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Arnie ain’t no anglerfish

May 17, 2011 by 1 Comment
The Humpback anglerfish uses a modified dorsal...

Image via Wikipedia

Well, well, well, Arnold Schwarzenegger has a love child. As a newlywed I shook my head when I heard the news and said “surely they’re not all like that.”

I decided to investigate to find out if there are any truly monogamous species out in the blue sea.

Also, I did watch March of the Penguins. As much as I admire the Emperor penguins for staying together to raise their young, they are not lifelong monogamists. Each season they usually procreate with a different partner.

However, one group of anglerfish, from the family Ceratiidae, has a very faithful male (a little to clingy though if you ask me). Highly sensitive olfactory adaptations have evolved in these male anglerfish that allow them to smell out females. This is very useful as they are in the desolate landscape of the deep sea. Once they sniff out a mate, the males basically bite into the flesh of the females and fuse their mouth into her bloodstream. After that, these males will degenerate and simply be a source of sperm for the females.

Without this process the males would not be able to survive. The males of this family do not grow ’em tall due to the lack of a alimentary canal, essential for feeding. The males are scientifically smaller than the females and several males can be attached to one female. It took researchers some time to uncover the mystery that is the male anglerfish. For the longest time they couldn’t figure out why they were only collecting females specimens. But, unbeknown-st to them, the males were there too.

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Filed Under: Bony Fishes, Fish, Penguins Tagged With: , , ,

Ringing in the New Year with Carnival of the Blue

January 3, 2011 by 2 Comments

Here it is January and we’ve all sang our last rendition of ‘Auld Lang Syne’. Conversely, what this Beach Chair Scientist has to say is that these marine science bloggers should not be forgotten!

As the host for the Carnival of the Blue No. 44, I proudly bring to you these powerful, poetic, funny, insightful and delightful posts from the last month of 2010. Enjoy!

On December 15, the Wanderin’ Weeta of British Columbia took the time to put together a post about how plastic bags are often a deadly enemy of seabirds. She states that, “Researchers estimate that around 95% of all seabirds have eaten plastic litter.” Please see her post to watch a very eye opening video from YouTube.

The always humorous Mad Kane of New York wrote a light and lovely haiku septet on December 21 about the rare total eclipse during the winter solstice. Enjoy this post and be reminded of the rhythm of the verse!

Also, on December 21 Ben Goldfarb of FishiLeaks shared a post of how Moray eels do the darnedest things! Read his post to learn about the unusual behaviors of these fish.

Next, the NeuroDojo of Texas introduced us to the Dinochelus on December 28. Check out this post for a look at this lobster-like crustacean with an extraordinary claw which we just aren’t sure what it is used for yet.

Last but not least, Miriam of the Deep Sea News rounded out the year on December 29 with a wonderful post on the trials and tribulations of being a compassionate and responsible seafood eater. Read this post if eating sustainable seafood is a part of your New Year’s resolution.

Enjoy and have a wonderful 2011!

Filed Under: Ocean

What is bioluminescence?

September 26, 2010 by 1 Comment

Bioluminescence means light (as in ‘illuminate‘) from life (prefix ‘bio‘).

It is produced by a chemical reaction in many marine or terrestrial organisms. The reaction begins with a chemical called luciferase that catalyzes another chemical, luciferin, to then make oxyluciferin and light.

If you see bioluminescence from a boat it is most often tiny dinoflagellates near the surface of the water that begin this chemical reaction once they’re excited. A boat or a passing porpoise can trigger this excitement. On land we are familiar with bioluminescence in fireflies and a glowing fungus, called foxfire.

But, did you know bioluminescence is responsible for illuminating the majority of our habitable world? That’s right, the deep sea is the largest area of habitable space on our planet. A large number of species that utilize this adaptation live in that environment. Here are some images of the inhabitants of the deep sea that use bioluminescence:

Deep sea shrimp, Acanthephyra purpurea

Deep sea fish, Photostomias guernei

Blackdevil angler fish, Melanocetus johnsonii

All images (c) NOAA.

