You can slide the video along–much of it is very repetitive…

And here are a couple sites about Octopuses that I also find interesting…

Octopuses of the family Octopodidae adopt two major life-history strategies. The first is the production of relatively few, large eggs resulting in well-developed hatchlings that resemble the adults and rapidly adopt the benthic habit of their parents. The second strategy is production of numerous small eggs that hatch into planktonic, free-swimming hatchlings with few suckers, simple chromatophores and transparent musculature. These distinctive planktonic stages are termed paralarvae and differ from conspecific adults in their morphology, physiology, ecology and behaviour. This study aims to review available knowledge on this subject. In benthic octopuses with planktonic stages, spawning characteristics and duration of planktonic life seem to play an important role in their dispersal capacities. Duration of the hatching period of a single egg mass can range from 2 days to 11 wk, while duration of the planktonic stage can range from 3 wk to half a year, depending on the species and temperature. Thus these paralarvae possess considerable potential for dispersal.

In some species, individuals reach relatively large sizes while living as part of the micronekton of oceanic, epipelagic waters. Such forms appear to delay settlement for an unknown period that is suspected to be longer than for paralarvae in more coastal, neritic waters. During the planktonic period, paralarval octopuses feed on crustaceans as their primary prey. In addition to the protein, critical to the protein-based metabolism of octopuses (and all cephalopods), the lipid and copper contents of the prey also appear important in maintaining normal growth. Littoral and oceanic fishes are their main predators and defence behaviours may involve fast swimming speeds, use of ink decoys, dive responses and camouflage. Sensory systems of planktonic stages include photo-, mechano- and chemoreceptors controlled by a highly evolved nervous system that follows the general pattern described for adult cephalopods. On settlement, a major metamorphosis occurs in morphology, physiology and behaviour. Morphological changes associated with the settlement process include positive allometric arm growth; chromatophore, iridophore and leucophore genesis; development of skin sculptural components and a horizontal pupillary response.


This is egg laying season, if you’re a bird.

An Illustration of a giant Pacific Octopus.

Antar Dayal/Getty Images

If you’re an octopus, particularly a giant Pacific octopus, you’ve been there, done that. In fact, you died doing it, in what is the saddest mommy story I’ve heard in a long while. It comes from biologist Jim Cosgrove who describes it all in a lecture he calls, “No Mother Could Give More.”

We begin with a pregnant octopus. She’s been that way for four or five months, carrying the eggs inside her body until one day, in mid winter, when the water temperature is right, she starts expelling her eggs, one by one, into the water. She will produce (and this will take her a month or so) about 56,000 individuals, who float free until she gathers them into groups, then stitches them into hanging braids, like a bead curtain in a Chinese restaurant.

Eggs and newborn giant Pacific octopus (Octopus dofleini), Victoria, British Columbia,  Canada.

Fred Bavendam/Minden Pictures/Getty Images</div

This is her octopus “den.” It’s usually an underwater cave, protected by rocks that she’s put at the entrance to keep hungry crabs, sea stars and fish from getting too close. She’s glued about 170 braids to the roof and there she sits, often right under the babies. “Each egg,” says Cosgrove, “is a gleaming white tear-drop about the size of a grain of rice.” Months pass. All this time, the mother is constantly on guard.

A female giant Pacific octopus broods thousands of eggs, and will die after the eggs are hatched.
Stuart Westmorland/Corbis 

As described by Wendy Williams in her new book Kraken, the mother spends five, six months protecting her 56,000 children:

She constantly waves her arms gently over the plaits of eggs, making sure that nothing harmful settles on them. With her siphon, she blows water gently over them to keep them aerated…she uses her arms to keep potential predators away from the eggs, and as far away from the den as possible…she normally does not leave the den at any time.

Throughout this whole period of more than half a year, she never eats…All of the energy in her body is slowly consumed by her work until, by the time the offspring emerge, she has nearly starved to death.

Then one night, though she is weaker, smaller, and says Cosgrove, “her once brick-red color is now a deathly gray and her skin shows signs of decay,” her breath now coming in “sporadic gasps,” she repositions herself and blows all of her babies out of the den into the open water. It’s essential that she use her siphon to blow them free, and once they detach, the babies know exactly what do to, says Cosgrove:

The babies are spectacular. Measuring 6 mm and weighing just 0.029 grams, they are perfect miniatures of their parents. They have 8 tiny arms adorned with suckers. They can change colors instantly and can even produce a miniature puff of ink when they are disturbed.

A scuba diver views a baby giant Pacific octopus near Powell River, British Columbia.

Stuart Westmorland/Corbis

But the mom is near exhaustion. She hasn’t eaten for so long (probably because food could attract predators, or because debris from eating could bring parasites near the eggs), she keeps gently blowing water over the babies, pushing them from the den for as long as she can until she herself floats free and sometimes, only two or three meters from the den opening, she stops breathing…and dies.

Her babies? They go straight to the ocean surface, feed there, grow; some will descend deeper into the ocean where they will dodge jelly fish, sharks, blue whales and hope to survive. How many of 56,000 babies make it to adulthood, where they become the largest octopuses in the world?

It took two octopuses, a male and a female, to make the 56,000 eggs. On average, says Cosgrove, the yield is “stable,” meaning that the two parents will be replaced by two children. Out of 56,000, after so many months, so much sacrifice, so much care, after all that, mom’s “yield” is…just two.

Jim Cosgrove has written a book about octopuses, Super Suckers: The Giant Pacific Octopus and Other Cephalopods of the Pacific Coast (Harbour Publishing); you can read more about his work at the Royal BC Museum here. Wendy Williams’ book is called Kraken: The Curious, Exciting, and Slightly Disturbing Science of Squid, (Abrams, 2010).