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Deep-sea sperm bank

Some female sharks and rays living in the deep ocean can store sperm inside their bodies for years at a time, until the moment is just right for conception. Adèle Dutilloy from the National Institute of Water and Atmospheric Research (NIWA) examined the reproductive organs of 147 female sharks and rays from nine species. Inside three of those species—the longnose velvet dogfish, the leafscale gulper shark, and the smooth deep-sea skate—were microscopic tubes of sperm, hidden in a tiny gland that produces the egg case. Dutilloy suspects most deep-sea sharks and rays have this feature, but the tubes are tricky to find. But why hoard sperm? It’s possible that in the dark, lonely depths of the sea, males and females don’t run into each other very often, so keeping some sperm for later allows females to reproduce more regularly. The second hypothesis is more disturbing. “Basically, there are gangs of male sharks, and when they encounter a solitary female, it’s all quite aggressive,” says Dutilloy. “When you see a female that’s been recently mated, she’ll have bite marks on the top of her back or on her fins. Females actually have more flesh on their backs than males do, to help account for that.” Dutilloy and study co-author Matt Dunn think that long-term sperm storage means female sharks don’t mate as often, and suffer less physical injury. Understanding the sex lives of these creatures gives scientists more insight into their life cycles—which in turn may shed light on whether they’re under threat from New Zealand’s trawl fisheries. “We know very little about them,” says Dutilloy.
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A rude spelling error

Kūmarahou is a shrub that bursts into yellow blossoms in September, and plays an important medicinal role in rongoā Māori. Unfortunately, the plant’s scientific name, Pomaderris kumeraho, contains a crude insult in te reo Māori: “kumeraho” translates as “wanker”. Botanist Allan Cunningham named the species in the late 1830s based on the field notes of his brother Richard Cunningham, who asked locals what they called the plant, and wrote down the name as he heard it—noting that Māori used its springtime flowering as a signal for planting “their Koomeras or sweet potatoes”. But the way he spelled it references other words in Māori: kume, meaning to pull or slide, and raho, meaning human genitalia. Te Ahu Rei from Ngāti Tama pointed this out to Department of Conservation botanist Shannel Courtney, and with Unitec botanist Peter de Lange, Courtney put in a proposal to the governing body for plant taxonomy to change the name to Pomaderris kumarahou—the name they believe the Cunninghams intended. Rude words aren’t unusual in botanical names. The word orchid derives from the Greek word for testicles, and plenty of plants are named for their phallus-like forms. One member of the pea family was named Clitoria ternatea after the suggestive shape of its flowers, while “coprosma” means “smells like poo”. Hūpiro, or Coprosma foetidissima, apparently had such a stench that the botanists who named it mentioned its smell twice, in both the genus and species name. A committee will vote on the kūmarahou name proposal in 2023, when the next International Botanical Congress meets in Rio de Janeiro. “What we’re trying to do is rectify an unfortunate misinterpretation or misspelling,” says de Lange, “rather than saying this is an offensive term. “In the annals of New Zealand botany it is unique—a case of a Ngāti Tama elder coming to us with a problem that they kind of thought was funny, but that they really would like fixed—and us going through the appropriate channels to try to fix it.”
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Flu tracker

A citizen-science project asking New Zealanders every Monday whether they had flu symptoms in the past week shows the impact of 2020’s COVID-19 lockdowns (bottom graph). Flu season failed to launch last winter, compared to previous years, with fewer people recording a cough, sore throat or fever. Government health data based on calls to Healthline paints a similar picture (top graph). Spikes in reported symptoms coincide with COVID-19 lockdowns, but overall, New Zealanders were less sick in 2020 than in previous years.
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What’s in a name?