Filed Under: Fish, Places Tagged With: , , , , ,

Resources & More

Family/Community Resources:

  1. Beachcombing Adventures (A Guide for Investigating the Atlantic Coast Shoreline)
  2. On-the-go Exploring Pouch
  3. Sea Stories
  4. Community Clean-Up Scavenger Hunt/Sustainability Workshops
  5. Twenty five Ways to Connect with Nature
  6. Ten Tips for a Successful Beachcombing Trip
  7. Celebrate the Earth All Year Long
  8. Seven Super Science/Sustainability Podcasts
  9. Favorite Ocean Books for Children
  10. Thirteen Apps for Your Day at the Beach

Teacher Resources (middle/high school):

  1. Learning About the Littoral Zone: Lesson plan, presentation, additional materials
  2. Tracking Plants – Estuary Edition: Lesson planadditional materials
  3. Holiday Countdown Bingo: Bingo Cards, student sheet, teacher sheet, creatures

If you’re interested in developing a lesson plan on a particular marine science or conservation theme, please do not hesitate to contact info@beachchairscientist.com. Also, if you have questions or comments about these lesson plans, please do not hesitate to contact info@beachchairscientist.com.

Places/Organizations:

  1. Alabama Coastal Federation, Mobile, AL
  2. Blue Front Campaign, Washington, D.C.
  3. Camp SEA Lab, Monterey, CA
  4. Conservation Law Foundation, Boston, MA
  5. Florida Oceanographic Coastal Center, Stuart, FL
  6. Galveston Bay Foundation, Galveston, TX
  7. Hatfield Marine Science Center (OSU), Newport, OR
  8. Mote Marine Laboratory, Sarasota, FL
  9. National Marine Educators Association, Ocean Springs, MS
  10. North Carolina Coastal Federation, Newport, NC
  11. The Underwater Times, Miami, FL
  12. Smithsonian Marine Station, Fort Pierce, FL
  13. Under the Sea, Sterling, VA
  14. Wetlands Institute, Stone Harbor, N.J.

Also, these are some of my favorite blogs that I think you should check out if you have the time:

  1. An Ocean Lover in Maine
  2. Beach Treasures & Treasured Beaches
  3. Bucket List Publications
  4. Breaching the Blue
  5. Deep Blue Home
  6. Deep Sea News
  7. Oceans of Hope
  8. Ocean Wild Things
  9. Rolling Harbour Abaco
  10. Sea Monster
  11. Southern Fried Science
  12. Speak Up For Blue
  13. The Daily Ocean
  14. The Fisheries Blog
  15. The Flotsam Diaries
  16. United By Blue
  17. Wild New Jersey

If you have a favorite educational resource, place, or blog that you’d like to add to the list please email info@beachchairscientist.com.

6 reasons why Jacques is cooler than punk rock

September 16, 2009 by 1 Comment

It may not come as a surprise, but a lot of my friends and family consider George Costanza as the most famous marine biologist they know. Long before Seinfeld, Jacques  Cousteau, the world’s most well known deep sea explorer, made studying marine science seem fun JacquesCousteauand not as intimidating as people once thought.

So here are some reasons why Jacques  Cousteau continues to be an inspiration and a legend in the field:

Cousteau co-developed the aqua lung in 1943.

Cousteau co-created the Cousteau Society, dedicated to protecting ocean life, in 1973.

Cousteau’s television show, “The Undersea World of Jacques Cousteau,” was narrated by Cousteau himself and Rod  Sterling.

Cousteau received the Presidential Medal of Honor from Ronald Regan in 1985.

Cousteau received the United  Nations International Environmental Prize, with Peter Scott, in 1975.

Cousteau was honored by John Denver in the 1975 song titled, Calypso. Calypso was his boat’s name.

image (c) yarnela.com
Filed Under: People

What is the rarest shark species?

February 13, 2009 by 2 Comments

There are plenty of candidates. The deep-diving, plankton-feeding megamouth shark was discovered as recently as 1976 and is only known from 40 or so specimens. A group of species called “river sharks” seem pretty rare. Some have been described from just a single collected specimen. There are many deep sea sharks that have only been caught a handful of times. Does that make them rare? Maybe we’re just lousy at finding them?

