Fish

Learn about the many surprising ways that fish are used for science in NZ.

Fish were the single most used species for science in 2020.1 Most were used in basic biological research (the study of living things and their processes) and were also used in animal husbandry research, species conservation, and more.

Why so many fish are used: Most fish have a very short reproductive cycle, meaning they can be bred quickly, they also don't generally cost much to breed or house, making them desirable test subjects in science.

Zebrafish are regularly used as animal models for human development. A single pair of zebrafish can produce 100 to 300 embryos in one week. Zebrafish embryos are transparent and have their whole “body plan” laid down only 2 days after fertilisation. The similarity between human and zebrafish genomes is often cited as a reason to use them in models.2 

Snapper3, eels4 and other fish that are eaten5 are also regularly used in science because of their importance to the commercial fishery. This industry will always be looking for ways to maximise its profits.4

Many fish living in the wild are studied as a way to research climate change.

Fish in NZ have been used for:

1. Research into optimising the growth and use of fish for human consumption. This includes research into optimal feeding, genes responsible for body size and growth speed.

Other examples include:

  • Testing environmental influences and impacts (i.e. how salmon farms affect surrounding ecosystems).
  • Researching how toxins accumulate in fish organs (i.e. algae toxins, mercury).
  • Finding treatments/vaccines for illnesses and injuries from aquaculture.
  • Manipulating the life cycle of fish to try and maximise reproduction.

2. Teaching purposes in schools and universities, including observational activities and dissections.

3. Medical research (i.e., they are used to try and model humans).

Examples include:

  • Fish larvae have been used to try and model human immunity.
  • Fish embryos have been used to try and study human foetal development.
  • Genetically modified fish have been used to try and study adipostasis and glucose metabolism.

4. Basic research into fish biology, including research into how sharks sleep, how hearing develops in fish, microbes inside fish stomachs and the spread of viruses in wild fish.

5. Research into the effects of climate change, including research into marine food webs, biodiversity changes, species behaviour and interactions and predator abundance.

Other examples include research into:

  • Measuring the genetic reactions to stress.
  • The effects of herbicides on fish behaviour
  • How well Arctic fish do at higher temperatures.

6. Species conservation, including research into killing unwanted species (i.e., koi carb, catfish, rudd, and goldfish).

Other examples include research into:

  • The efficiency of one-way barriers on lake outflow.
  • Fish-friendly flood pumps (i.e. for eels).
  • Finding out where wild fish breed the most (to see which areas are worth protecting).
  • Optimising catching/tagging methods for re-capture projects.

7. Ecotoxicity testing (i.e., in tests that measure how biological, chemical or physical stressors affect ecosystems).

Places that use fish for science in NZ include universities, crown research institutes, polytechnics, commercial organisations and others.

The University of Otago for example has its own Zebrafish Facility. The MPI naturally has a research interest in fisheries and ecosystems. As a crown research institute, NIWA’s research in the fields of aquaculture, fisheries, and the Antarctic is funded by the government. Cawthron Aquaculture Park is home to a dedicated Finfish Research Centre (FRC), which opened in 2018 with funding support from the Ministry of Business, Innovation and Employment (MBIE).

Fish used for science in NZ are sourced from breeding units, fish farms, commercial sources, and public sources, are born during projects or are captured in the wild.

Discover real-life examples of how fish have been used in NZ below!

Testing a new papillomavirus vaccine

Adult colony cats were injected with a new vaccine or a control solution. Regular skin swabs and blood samples were taken.

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Testing the effect of dietary fibre in cat food

Cats received three diets for three weeks each. Food intake was measured daily, and urine and faeces were collected for the last 5 days each time.

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Determining how common E. coli is in pets

Rectal swaps were taken from cats and dogs presented at veterinary clinics, and their caregivers filled out a questionnaire.

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Tracking and killing wild cats

Wild-caught cats were used to train sedation and collar fitting before being killed. Another group of cats was fitted with GPS collars for one year before being tracked down and shot.

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Scoring the body condition of colony cats

The body condition score of 101 cats was determined, adding to routinely collected body weight data from the breeding colony.

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Testing new toxin at Ngatapa Station

Toxic bait traps were placed on a property in Hawke’s Bay. Cat population changes were monitored with stationary cameras.