Why did scientists name our iconic forest giants Agathis australis when the trees have been called kauri for hundreds of years? Most of New Zealand’s iconic species were given scientific names by botanists during the colonial era, and the names they chose reflect the priorities and attitudes of the time. Some species were named for people whom scientists wanted to impress or insult. (That trend continues today: in 2019, a newly discovered blind, burrowing amphibian was named Dermophis donaldtrumpi, in a nod to the United States president’s climate change denial.) There are scientific names using racial slurs, like many South African species names deriving from “kaffir”. There’s Maoriblatta novaeseelandiae, in which scientists labelled a stinky black cockroach a “Māori bug”. In a comment paper in the journal Communications Biology, biogeographers Len Gillman from AUT University and Shane Wright from the University of Auckland argue that taxonomic protocol should allow scientific names worldwide to be changed to get rid of irrelevant or offensive names, replacing them instead with long-held indigenous ones. For example, Agathis australis could become Agathis kauri. Wright, who is Māori, would like to see another endemic conifer, Prumnopitys taxifolia, renamed Prumnopitys mataī—the Māori name implying chiefly leadership. Meanwhile, botanist Peter de Lange, who reviewed the paper, foresees some problems with the proposal. Which Māori dialect would prevail? Would Moriori names get a look-in? Should tūī be incorporated into Prosthemadera novaeseelandiae, when before the 1930s most Māori called the birds koko? What about mānuka, which until the 1930s was used to describe kānuka? (Mānuka was called kahikātoa.) Gillman and Wright point out that the concept would only work in the small number of cases where there is one consistent indigenous name across the whole of a species’ range, or where groups can agree on a name to use. So far, the idea has seen both pushback and support from the international taxonomic community, which doesn’t surprise Gillman. “Before you get change, you have vigorous debate.”
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New origin story for seals

The soft mudstone cliffs of south Taranaki hold clues to creatures past. Fossil collectors unearthed seven specimens of an unknown species here, including a complete skull. Close analysis revealed this ancient animal was a monk seal—now extinct, but new to science. The seal would have been a bit bigger than a sea-lion, reaching two and a half metres in length and weighing 200 to 250 kilograms, and would have frequented the waters around New Zealand some three million years ago. Researchers gave it a pop culture-inspired name: Eomonachus belegaerensis, after the largest ocean, Belegaer, in JRR Tolkien’s mythical world of Middle-earth. The new seal has already rewritten history. Before now, monk seal fossils had been found only in the northern hemisphere, and the two living monk seal species are found in Hawaii and the Mediterranean. Monk seals are part of a sub-family called Monachinae, which also includes elephant seals and Antarctic seals. There are several stories explaining seal evolution. The prevailing one goes that Monachinae evolved in the North Atlantic and travelled south. But with the discovery of a South Pacific monk seal, the scales tipped in favour of a different origin story. Perhaps all three types of Monachinae evolved in a “southern cradle”, and then some of the monk seals headed north. Felix Marx, curator of marine mammals at Te Papa, is anticipating more finds. “New Zealand is incredibly rich in fossils, and so far we have barely scratched the surface,” he says. “Who knows what else is out there?”
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Mining with microbes

Bacteria could mine rare-earth elements from space rocks, according to a study conducted aboard the International Space Station (ISS) and published in Nature Communications. There are 17 rare-earth elements essential to many aspects of modern life: they fuel rechargeable batteries in electric cars, illuminate smartphone screens, and enhance the efficiency of computer hard drives. But they’re tricky to extract from mineral deposits, as they tend to be fragmented and jumbled up with other elements. Enter the humble microbe. Some microorganisms can separate rare-earth elements from rocks in a process dubbed “biomining”. Astronauts aboard the ISS put three bacteria species to the test, evaluating the microbes’ biomining skills in zero gravity and simulated Mars gravity. The species Sphingomonas desiccabilis (pictured), found in arid Colorado soil, caused rare-earth elements to leach more quickly from the test rock, a slab of basalt. We’re not sure exactly how the bacteria do this. Researchers suggest that S. desiccabilis may produce a lot of sticky sugar molecules that bind to heavy metals. With accessible supplies of some rare-earth elements dwindling on our own planet, microbes could enable extraterrestrial mining to fulfil Earth’s demands, conclude the study’s authors. Yet, whether using bacteria or other means, the question of who has the right to pilfer rare metals from space rocks is still up for debate.
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Peer pressure