What is clear is that many species are much rarer than they used to be. One study finds shark populations in the Mediterranean Sea down 97%. Another found oceanic whitetips in the Gulf of Mexico down 99% since the 1950s. Large predators are naturally uncommon as it is. It takes a lot of energy in an ecosystem to support them. It’s up to us to make smart decisions when it comes to seafood and coastal development to keep them from becoming even rarer.

But we’ve only scratched the surface here. Check back often at http://www.beachchairscientist.com for more insight about your favorite beach discoveries.

Jim Wharton
Vice President, Education Division, Director, Center for School and Public Programs, Mote Marine Laboratory

Filed Under: Sharks

A quiz on the geography of the ocean (i.e., oceanography)

June 24, 2016 by Leave a Comment

I’m joyfully studying for an earth science test this month to teach high school oceanography (one day)! I thought I’d share some fun questions here to test your knowledge. And, here’s an image of features of the ocean floor on the from glogster to help jog your memory!

abyssal-plain-jpg

1. The deepest ocean is the
A. Pacific
B. Atlantic

2. Which feature is formed where oceanic plates are separating?
A. submarine canyon
B. rift

3. Which of the following describes a seamount?
A. underwater mountain range
B. isolated mid-ocean volcano

4. A small area of ocean that is partially surrounded by land is called a(n)
A. sea
B. continental shelf

5. A large flat area on the ocean floor is called a(n)
A. rift valley
B. abyssal plain

Comment your answers below (or Facebook or Tweet ’em!)! All correct answers will be dropped into a raffle at the end of the month for a copy of 10 Beachcombing Adventures: A guide for investigating the Atlantic coast shoreline.

Filed Under: Random Fun!, Test Your Knowledge Tagged With:

The short and sweet of horseshoe crab spawning

April 29, 2014 by 2 Comments

You may have heard about the phenomena of horseshoe crab spawning … but, do you really know what’s going on? It’s when hundreds of thousands of these ancient arthropods (dating back 400 million years!) make the journey to low-energy sandy beaches along the Atlantic coast, predominately along the Mid-Atlantic region (highest concentration found along the Delaware Bay), around the time of the full and new moons of May and early June to spawn. Here’s the distilled version of the horseshoe crab spawning saga complete with the words you need to know (i.e., “pedipalps” and “satellite” male) if you want to be considered a horseshoe crab expert. Who doesn’t?

https://www.flickr.com/photos/beachchairscientist/

https://www.flickr.com/photos/beachchairscientist/

  1. Journeying from intertidal and deeper waters, male horseshoe crabs arrive near the beach waiting for females.
  2. As the females come closer to shore, males attach to the female’s abdomen. The extra claw, or “pedipalps”, is what the male uses to attach itself to the females.
  3. Not just the one … but, many “satellite” males follow the conjoined pair.
  4. The females dig a depression about 5 to 30 centimeters deep in the upper part of the beach and deposit the clusters of eggs.
  5. External fertilization occurs – Allows for a little extra competition from the “satellite” males!
  6. Repeat steps 1 through 5 multiple times per season, laying 3,650 to 4,000 eggs in a cluster (usually an estimated 88,000 eggs annually!).
  7. In 2 to 4 weeks after fertilization, planktonic larvae hatch from the eggs. Some slow moving larvae may even winter within the nests and hatch out the following spring.
  8. After hatching, larvae swim for about six days before they relax in shallow waters to molt into their first juvenile stage in approximately 20 days.
  9. For the first two to three years of life horseshoe crabs molt many times over, growing a quarter of their size each time. Once sexual maturity is reached they slowdown their molting to once per year.
  10. Horseshoe crabs mature around 10 years of age (or 17 molts) and are known to live to be approximately 20 years of age.

For more information on horseshoe crabs and “99 reasons I am in Limulus Love” check out my horseshoe crab page here.

