Beachcombing: Sand Through My Fingers

To see a world in a grain of sand,
And a heaven in a wild flower,
Hold infinity in the palm of your hand,
And eternity in an hour.
William Blake - Auguries of Innocence

I’ve written about Beverly & Greg becoming psammophiles or sand collectors. The word psammophile can also be used to describe an animal that prefers to live in the sand ("sand loving"). I am sure that my two friends are truly missing the warm sandy beaches of Saipan so it is not too far fetched to call them as such. I’ve been collecting small samples of sand to send the two every time I beachcomb. So far I’ve about 13 samples and only missing samples from a few beaches on Saipan. Take a look at some of the samples:

HIDDEN BEACH

Hidden Beach is the northernmost Eastern beach on Saipan located in the village of Talofofo. It is a small pocket of a beach at the end of a stream. Most of the sand is composed of broken corals and shells.

SAN JUAN BEACH

DJ, TonTon & Laurina at San Juan Beach.

San Juan Beach is the most immediate beach south of Hidden Beach but the composition of the sand is quite different.

Look at it closely and you can see sizable silica crystals. Silicate rocks (SiO2, Silicon dioxide) like Quartz and Citrine, and carbonates like Calcite and Aragonite (CaCO3, Calcium carbonate) are quite abundant here to the delight of crystal hunters.


LAULAU BEACH
Black sand beaches on Saipan? Sure! I found a patch of black sand at LauLau Beach, Kagman close to where the dive cut is at. I’ve had the samples for more than 3 years thinking that they were mica (aluminum silicate). Mica usually forms in flakes but looking closely at the samples, the grains are clearly many sided.

I was using a dental scraper and noticed black sand grains clinging to the metallic tool! The sand was magnetic! The black sand in LauLau is magnetite after all: an iron oxide (FeFeO4). Magnetite is 72% iron and geologists have used their natural characteristic to align themselves to the North Pole to figure out the past movement of continents. This technique is called paleomagnetism.

There are also lots of silica crystals mixed in the Lau Lau sample as well. Sifting allows the lighter crystals to move to the top while the heavier magnetite to settle at the bottom.

Oooh! Crystals!

LADDER BEACH

Some Japanese islands are famous for their star sand and are marketed to the tourists that way. I noticed a star sand bloom a few weeks ago at Ladder Beach. Star sand are single-celled marine protozoans called foramineferans (forams for short). I often hear that there are more star sand at Long Beach, Tinian but I now believe that they are more common than we think on Saipan (I’ve seen them all over). All you need is a scrutinizing eye for their beige colored tests! Can you see the star sand? Look closer...

I'm pretty sure Bev & Greg will have nicer pics to share from their Leica cam!

COW TOWN BEACH

Go to Marpi Village, pass the landfill and follow the unpaved trail to Cow Town Beach. Here are my buddies Kevin & DJ from a few months ago. At low tide, you will see a patch beach that is full of star sand, broken corals, micro shells, and Marginopora to the left of the entrance.

I like to call the Marginopora, halo sand because of their disk shape. Marginopora like star sand are forams. Can you see the halo sand?

Here they are...

Okay! If all that talk about sand was boring to you, here is a cute picture of Hayden Lucas to make up. He is becoming quite a beachcomber and psammophile himself!

CRAB CARAPACE

I picked up a pretty crab head of what looks like a Carpilius convexus (Forskal, 1775) also known as the Variable Coral Crab. It belongs to the Xanthidae Family also known as the Coral crabs or Dark-fingered crabs.

Many Xanthids are poisonous. Sadly, I hear that they are eaten in some Micronesian islands to commit suicide.

STARFISH

I was surprised to see starfish in the shallow Saipan Lagoon. When I first saw one, I thought it accidental or misplaced. Then I found more. These are Linckia multifora (Lamark, 1816) or Spotted Linckia seastars. I often find them living in coral reefs rather than on sandy lagoons with sea grass. They are related to the much bigger and better known Blue Sea Star, Linckia laevigata (L, 1758). These stars have the habit of discarding an arm that often regenerates into a whole new sea star! Of course, we returned these animals to their respective spots unharmed with all their arms still intact.

