the nests was the presence of an entire community of organisms that
live within the nest. The organisms are dependent on the eggs, the
spawning fluid or milt, the sugar based material that holds the eggs
together, and the bacteria that develop within the nest. There were
worms, isopods, amphipods and even beetles that spend their life
cycle within horse shoe crab nests. Many nests had deep holes poked
into them and footprints all around from numerous bird species,
notably sandpipers and oystercatchers that probe for the nutritious
eggs.
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| Examining a nest for eggs. Note the bird foot prints surrounding the area. |
In the mudflat pools we were shown how
to really pick out the newly hatched, juvenile crabs, that were so
small they were easily mistaken for tiny bits of gravel. The very
smallest were probably hatched within the last weeks.
 |
| Newly hatched horseshoe crabs. |
We also found juvenile crabs that
ranged up to two inches across that were probably the young of last
year. These burrow to forage in the mudflats and may be found by
their trails in the sand. There were also weighed, measured and
categorized.
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| A one year old juvenile. |
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| Underside of a juvenile. |
We also scouted
for adult crabs, though they were hard to find because of the time in
the moon cycle as well as the tide levels. We did find at least five
and they were weighed, measured and photographed, and samples taken
from each to assess health and heavy metals in their blood.
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| This Horseshoe crab was tagged at least three years ago. |
 |
| Taking samples from an adult horseshoe crab. |
 |
| Documenting a tagged visitor to Sandy Point. |
The scientist team checked soil
samples, plant material, other invertebrates, small fishes and snails
that share the habitat with the crabs.
It was pretty amazing to explore the
web of life and interdependency to be discovered along a special
stretch of sandy beach.
We are excited to have a connection
with the Sacred Heart team and look forward to sharing their data and
learning more about a special inhabitant of our Avalonia Island.
Written and photographed by Beth
Sullivan.
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