Filed Under: Arthropods, Atlantic Horseshoe Crab, Beach, Invertebrates, Marine Science

5 things you might not know about oarfish

October 21, 2013 by 1 Comment

Last week 2 giant, shimmering oarfish washed ashore in southern California. This is not a common occurrence and some speculate that it may be a means to warn of an impending earthquake. Others say that it could just be a “banner week for weird fish photo ops“. In either case, I’m making the most of the teachable moment and sharing some facts about the prehistoric looking bony fish.

1. Oarfish, nicknamed “King of the herring,” are the longest bony fish in the sea reaching a length of up to 56 feet. This fact is not to be confused with the largest fish in the sea or the largest bony fish in the sea.

2. Oarfish got their common name from their long extended pectoral fins. Another identifying feature of oarfish are the long red plumes stretching from their head and other fins.

3. Oarfish swim holding themselves straight up and down in the water column. It’s believed that’s how they search for food.

4. Oarfish are inedible with a gelatinous body texture and hold no commercial value.

5. Oarfish tend to reside in the deep-sea up to 660 feet below the surface of the water. They only come to the surface of the sea when they are sick and vulnerable and often wash ashore after storms. Because of these sightings they’ve tended to prolong sea serpent lore. It wasn’t until 2001 that a oarfish was captured on film by the US Navy.

Image (c) Catalina Island Marine Institute

The first of the 2 sighting from last week was found by some very lucky environmental educators. Image (c) Catalina Island Marine Institute

Filed Under: Bony Fishes, Environmental Education, Fish

99 reasons I’m in ‘Limulus Love’

February 14, 2013 by 1 Comment

It’s no secret that I love those horseshoe crabs. Well someone on Twitter this week asked me why I am so crazy over them so I thought I’d take the time to outline 99 reasons I think Limulus polyphemus are a fascinating species.