Well, that was just a little story I wanted to share before I go to bed. I hope you enjoyed it and lets talk stories again soon. Take care and stay safe.

Ti napu.

The Beachcomber

Chamidae- Jewel Box of the sea

So far I’ve been sharing a bit of what I know of the importance of the spiny oyster family Spondylidea to the ancient people of Micronesia especially to the Chamorros of the Mariana Islands of Guahan (Guam), Saipan, Tinian and Luta (Rota). The Spondylus bivalve (marine seashells with two valves) is sessile, cementing their shells to corals or rocks, which the ancient people collected live or dead washed up on the beach. Usually it is the top valve that were cut and polished into salape’ (coin-shaped ornaments) that were bound together by natural cord fibers. At times the whole valve was kept intact, polished, and a hole or two were drilled in them to accommodate binding.

I’ve experimented and developed somewhat of a hobby replicating these artifacts and experimenting with other pendant shapes. I’d like to expand more in this blog what information I’ve collected on the biology and taxonomy of the Spondylus, but it is very difficult to distinguish between the species because of the numerous variations in shapes, forms, colors and sizes. I’ll put this part of my blogging on hold for a while until I get more information and better identifiable samples. Instead I would like to talk about a closely related family, the Chamidae.

The bivalves of the family Chamidae looks much like a spiny oyster because of their projecting spines and radial ridges. Because of their great beauty, they are commonly called Jewel Boxes. They are heavy thick shells that are a bit rounded, with the top valve flatter than the deeply concave bottom valve. I found that you could distinguish a Chamidae from a Spondylus by looking at the hinge and the muscle scar inside of the shells. The Spondylus has two strong interlocking teeth-like hinges (A) and one adductor muscle scar (A1), while the Chama has a single tooth (B) that fits in a groove of the opposite valve and two muscle scars (B1). An internal black ligament connects the valves of the Spondylus, while the Chama’s ligament is external.

According to the Micronesica Vol. 35-36, June 2003 issue (G. Paulay, ed.), Guam has about nine species recorded including Chama aperella, C. brassica, C. fibula, C. iostoma, C. lazarus, C. macerophylla, C. pacifica, C. spinosa and one unidentified. The absence of reference materials with good photo representations are hard to come by so this adds to the difficulty in positively identifying some of the samples that I have collected. The Marine Biodiversity of Guam and the Mariana Islands website has a few pictures that you can check out to help identify local invertebrates: http://128.227.186.212/reefs/guamimg/bivalvia/index.html

Chama limbula
On top of the difficulty in identifying what type of Chamidae you may have, finding shell samples while beachcombing is equally challenging. The following sample is a rare beachcombing find since the two valves were intact together. It is a Chama limbula (Lamark, 1819). It doesn’t look like a shell to be fascinated about from the outside since it is encrusted with white coralline algae and whatever spines it may have had have been eroded. Iinside it has almost a gemlike polished quality with purple coloration in the margins and a light jade-like green. The bottom valve is deep and the top is somewhat flattened. It is about 90mm at the longest measurement. I found it at Obyan Beach, Saipan in August 2005. I’ve made pendants out of these shells as you’ll read a bit latter on this post.

Chama asperella
The next few pictures below are the different views of the upper valve of what I think is Chama asperella (Lamark, 1819). It is a small Jewel Box that is mostly white with a pink umbone, or the pointed structure where the beak or the initial point of shell growth is. It is about 29mm at the longest measurement and is fairly strong and thick. Here's a picture of one in situ: http://128.227.186.212/reefs/guamimg/bivalvia/index.html

The next two set of pictures maybe C. asperella since they are mostly white, but they have purple radial coloration. This makes me think that they maybe a different species. There are not enough resources at the time for me to make a definitive call. They measure 2mm and 19mm in length respectively.