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Testing a possum poison for other animals’ safety

Dogs, chickens and wild-caught cats were fed dead possum. Once they got used to eating this, they were fed possums killed with sodium nitrite, and signs for poisoning were monitored.

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Testing nutritional value of new pet food

Cats and dogs were fed a test diet exclusively for several months. Some adults are kept in metabolic chambers for 10 days, and blood samples are taken at the end.

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Testing new toxin at Toronui Station

Toxic bait traps were placed on a property in Hawke’s Bay. Cat population changes were monitored with stationary cameras.

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Surveying caregivers on their cats’ personality

Cat caregivers in Australia and New Zealand filled in an online survey about their cats’ personality traits.

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Training staff in wild cat handling

Wild cats are trapped and used to train staff in handling, sedation and collar fitting before they are killed.

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Sampling cats’ saliva for feline autoimmune disease

Buccal swabs (inside the cheek) were collected from all cats in three British Shorthair breeding catteries.

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Measuring vitamins in blood samples

Blood samples were taken from colony cats of different ages.

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Collecting blood plasma for tests

Colony cats are switched from wet food to dry food for two days. Blood samples are taken before and after.

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Testing a breathing mask on cats and dogs

Cats and dogs were held down tightly and fitted with face masks. Their breathing was measured for a while.

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Testing pain medication with lasers

Colony cats were put into small chambers, and a laser was pointed at a shaved skin patch. The influence of medication on their reaction time was measured.

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Investigating how worms spread between lambs and calves

Lambs and calves were infected with worm eggs to see if parasites from cattle can infect sheep.

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Testing a fertility treatment

Cows with fertility problems were treated with hormones for ten days or left untreated. All were then artificially inseminated.

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Testing a supplement for more calcium intake

Pregnant cows were fed with or without a specific feed additive. After birth, all were fed the same diet. Blood samples were taken in the weeks around birth.

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Checking endometritis rates in dairy herds

Some cows in several dairy herds were selected, and their vaginal discharge was measured and sampled. They were then impregnated as per standard agricultural practice.

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Comparing weight gain with different diets

Newborn calves were raised on various milk, pasture, and pellets combinations. They were slaughtered at two years old, and their “quality” was measured.

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Testing pain meds for disbudding

The horn buds of young calves who were slightly sedated were burned off with a hot iron. Half of them received pain meds beforehand, and blood samples were taken before and after. After 24 hours, the second group received pain meds, too.

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Studying Ikeda infection and treatment

Regular blood samples were taken from cows on three different farms. Only some were treated against the parasite. Milk production and fertility were recorded.

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Studying diarrhea infection

New mother cows had blood samples taken. If the sample was negative for a diarrhoea virus, they were sampled again after a while.

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Studying genes for body size

Udders of dairy cows were slightly cut with a scalpel, and a tissue sample was taken with a biopsy needle.

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Testing toxicity of a potential new fertiliser

Pregnant cows were fed a toxic ingredient to see if it is toxic.

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Studying stress around birth

Blood samples were taken from cows with a high or low risk of health concerns after birth.

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Studying genetics of a missing tail

Cloned foetuses were implanted into female cattle to research taillessness. Some of them were killed during pregnancy to examine the foetuses. One tailless animal was killed at age 4, and one of the cloned calves died after birth.

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Studying Ikeda (parasite) infection

Blood samples were taken from dairy cows and their calves directly after birth before separating them. After four months, the calves were sampled again.

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Studying Osteoporosis in cows

Young female cattle who had given birth for the first time were sent to slaughter. Half of them had broken bones for between 2 and 10 days. Blood samples were taken before slaughter, and bones were collected after.

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Testing a tuberculosis vaccine

Male calves were infected with bacteria. Two groups were vaccinated before or after the infection, and the third group was left untreated. All were killed and dissected 13 weeks later.

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Testing feeding plans for better immunity after calving

Pregnant cows were fed either a bit too much or a bit too little. Blood samples were taken before, at, and after calving. Researchers also took liver samples with a 20-cm biopsy needle and vaginal samples with a small brush and a scoop at these dates, except for the date of birth.

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Testing a “Kiwiball” to teach kiwi aversion to dogs (2014)

Dogs were exposed to a device mimicking a kiwi bird, getting an electric shock upon touching it. The learning effect was tested several weeks later.