  1. Three Nobel Prizes were awarded to scientists who did some or all of their research using horseshoe crab physiology.
  2. As far as the horseshoe crab’s Latin name translation, Limulus mean ‘askew’ and polyphemus is taken from a one-eyed giant in Greek mythology.
  3. The very intriguing name of Xiphosura (Greek ‘Xiphos’ meaning sword and ‘ura’ meaning tail) was given to the order of the Atlantic horseshoe crab and its three closest living related species.anatomyhsc
  4. There are 4 living species of horseshoe crabs and only one of those inhabits the western Atlantic waters – the Atlantic horseshoe crab. The other three are found in the Pacific Ocean.
  5. Samurai warrior helmets were modeled after the prosoma of a horseshoe crab.
  6. The body of a horseshoe crab (top picture) is divided into three parts – the prosoma, opisthosoma and telson (tail).
  7. Horseshoe crabs tend to be no more than 7-14” across.
  8. There once was a 50 foot long, 113,000 pound artificial reef horseshoe crab off the coast of NJ.
  9. Takeshi Yamada (pictured 3rd down) is a world-renowned artist often creating masterpieces using horseshoe crab molts.
  10. Horseshoe crabs have remained fairly unchanged over the past 300 million years (that’s 100 million years before there were dinosaurs on earth!).
  11. Horseshoe crabs are the perfect representative for Darwin’s theory that ‘the most adaptable species will prevail’.
  12. Horseshoe crabs are one of the world’s oldest animals.
  13. Before the last ice age, horseshoe crabs didn’t live much farther north than Florida.
  14. Scientists believe that horseshoe crabs (even perhaps many different species of them) were among the most dominant of animals 300 million years ago.
  15. Horseshoe crabs used to be called ‘horsefoot crabs‘ because their shell was thought to resemble a horse hoof.bcs_limuluslove
  16. Horseshoe crabs are sometimes referred to as a ‘living fossil’.
  17. Adult horseshoe crabs are often referred to as ‘walking museums’.
  18. While horseshoe crabs are opportunistic feeders, they are not aggressive animals!
  19. Most people do not understand the value of horseshoe crabs.
  20. People have organized workshops to understand bait alternatives for using horseshoe crabs to catch eels and conch.
  21. Horseshoe crabs are “the single most-studied invertebrate animal in the world”.
  22. While a horseshoe crab’s telson (tail) helps to create the appearance for an intimidating animal, they are not dangerous animals!
  23. Horseshoe crabs are so misleading – they’re actually more closely related to scorpions and spiders than crabs!
  24. Horseshoe crabs do not have mandibles, antennae, or pincers like true crabs.
  25. Native Americans ate horseshoe crab meat, used the shell to bail water, and used the tail as a spear tip.
  26. A juvenile horseshoe crab is easily identifiable because they look just like adults (see 4th picture down).
  27. Horseshoe crabs molt, or as naturalist Samuel Lockwood stated, “it is spewing itself from its own mouth”.
  28. Horseshoe crab molts are excellent shelter for mud crabs, sand shrimp, and spider crabs.
  29. A female’s lucky number is 17. That’s how many times they’ve molted before they’re ready to mate.
  30. As a horseshoe crab gets older and molts more often, they venture into deeper waters.
  31. Each time a horseshoe crab molts they grow an average on 25%.
  32. A horseshoe crab exoskeleton is made up of chitin – a material with wound healing properties.
  33. Horseshoe crabs spend most of their lives hidden.
  34. At the turn of the 19th century, horseshoe crabs were valued as a fertilizer, particularly for poultry, corn, and tomatoes.
  35. Today fishermen use horseshoe crabs as bait to catch eels and whelk.
  36. The threatened loggerhead sea turtle feasts on adult horseshoe crabs.
  37. American eel, killifish, silversides, summer flounder, and winter flounder rely on horseshoe crabs eggs and larvae for food.
  38. Horseshoe crab eggs are green.
  39. Horseshoe crab eggs are rich in fat and protein.
  40. Horseshoe crabs are big midnight snackers and love to feast on worms and mollusks.Horseshoe-crab-eggs-larvae-visible
  41. The mouth of the horseshoe crab will tickle your fingers if you’re lucky enough to have a job where you get to show people how they eat.
  42. Horseshoe crabs use their legs to chew up food and guide food into their mouths right in between their legs.
  43. Horseshoe crab legs are so strong they can crush a clam.
  44. Horseshoe crabs are expert javelinists – using their telson (tail) to act as a rudder and right itself when it tips over.
  45. The 13 pairs of horseshoe crab appendages are very multipurpose – using them for locomotion. burrowing, food gathering, and/or water flow.
  46. Horseshoe crabs use their dozen legs to swim upside down in the open ocean.
  47. Horseshoe crabs (predictably) participate in an annual orgy each May and June when thousands descend on the eastern Atlantic coastline to spawn (see fourth image down).
  48. Horseshoe crabs have a ritual of spawning during high tides of the new and full moons in May and June.
  49. Horseshoe crabs reach sexual maturity around the ages of 9-12.
  50. Horseshoe crabs tend to live a long time, usually 10 years or so after they’ve sexually matured.
  51. If horseshoe crabs can keep their gills moderately damp their survive to the next high tide in case they were to get hsc_orgystranded.