New friends ARE more important than family traditions when it comes to finding food, according to new research on hihi/stitchbirds. Hihi behaviour makes them perfect for investigating how songbirds communicate information to each other. Young hihi stick with their parents for around two weeks after learning to fly. Then they join a social group of other young juveniles, where they hang out for about three months. (Exactly why hihi form these temporary youth clubs is unknown.) Researchers set up feeding stations near hihi nest boxes on Tiritiri Mātangi, a predator-free island sanctuary 30 kilometres north-east of central Auckland. The stations had a variety of openings through which the birds could find sugar water. Young hihi initially copied the behaviour of their parents, following their choices of feeding station and entry point. But once the hihi juveniles farewelled mum and dad and joined a group, they switched their habits to match the group—changing feeding stations or the opening they used. If one hihi swapped to a different group, its routine would change again to align with that of the new group. Adult hihi, who might fleetingly tag along with a youth group, did not alter their habits to fit in with the majority.
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Mind matters

It’s April 15, 2020. Ashley Bloomfield reports 20 new cases of COVID-19 at the 1pm briefing. Everyone except essential workers is confined to their bubbles. Looking back, if you felt stressed at this point of the lockdown, you weren’t alone. A survey of 2000 New Zealanders between April 15 and 18, 2020, revealed that Alert Level 4 negatively affected our wellbeing. In this snapshot, captured by researchers at the University of Otago, one-third of people surveyed felt moderate to high distress, with young people more likely to feel anxious. For some people, the lockdown intensified serious issues, with rates of family violence and suicidal feelings increasing. Our alcohol consumption patterns changed, too: 20 per cent of people drank more, and 20 per cent drank less. For many, social media became the primary means of connecting with people beyond their bubble. Social media has a reputation as a driver of poor mental health, but new research suggests that how we socialise online affects us in different ways. Young people who spend more time posting updates, links and photos publicly have a higher risk of self-harm. Those who tend to compare themselves negatively with the highly curated online personas of others also report higher risk. In contrast, using social media to privately message friends appears to have a protective effect, associated with lower risk of self-harm.
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Lizard boom

When rats are away, the reptiles will play. Twenty years after rats were eradicated from Kāpiti Island, a survey has revealed that native geckos and skinks are flourishing on the offshore wildlife haven. Two sampling missions conducted 20 years apart—in 2014-15 and in 1994-96—provide a striking comparison. In the island’s coastal grasslands, the abundance of northern grass skinks and brown skinks has doubled, while copper skink numbers have exploded—there are 28 times as many. Skinks were also found in new places: brown and grass skinks slinking in the kānuka forest, copper skinks atop the grassy ridges. A single specimen of the rare and cryptic ornate skink was recorded in the recent survey, too. Meanwhile, geckos had increased nearly four times compared to pre-eradication numbers. Most were brown-grey Raukawa geckos, while a lone forest gecko was recorded in the high forest. Two brightly coloured Wellington green geckos were spotted. Kāpiti’s reptiles don’t live a completely carefree life: the abundant weka on the island are voracious lizard-hunters. The omnipresent threat of a sharp weka beak forces the cold-blooded animals into low, dense vegetation for protection—which is where the survey team found most of the reptiles. The study provides strong evidence for the value of island eradications.
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Bee aware

In search of nectar, a bumblebee must manoeuvre through an obstacle course of foliage—a surprising feat for a stubby insect. This flying skill is due in part to the bumblebee’s awareness of its own form. Researchers trained bumblebees large and small to walk through a tunnel to retrieve sugar water. Every so often, the researchers would place a wall in the tunnel with a gap of varying width. The bee would buzz side-to-side, assessing the size of the opening, then adjust its position so its fuzzy body could angle neatly through. On occasion, the bee’s wingspan was larger than the gap. In these cases, the bee would spin wing-on to clear the tight gap. By closely examining more than 400 flight paths down the tunnel, the researchers found that the extent of reorientation depended on the size of the gap relative to the individual’s wingspan. While smaller bees would flit through a mid-sized gap with no adjustment, bigger bees rotated to fit through, seemingly aware of their larger stature. This suggests that bumblebees have perception of their own size: an intriguing ability given the tiny size of the bee brain. Size awareness is just one component of bee flight. Previous research revealed that bees navigate by measuring how fast the environment whizzes past them—a finding that has inspired the design of autonomous robots and drones.
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Kūmara flee climate change