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Testing a morphine alternative for pain

Dogs undergoing castration were treated with different pain relief and their pain response was measured. During surgery, EEG was measured to see differences in response to the process. After surgery, the pain level was determined through a behavioural assessment several times.

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Studying selenium metabolism

Animals were fed diets with different selenium supplementation for three weeks in individual metabolic chambers. A liver biopsy was taken under anaesthesia.

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Studying selenium metabolism

Cats and dogs were fed diets with different selenium supplementation for three weeks in individual metabolic chambers. A liver biopsy was taken under anaesthesia.

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Testing treatment of a neurodegenerative disease

Dogs with Mucopolysaccharidosis (MPS IIIA) received medication, either from birth or 12 weeks to 23 weeks of age. One group received a placebo. Drugs were given under anaesthesia, either as injections into the vein or close to the brain. At 23 weeks old, all puppies were killed and their brains removed.

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Evaluating the efficiency of kiwi aversion training

Dogs who had experienced either none, one or two times of kiwi aversion training with shock collars were observed near a caged live kiwi.

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Testing a “Kiwiball” to teach kiwi aversion to dogs (2010)

Dogs were exposed to a device mimicking a kiwi bird, getting an electric shock upon touching it. The learning effect was tested several weeks later.

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Trying out genetically sick dogs as models for human disease

Dogs with Mucopolysaccharidosis (MPS) IIIA were bred within an experimental colony. As part of characterizing them as a model for testing, the dogs were killed for dissection.

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Testing new toxin against stoats and wild pets

Dogs, cats and stoats were fed different versions of toxic bait. Symptoms and time of death were monitored. Four dogs and two cats survived, but their fate is not stated.

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Testing a pesticide as dog poison

Pound dogs were fed poison in different concentrations and different bait. More than half died within 4 hours.

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Studying how viruses spread in fish

Fish were caught with nets and killed.

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Using fish to study the impacts of Climate Change

Fish were either bought or caught and killed so that they could be dissected.

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Overfeeding Zebrafish to learn about obesity

Normal and transgenic zebrafish were fed normally or way too much. The fish were taken out of the water for glucose tests and blood samples.

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Studying gut bacteria in fish

Nine fish were caught by underwater spearing and killed so that samples could be collected from their digestion tracts.

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Studying the sleep of sharks

Sharks were caught and kept in outside tanks. For the experiments, they weren't fed for at least 4 days, of which they spent 3 days in a measuring chamber not much bigger than the shark. Oxygen consumption and behaviour were continuously recorded for the last 24 hours.

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Infecting fish larvae as a potential model for humans

Zebrafish larvae were injected with bacteria to test how their immune system responds. This was repeated to test how well the immune system reacted and how long the effect lasts.

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Finding a “growth gene” in snappers

Snappers were caught from the wild and bred. Around eighty-thousand of their offspring were hatched and raised. At regular “grading” events, injured and deformed fish were disposed of. At just under a year old, around twenty-two-thousand were left and transported to a sea pen, where they were raised to 17.5 months old before harvesting.

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Testing how much fat you can feed fish

Fish in aquaculture were divided into groups and fed diets with different fat content. Fish were anaesthetised and faeces samples squeezed out of them.

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Testing fish for mercury contamination

Wild fish were caught, measured and frozen to be analysed.

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Measuring how stress affects fish

Fish were exposed to chronic stress for four weeks, while 57 non-stressed animals were kept as a control. Signs of stress were noted. At the end of the experiment, all were chilled to death.

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Exposing fish to herbicides

Zebrafish were kept in tanks that were contaminated with different herbicide concentrations for 10 days. They were then mated to herbicide-exposed or control fish. Both generations were tested on behavioural changes at around 4 months of age. 24 fish per treatment were killed and dissected.

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Testing supplements as protection from toxins in over 1,000 fish embryos

Embryos were harvested and kept in Petri dishes for toxicity and treatment tests. Embryos were treated with an antioxidant, a gold salt or both on the first day, and abnormal development was measured on day 5.

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Studying effects of drying rivers on mudfish

Water depth and quality were measured at 24 different sites. Several traps for fish and invertebrates were set at 8 visits, sampling and mostly killing the caught animals (including 15 individuals of the endangered Kōwaro).

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Studying bacterial spread in fish larvae

Bacteria were genetically modified and made fluorescent. Zebrafish were bred, and their larvae were infected with the bacteria. The fish were killed for analyses or used for live imaging under a microscope (and then killed, most likely).