Unidentified purple Chama
The next set of pictures is the external and internal views of a common Jewel Box that you can find washed up on many of the Saipan beaches. They are usually eroded or covered with encrusting algae. I don’t have a positive identification for these purple Chamas yet but they are fascinating nonetheless. Can anyone help me with the identification? Are they just another variety of C. asperella? They are usually small with the largest pictured here at only 20mm at the longest measurement.




Unidentified pink Chama
The next set of pictures is of again an unidentified Chama of which I pick up fragments infrequently at Wing Beach, Saipan. It has a pink hue and a pronounced undulating growth pattern. Anyone know what I is? It is comparatively of larger size in size to C. asperella at 58mm lengthwise.

Unidentified orange Chama (C. pacifica?)
This small 28mm sample of an orange tinged upper valve of an unidentified Chama is fascinating to me since a few spines are still intact. I’ve also included a few picture views of some similarly colored fragments. Anyone know what they are? I'm kind of leaning towards Chama pacifica (Broderip, 1834) but am not totally convinced yet until I see a better sample.

Unidentified spondylus-like Chama
I mistook the shells pictured next in external and internal views for young Spondylus. A closer look though revealed two adductor muscle scars and the strange striped pattern that occurs in Chama limbula (visible when the surface is ground). I wonder if these are just young C. limbula of are they a different species. The valves are quite thin and light, and the longest one is only 29mm.

Chama lazarus and Chama brassica
Finally, pictured below is what looks like the Lazarus Jewl Box (Chama lazarus, Linnaeus 1758). It is generally easy to identify since they are almost often white, with large scaly flattened spines. I don’t have any intact samples with both valves but here are pictures of separate top and bottom valves with the inner and outer views of the shells. They are popular with collectors when intact and the ones that are highly prized have extended forked spines.

I thought all of the samples pictured below were C. lazarus but the more closely I looked, the top middle and right samples were not shaped round like the other samples and their spines are short and scaly. I think that these maybe Chama brassica (Reeve, 1846) instead.

A Jewel Box for your jewel box

I haven’t found any evidence in my research for information about the ancient Chamorros utilizing Chama for ornamentation. It is well documented though that the Solomon Island natives cut and polished Chama pacifica (Romu in their language) into ornamental beads. They actually bring out the shell’s red color by exposing them to fire. Their money beads are called Tafuliae and you can read about them here and see some pictures: http://toabaita-authority.blogspot.com/2006/03/note-on-shell-money-tafuliae-that-is.html It is amazing how Tafuliae looks vey much like the Spondylus salape' beads that the ancient Chamorros made!

While beachcombing, I happened upon a polished upper valve of what I knew to be a bivalve at the time. It had an amazing swirl of colors and patterns that was unknown to me and it was ovoid in shape, which made it easy for me to visualize as a pendant. After reading a bit more and comparing the few samples that I was able to pick up, I concluded that these were Chama limbula valves.

It seems that the Chama’s growth pattern on the top valve is an outward and forward moving swirl. As the animal grows and build upon its shell different colors are produced that may include white, browns, pinks, purples, and greens. A strange striped pattern occurs as the animal builds layers on top and away from almost the opposite side of the hinge. You wouldn’t know that these colors and patterns were present because in nature, the shells are often covered with coralline growth from algae or sponges, or they may even be eroded. To expose the colors, I had to grind the surface and chose (or guessed really) how much of the colors or patterns to expose. I usually leave the natural shape of the shell.

Below is the biggest Chama limbula valve that I happened upon thus far. It is about 50mm at the longest measurement, and is solid and heavy. It turned into a gorgeous piece.

The purple swirl patterns of the next piece surprised me when I ground into it. How can such a small object hold so much beauty? This one is about 31mm in length.

The next picture below was the first Chama that I found and made into a pendant. The ocean did the polishing for me, the shape is natural and uncut, and I actually just drilled a hole to accommodate the binding.

The next piece below has a very busy color pattern of brown, pink and white, and it even has a hint of blue. I paired it with a smaller type of Chamidae made into a salape’ or coin-shaped bead. The smaller bead is one of the unidentified purple Chamidea polished.

Thanks again for letting me share

The Beachcomber