Octopuses Do Not Have Backbones — or Rights
Published: 03:09 PM,Sep 11,2022 | EDITED : 07:09 PM,Sep 11,2022
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Lab rats have rights. Before researchers in the United States can experiment on the animals, they need approval from committees that ensure they follow federal regulations for housing and handling the creatures humanely. The same is true of scientists working with mice, monkeys, fish or finches.
These protected animals share one thing in common: a backbone.
But invertebrates in research labs, including worms and bees or cephalopods like squid and octopuses, do not receive the same protections from the federal government. As researchers are more often working with cephalopods to answer questions in neuroscience and other fields, the matter of whether they are treating the animals humanely is becoming more pressing.
Governments in Europe and Australia have written these smart, spineless animals into their laws. But in the United States, “If you were in a research setting, and you wanted to buy some octopuses and do whatever you wanted to do with them, there is no regulatory oversight to stop you,” said Robyn Crook, a neuroscientist at San Francisco State University.
That is not to say cephalopod research is the wild west. US research institutions are increasingly opting to subject their cephalopod studies to the same approval process as experiments on mice or other vertebrates. But the lack of cephalopod care standards to guide their decisions, combined with the lack of federal oversight to back them up, reflects how rules and laws are lagging behind scientific understanding of these animals’ complex inner lives.
Like a lab rat, an octopus can learn to navigate a maze. Octopuses can also perform clever feats that rats cannot, such as disguising themselves as rocks and snakes, breaking out of their tanks or hiding inside coconut shells.
In 2021, Alexandra Schnell, a biologist at the University of Cambridge, and others found that cuttlefish can pass a version of the marshmallow test, a famous measure of self-control in human psychology. The cephalopods resisted eating a piece of prawn for as long as two minutes to earn an even better snack (a live shrimp).
Unlike humans — whose intelligence is, as it were, all in their heads — octopuses carry the bulk of their nervous system in their arms. Their suckers do not just grab onto things, they feel and taste them, too. “It’s like if your hands were coated with tongues,” said Christine Huffard, a biologist at the Monterey Bay Aquarium Research Institute.
In a paper published in July, Huffard and Peter Morse, of James Cook University in Australia, showed that male blue-ringed octopuses could use touch to recognise females they had already mated with. After bumping into a former mate, the males fled, perhaps to avoid being eaten. Such research suggests that octopuses and other cephalopods are smart and sensitive.
But do they feel pain like we do? It is not just a hypothetical concern. Some research with cephalopods involves potentially painful surgeries, such as amputating an octopus’s arm. We cannot simply ask them whether it hurts, though.
“Whether or not pain experience exists in animals outside vertebrates is quite a controversial proposition,” Crook said. In a 2021 paper, she showed that octopuses that had received an injection of acetic acid had stroked the wound with their beaks and had avoided a chamber where they had stayed after receiving the injection. But the octopuses had liked being in a chamber where they had experienced a numbing injection after the first one.
Researchers use a similar test in rodents to judge whether drugs cause them pain. “We suggest that octopuses feel, and are capable of feeling, the same thing,” Crook said.
In another 2021 paper, she and co-authors studied the nerve activity of octopuses and cuttlefish that had been anaesthetised — or so the scientists thought. They had dipped the animals in magnesium chloride to anaesthetise them, a common lab procedure. When an animal stopped moving and turned white, scientists had assumed it could not feel anything and would not be stressed by handling. But electrode recordings showed that for several minutes after becoming unresponsive, the cephalopod could still feel experimenters touching its body.
Crook said the finding immediately changed how researchers in her lab anaesthetised octopuses. Now, they wait as long as 20 extra minutes to make sure the animals will not feel anything. She hopes other labs have changed their practices, too. — NYT
These protected animals share one thing in common: a backbone.
But invertebrates in research labs, including worms and bees or cephalopods like squid and octopuses, do not receive the same protections from the federal government. As researchers are more often working with cephalopods to answer questions in neuroscience and other fields, the matter of whether they are treating the animals humanely is becoming more pressing.
Governments in Europe and Australia have written these smart, spineless animals into their laws. But in the United States, “If you were in a research setting, and you wanted to buy some octopuses and do whatever you wanted to do with them, there is no regulatory oversight to stop you,” said Robyn Crook, a neuroscientist at San Francisco State University.
That is not to say cephalopod research is the wild west. US research institutions are increasingly opting to subject their cephalopod studies to the same approval process as experiments on mice or other vertebrates. But the lack of cephalopod care standards to guide their decisions, combined with the lack of federal oversight to back them up, reflects how rules and laws are lagging behind scientific understanding of these animals’ complex inner lives.
Like a lab rat, an octopus can learn to navigate a maze. Octopuses can also perform clever feats that rats cannot, such as disguising themselves as rocks and snakes, breaking out of their tanks or hiding inside coconut shells.
In 2021, Alexandra Schnell, a biologist at the University of Cambridge, and others found that cuttlefish can pass a version of the marshmallow test, a famous measure of self-control in human psychology. The cephalopods resisted eating a piece of prawn for as long as two minutes to earn an even better snack (a live shrimp).
Unlike humans — whose intelligence is, as it were, all in their heads — octopuses carry the bulk of their nervous system in their arms. Their suckers do not just grab onto things, they feel and taste them, too. “It’s like if your hands were coated with tongues,” said Christine Huffard, a biologist at the Monterey Bay Aquarium Research Institute.
In a paper published in July, Huffard and Peter Morse, of James Cook University in Australia, showed that male blue-ringed octopuses could use touch to recognise females they had already mated with. After bumping into a former mate, the males fled, perhaps to avoid being eaten. Such research suggests that octopuses and other cephalopods are smart and sensitive.
But do they feel pain like we do? It is not just a hypothetical concern. Some research with cephalopods involves potentially painful surgeries, such as amputating an octopus’s arm. We cannot simply ask them whether it hurts, though.
“Whether or not pain experience exists in animals outside vertebrates is quite a controversial proposition,” Crook said. In a 2021 paper, she showed that octopuses that had received an injection of acetic acid had stroked the wound with their beaks and had avoided a chamber where they had stayed after receiving the injection. But the octopuses had liked being in a chamber where they had experienced a numbing injection after the first one.
Researchers use a similar test in rodents to judge whether drugs cause them pain. “We suggest that octopuses feel, and are capable of feeling, the same thing,” Crook said.
In another 2021 paper, she and co-authors studied the nerve activity of octopuses and cuttlefish that had been anaesthetised — or so the scientists thought. They had dipped the animals in magnesium chloride to anaesthetise them, a common lab procedure. When an animal stopped moving and turned white, scientists had assumed it could not feel anything and would not be stressed by handling. But electrode recordings showed that for several minutes after becoming unresponsive, the cephalopod could still feel experimenters touching its body.
Crook said the finding immediately changed how researchers in her lab anaesthetised octopuses. Now, they wait as long as 20 extra minutes to make sure the animals will not feel anything. She hopes other labs have changed their practices, too. — NYT