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Investigating effects of invasive fish removal

Using fyke nets and electrofishing, fish were caught on four occasions. Fish were marked with fin clippings around one big removal event where 3 tonnes of fish were caught. In recaptures a week after each marking event, invasive fish caught were killed after the examination.

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Studying fish life cycles

Fish were sedated and their blood and ovarian tissue were sampled three times.

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Questioning vets on pain management

Veterinarians completed a questionnaire regarding pain and pain management in rabbits and guinea pigs.

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Testing nerve reactions to electric stimulation

Young guinea pigs were bled to death. Specific nerves were removed and experimented on.

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Studying short-sightedness

Guinea pigs had one eye covered for two weeks before increasing their eye pressure surgically and kill them.

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Measuring nerve reactions to gases

Guinea pigs were anaesthetised, and their windpipe and blood vessels were cannulated. They were exposed to different gases and cyanide while measuring breathing and nerve activity.

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Studying how anaesthesia affects breathing and heart

Guinea pigs were put in airtight chambers to test the effects of low oxygen. Some were surgically fitted with tubing so blood samples could be taken during the tests. In the end, all were killed.

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Studying compensation after inner ear destruction

Guinea pigs were anaesthetised, and their inner ear was destroyed with a drill. Videos were made for over two days of their balance recovery.

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Killing pregnant guinea pigs for tissue cultures

Pregnant guinea pigs were anaesthetised at specific time points of their pregnancy, including during labour, to then remove the uterus for tissue culture experiments.

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Testing how oxytocin injections cause contractions

Pregnant guinea pigs were surgically implanted with electrodes on or near the uterus. They were injected with oxytocin in specific doses and timeframes, and the effects were measured.

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Harvesting testicles for studies

Male guinea pigs were killed with CO2 to remove their testicles for experiments.

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Testing a new tuberculosis vaccine

A new tuberculosis vaccine was tested by injecting guinea pigs with the bacteria, either with or without prior vaccination. After several weeks, all were killed.

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Testing how heart calcium metabolism is different in species

Guinea pigs and rats were decapitated, and their hearts were quickly removed to study them.

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Testing influences on the rate of a dissected heart

Albino guinea pigs were anaesthetised and dissected before they were killed.

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Confirming the correlation of energy storage and stress in the inner ear fluid

Guinea pigs were anaesthetised and artificially ventilated. Ear fluid samples were taken through a hole in the skull, while exposing them to noise or lack of oxygen.

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Comparing natural and genetically altered tuberculosis strains

Guinea pigs were infected with tuberculosis strains after being injected with bacterial proteins beforehand. In the end, all guinea pigs were killed and dissected.

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Comparing effects of anaesthetics on breathing and heart rate

Guinea pigs, rabbits and rats were anaesthetised, and a tube was put into their windpipe through the neck. They were made to breathe anaesthetic gas.

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Researching scoliosis genes

Transgenic mice with a specific gene defect were mated. Pregnant mice were at several time points. The unborn babies were taken, skinned, and gutted to stain their skeletons for better pictures.

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Studying hormone influences on obesity and fertility

Transgenic mice were bred to have diabetes symptoms. Together with control mice, they were fed a normal or a high caloric diet and compared for their fertility over 150 days.

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Testing a new stroke treatment

Mice were squeezed into plastic cones, and test drugs were dripped on their nose. An artificial stroke was caused by injecting a chemical into their brain. Before and after, mice had to perform behavioural tests. All were then killed to take their brains.

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Testing another new stroke treatment

Mice were operated on several times. They were made to experience an artificial stroke, were later injected with a possible treatment, and then were injected with a marker. The mice had their memory tested before they were killed.

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Testing prostate cancer drugs

Mice were anaesthetised, and their prostate was injected with cancer cells or a control solution. A 42-day treatment course started three weeks later with different treatment drugs and control solutions. In the end, all mice were killed.

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Testing a heart attack treatment

Mice were trained to eat jelly and then subjected to an artificial heart attack. They received either a new drug or a control substance. Regular heart ultrasounds were performed before they were killed and dissected.

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Studying ovary problems caused by testosterone

Transgenic mice were implanted with a capsule containing either hormones or not. Vaginal smears were done for several weeks, and serial blood tests were performed twice. In the end, all mice were killed.