  52. Horseshoe crabs are great vessels for other animals.
  53. The highest concentration of horseshoe crab spawning on the Atlantic coast takes places along the Delaware Bay.
  54. Approximately 10 horseshoe crabs will survive to adulthood from each of the 90,000 eggs a female lays during her spawning cycle.
  55. A female horseshoe crab will lay almost 20 clutches of eggs each season.
  56. It’s a community effort making certain the eggs get fertilized. Often times many males with aggregate to a female (the males not attached are known as ‘satellite’ males.
  57. In adult males, the second pair of claws (having a distinguishable “boxing-glove” appearance) are used to grasp females during spawning.
  58. If it wasn’t for horseshoe crab eggs, many migratory shorebirds wouldn’t be able to survive.
  59. Many think there is a link between the decline in shorebird populations and horseshoe crab over-harvesting.
  60. The four most abundant species of shorebirds (relying on horseshoe crab eggs) along the Delaware Bay shore are the red knot, ruddy turnstone, semipalmated sandpipers, and sanderlings.
  61. Almost 50% of the red knot population uses Delaware Bay as mid-point stopover to consume thousands of horseshoe crab eggs. These robin-sized birds impressively travel from southern Argentina to the Canadian high Arctic to breed.
  62. The horseshoe crab-shorebird phenomenon helps to generate a large portion of the $522 million  annual ecotourism industry in Cape May County, NJ.satmenhsc
  63. The world’s leading authority of horseshoe crabs is Dr. Carl N. Shuster, Jr.
  64. In March of 2001, NOAA Fisheries Service established the Dr. Carl N. Shuster, Jr. Horseshoe Crab Sanctuary in federal waters off of the  Delaware Bay.
  65. Horseshoe crab blood is blue (see 7th picture down).
  66. Horseshoe crab blood is blue because it contains copper-based hemocyanin to distribute oxygen throughout their bodies (We use an iron-based hemoglobin to move oxygen around).
  67. Horseshoe crabs are essential to biotechnology.
  68. Horseshoe crabs are one of the pioneers in using marine organisms to save human lives.
  69. Horseshoe crabs are what we have to thank for our flu shots.
  70. Horseshoe crabs are sometimes referred to as ‘man’s best friend’.
  71. Horseshoe crabs are often captured to have their blood drained, all in the name of science.
  72. Horseshoe crabs can be released after they have their blood drained.
  73. Horseshoe crab blood cells (amoebocytes) congeal and attach to harmful toxins produced by some types of gram negative bacterias.
  74. Limulus Amoebocyte Lysate (LAL) is the name of the clotting agent made using their blood to detect microbial pathogens in medical intravenous fluids, injectable drugs, and supplies.
  75. The global market for LAL is approximately $50 million per year.
  76. The adaptation for the ability of the horseshoe crab’s blood to congeal in the presence of either living or dead gram negative bacteria has never been able to be reproduced.
  77. Horseshoe crabs have used in the development of wound dressings and surgical sutures.
  78. Horseshoe crabs have a body shape that poses difficulty for predators.wireddotcom_drainblueblood
  79. Horseshoe crabs have ten eyes.
  80. The vision of a horseshoe crab is equally as impressive at night as it is during the day with the use of their lateral eyes.
  81. With a pair of compound eyes, each with 1,000 black disks, horseshoe crabs can see to each side, ahead, behind, and above.
  82. Scientists have learned quite a bit about how human eyes function from research with cells found in horseshoe crab eyes.
  83. Horseshoe crabs have a lateral inhibition mechanism using their eyes which allows them to distinguish mates in murky water.
  84. Horseshoe crabs need a book to breathe, that is – ‘book gills‘ to be more specific.
  85. Horseshoe crab gills have small flaps resembling the pages of a book.
  86. Horseshoe crabs tell time with their tail.
  87. Horseshoe crabs have a heart that cannot beat on its own.
  88. Horseshoe crabs eat through their brain.
  89. Horseshoe crabs chase females that run away!
  90. The black disks, also known as ‘ommatidia‘, found in the compound eyes of the horseshoe crab are the largest known retinal receptors in the animal kingdom.
  91. Horseshoe crabs are able to adapt to vast changes in salinity (i.e., they’re euryhaline).
  92. Horseshoe crabs are able to adapt to vast changes in oxygen availability (i.e., they’re euryoxic).
  93. Tracking juvenile horseshoe crabs with your eyes can be a great way to spend time at the beach.hsceyecloseup
  94. You can also track horseshoe crabs and other wildlife with your iPhone while at the beach.
  95. You can get involved in helping stranded horseshoe crabs and ‘Just flip ’em’ (see last picture).
  96. If you are a classroom teacher in Maryland you can raise horseshoe crabs as a way to increase student’s ocean literacy.
  97. Monitoring programs, like this one in Long Island Sound, are helping to advance the understanding of horseshoe crabs and their impact on humans.
  98. Development, pollution, water quality, and over harvesting have impaired the horseshoe crab’s habitat.
  99. Today and in the future we have the chance to protect horseshoe crab populations at a sustainable level for ecological and commercial uses.smilowitz
Filed Under: Atlantic Horseshoe Crab, Inspiration Tagged With: , , , ,