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Testing an Autism treatment on transgenic mice

Mice were genetically modified to show "autism-like" symptoms. Together with control animals, they were either fed normally or with a high-zinc diet. Invasive behavioural tests were performed. At least some, likely all, were killed.

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Comparing transgenic mice and humans

Mice were anaesthetised, and their body composition was measured several times. Their grip strength and balance were tested with lab equipment. In the end, all mice were killed.

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Testing a new stroke drug for better dexterity

Transgenic mice were anaesthetised, and an artificial stroke was caused. They then received either a test drug or a control solution. After recovery, their food was limited to test their fine motor skills every other week. After two months, they were killed.

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Testing migraine drugs

Mice were injected with potential migraine drugs and anaesthetised. Ultrasound imaging of their ears was taken. One ear was rubbed with capsaicin to record the increased blood flow and compare different drugs, doses, and time points.

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Killing rats and mice for tissue

Rats and mice were anaesthetised, and their necks were broken. Their tissue was then used for research.

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Studying Alzheimer’s and stroke symptoms

One group of transgenic mice were bred and killed at either four or 12 months of age by flushing their hearts. Another group was anaesthetised and caused to have a stroke. They were killed the same way.

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Testing Alzheimer’s treatment on mice

Transgenic and “normal” mice were injected with a special protein and a chemical to mark new brain cells that may have been produced.

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Testing a new Alzheimer’s drug

Newborn mice were killed to collect brain tissue. Adult mice were used to test drug reactions. They were anaesthetised twice; to inject the drugs and to flush their hearts and take their brains.

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Testing if anaesthesia affects the sleep–wake cycle when combined with light treatment

Mice were kept on a 12-hour light/dark cycle and then switched to total darkness. During this time, they were exposed to light once, either with or without anaesthesia. The effect on their activity cycles was monitored. In the end, all were killed.

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Harvesting colon tissue for laboratory tests

Pigs were killed and their colon tissue was used for laboratory testing.

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Testing if pigs can be fed by-products from biofuel and food processing

Pigs were fed a standard diet or a diet containing by-products from other industries. They were slaughtered to compare meat growth and quality.

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Studying starch digestion in pigs to try and model humans

Pigs were fed different diets containing durum wheat or rice. Some had regular blood samples taken through a catheter. All the animals were killed at the end.

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Validating a treatment for stomach muscle dysfunctions

Pigs were anaesthetised, their bellies were opened, and electrodes were placed on their stomach walls before and after damaging some stomach tissue with heat. All pigs were killed.

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Assessing pigs as digestion models for humans

Titanium tubes were implanted into pigs’ intestines. Digested food was collected through the tube for 9 hours.

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Testing the effect of different species’ milk on brain gene expression

Piglets were fed different kinds of milk from other species for 15 days. They were killed to dissect their brains.

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Testing transmitter implantation on wild pigs

Wild pigs were captured, and three different tracking devices were fixed to or implanted into each one. After 104 days, they were tracked down and killed.

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Investigating oxygen content in the gut

Pigs were fed diets with different or no protein sources as a control. After a week, all were killed.

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Testing a UV treatment for bacterial eye infection

Pigs’ eyes were acquired for testing a new treatment, followed by tests on live mice, most of whom were killed.

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Testing the effect of different species’ milk on protein digestion

Piglets were fed different kinds of milk from other species for 15 days. They were killed to dissect their stomachs.

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Testing the strain on a temporary surgical implant

A surgical implant was screwed to a severed pig head, and measurements were taken via laser scanning.

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Investigating intestine movements

Young pigs and NZ White rabbits were anaesthetised. A part of their intestine was pulled out far enough to record its movements and signalling.

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Harvesting rabbit and pig eyes for lab tests

The eyes of slaughtered rabbits and pigs killed for experiments were used to analyse the structure of the cornea.

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Harvesting eyes for lab tests

The eyes of pigs and rabbits killed for experiments were used to analyse the structure of the cornea.

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Testing a treatment for stomach muscle dysfunctions

Pigs were anaesthetised, their bellies were opened, and electrodes were placed on their stomach walls before and after damaging some stomach tissue with heat. All pigs were killed.

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Testing how electric stimulation affects stomach movements

Nine pigs were anaesthetised, their bellies were opened, and electrodes were placed on the stomach walls. Electric stimulation tests were performed before the pigs were killed.

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Studying food intake in an autism "model"

Pregnant rats were injected to cause autism-like symptoms in their babies. The male babies were put through behavioural tests with control animals as well as a feeding study. Some were fasted for 16 hours and killed by flushing their hearts.

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Testing the safety of a probiotic supplement

Rats were force-fed with a probiotic solution or control solution. After two weeks, they were killed for dissection.

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Studying the effects of obesity and mussel powder on bone health

Rats were kept alone and fed different diets containing normal or high amounts of fat or sugar. Some were supplemented with Greenshell mussel powder. X-rays were done, and some rats' ovaries were removed. Ultimately, all were killed by bleeding them out.

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Testing if a brain region controls memory

Some rats had their brains surgically heat-damaged. Electrodes were implanted to monitor brain activity and to stimulate the damaged parts with light. Rats then had to re-perform memory tests to see the impact before all were killed.

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Studying the communication between inner ear and brain

Rats were anaesthetised, and their inner ear was partly removed, before parts of their brains were stimulated with wire electrodes. Reactions of the rat's eyes and brain were recorded. In the end, all rats were killed.

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Testing a connection between tinnitus and brain function

Rats were anaesthetised and one ear was damaged with noise. Rats were taught that silence meant they would get electric shocks and freeze in fear. This was a test for tinnitus.

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Testing diabetic rats’ hearts

Genetically diabetic fat rats and their lean littermates were anaesthetised. Ultrasound images were made from their hearts. All were killed and dissected.

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Testing the effect of diabetes on pregnancy hormones

Rats were anaesthetised, and their brain was accessed through the mouth to measure reactions to stimulation. In the end, all rats were killed.

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Trying to study schizophrenia

Half of a group of pregnant rats were injected to affect their babies' brain development. Some pups were allowed to grow up to test their behaviour.

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Releasing a rat family into the wild to see where they go

A wild-caught rat was mated, fed a fluorescent dye, and released again with her pups. Traps, tunnels, and cameras were set up to track and eventually recapture the animals, which did not work 100%.

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Comparing digestion of sheep versus cow milk yoghurt

Rats were fed cow milk, sheep milk, cow yoghurt or sheep yoghurt for two weeks. They were gassed with CO2 before their necks were broken.

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Testing a rat poison that is unattractive for dogs

Rats were kept in small cages and fasted overnight. Then, they were given two food trays. One of them was scented with lion, tiger, or dog faeces.

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Comparing digestion of sheep versus cow milk

Rats were fed a test diet containing beef protein and received cow milk or sheep milk instead of drinking water. After 28 days, all were killed.

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Testing medication after heart attack

Rats were anaesthetised, and their hearts were exposed. A heart attack was simulated by blocking an artery. Some had dye injected into their brains, and some were injected with test drugs. All animals were killed.

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Testing a medicine against drug addiction

Mice's tails were dunked in hot water. Rats were put through cycles of drug-seeking and withdrawal using self-injection of cocaine. Other rats were injected, and their behaviour was tested (with the notorious Forces Swim Test, among others).

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Studying cell death in breast tissue

Mother rats had some of their newborns taken away, and several of her teats were sealed off after two weeks. They were killed after different waiting times to analyse the dying tissue.

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Investigating how worms spread between lambs and calves

Lambs and calves were infected with worm eggs to see if parasites from cattle can infect sheep.

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Using sheep to try and model how well humans will heal after dental surgery

Sheep had healthy teeth pulled out and the sockets treated in different ways to compare how well the body will heal after a tooth is removed when left untreated vs using a bone graft.

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Preclinical testing of a gene therapy for Batten disease

Sheep with and without a specific gene mutation were checked and scanned regularly for nine months. Affected sheep received gene therapy at different ages. Treated sheep were killed.

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Testing if blocking a cell signal can prevent foetal brain injury

Pregnant sheep were anaesthetised, and the foetuses fitted with electrodes. The umbilical cord was blocked for most of them, and half were treated with a test drug. Mothers and unborn lambs were killed three weeks later.

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Testing the combination of drugs for congestive heart failure treatment

Sheep were anaesthetised and subjected to surgery. Electrodes were used to pace their hearts faster while testing the effect of different drugs.

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Testing the best way to deliver gene therapy drugs

Sheep were anaesthetised. Their heads were drilled into, and their brains injected with test drugs. They were killed after three weeks.

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Testing the potency of pneumonia vaccines for sheep

Lambs were vaccinated twice and regular blood samples were taken for 34 weeks, to test different pneumonia vaccines for sheep.

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Testing the effects and wash-out of painkillers

Lambs were treated with different painkillers or no painkillers at all before tail docking and castration. Their behaviour was monitored.

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Developing “hyperimmune” milk

Sheep were injected with Covid-19 vaccines to see if they produced milk that could be marketed to consumers as providing immunity against certain diseases.

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Studying the genetics of Batten disease on chimeric lambs

Sheep foetuses were removed. After swapping cells between them, they were inserted into other ewes. Lambs born were subjected to X-rays and, at one to three years old, were bled out for dissection.

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Testing pacemaker adjustments

After causing them heart failure, sheep were surgically fitted with pacemakers and measurement devices. Those who survived the procedures were killed after six months.

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Studying methane emission and meat quality

Lambs were tested and killed to assess the relationship between methane emissions, carcass weight and meat quality. Almost 2,000 were put through emission measurements. Over 17,000 were slaughtered.

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Studying the effect of chemicals in normal and high blood pressure

Sheep were surgically fitted with a clip around an artery and compared with others without clips. Measuring devices were added before injecting different chemicals into the hearts of the conscious sheep.

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Comparing success of muscle repair surgery with or without weeks of delay

Sheep were anaesthetised and one side of a pelvis muscle was detached. After several weeks, the muscle was repaired. How well the sheep then walked was noted before all were killed.

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Comparing different designs of dental implants

Sheep were anaesthetised. One leg bone was exposed and fitted with several implants. After 12 weeks, all were killed.

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Trying to model human brain injuries

To study changes in different areas of the brain after brain injuries. Sheep were used to study the effects of traumatic brain injuries in humans.

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Investigating intestine movements

Young pigs and NZ White rabbits were anaesthetised. A part of their intestine was pulled out far enough to record its movements and signalling.

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Harvesting rabbit and pig eyes for lab tests

The eyes of slaughtered rabbits and pigs killed for experiments were used to analyse the structure of the cornea.

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Causing sinusitis in rabbits as a model

NZ White rabbits were anaesthetised, and a sinus tract in their nose was blocked for four weeks to cause sinusitis. After another ten weeks with regular samples, they were killed.

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Testing a new vaccine

NZ White rabbits were injected with a new vaccine type several times before being killed.

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Harvesting eyes for lab tests

The eyes of pigs and rabbits killed for experiments were used to analyse the structure of the cornea.

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Testing the toxicity of some substances

Young NZ White rabbits were force-fed different doses of toxic substances. Blood samples were taken before and immediately after killing them at set time points (or to end their suffering).

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Using a new imaging technology

One NZ White rabbit and rats were killed, and their eyes were removed to use for the study.

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Measuring contractions in exposed rabbit uteruses

Pregnant rabbits were anaesthetised, and their uterus was exposed. Measurements were taken while contraction-inducing injections were given. Then they were all killed for dissection.

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Mapping wave patterns of the small intestine

NZ White rabbits were anaesthetised, their intestines were used for electrode mapping, and then they were killed.

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Studying presence of a virus in rabbits

Wild rabbits were shot, caught by dogs or trapped to test them for virus strains. The infectious solution was then fed to NZ White rabbits in a lab to kill them later.

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Harvesting rabbit colons for lab tests

NZ White rabbits were anaesthetised, a part of their intestine was cut out, and then they were killed.

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Harvesting rabbit bladders for lab tests

NZ White rabbits were anaesthetised, their bladder was cut out, and then they were killed.

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Testing an antimicrobial eye medication

NZ White rabbits were treated with Manuka honey solution in one eye and a control solution in the other eye for five days. Different values like tearing and irritation were measured.

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Using muscles of dead rabbits for imaging

Two NZ White rabbits were killed to use for detailed muscle imaging.

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Measuring jaw bone growth in young rabbits

Young rabbits were anaesthetised and had holes drilled into their jawbones to implant small pieces of metal. X-ray scans were made, and the rabbits were killed.

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Testing the welfare impact of pindone toxin

Three groups of young NZ White Rabbits received pindone-toxin pellets on different schedules. Any rabbit still alive after three weeks was killed.

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