Worldwide, sweet potatoes are under threat from climate change—and a new international study has found that maintaining the crop’s genetic diversity will be key to ensuring you can get a fix of kūmara fries with your beer. Climate experts predict that by 2070, average temperatures in sweet-potato-growing areas will be one to six degrees warmer, and that heatwaves will be two to five degrees hotter. Researchers at the International Potato Center in Lima, Peru, tested nearly 2000 varieties of kūmara from around the world, including six from New Zealand—and found that 93 per cent of them would suffer under those warmer conditions. But the researchers also identified 132 extremely heat-tolerant varieties—6.7 per cent of the total. That’s great news, says the study’s lead author, Bettina Heider. “That gives farmers many options that can be used in breeding to make sweet potato even more resilient. Our options to adapt our food systems to climate change lie in the genetic diversity of crops.” Locally adapted heritage varieties of sweet potato performed better than commercial ones, and kūmara with orange flesh tended to handle hotter conditions better than those of other colours—probably because they are high in carotenoids, which are thought to protect plants against damage from heat stress. The New Zealand kūmara tested weren’t among the extremely heat-tolerant varieties, although one came close. In any case, higher temperatures are not necessarily as much of a problem for kūmara-growing here as they will be for tropical countries, says Plant & Food Research scientist Steve Lewthwaite, as New Zealand is on the colder edge of the plant’s range. Global warming may actually make more areas of the country suitable for commercial kūmara production. But climate change doesn’t affect temperature alone, cautions Lewthwaite: erratic rainfall, more storms, or interactions between temperature and plant pests could pose other problems. Globally speaking, kūmara is likely to increase in importance this century, says Heider. “Sweet potato is a robust crop, it grows in marginal areas and under adverse conditions—and these areas will increase with climate change.”
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The saddest day in 12 years

There have been significant low points in 2020, but researchers at one lab reckon that the saddest day in 2020 so far was May 31. According to them, that Sunday was more demoralising than any other day since the study began in 2008. A computerised algorithm called the Hedonometer measures global mood by sifting through messages posted to the social media site Twitter. Every day, it randomly gathers 10 per cent of all tweets in a dozen languages, then looks for specific words that have been ranked in terms of their positivity or negativity. Based on the frequency of those words, it calculates an average happiness or sadness level for that day.The Hedonometer was created by mathematicians and computer scientists Chris Danforth and Peter Dodds, who co-direct the Computational Story Lab at the University of Vermont. Events in the United States dominate the mood of the Hedonometer most of the time—but not always. In 2019, the lowest point occurred on the day of the Christchurch terrorist attacks. Every year, Christmas Day is marked by a massive spike in positivity. But aside from the plunges in mood in 2020, which correlate with Black Lives Matter protests as well as COVID-related events, the mood of the internet describes a gently fluctuating wave, always curving back to the centre.
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Measuring hate

Are hate crimes becoming more common in New Zealand or less? And who is at risk of being targeted? It’s hard to say, because New Zealand authorities don’t keep records of this type of crime. University of Auckland researchers set out to investigate hate crimes using the data they did have: the media. Senior lecturer Chris Wilson and a team of students scanned reports of hate crimes between 2013 and August 2020 to create an overview of these incidents. In a hate crime, someone is assaulted physically or verbally because another person objects to their race, religion, gender identity, sexual orientation or disability. The team found hate crimes against Muslims in New Zealand increased 1300 per cent after the Christchurch terrorist attacks. International research shows that hate crimes can be precursors to more extreme violence. But figuring out the connection between the two in New Zealand is impossible without good-quality data. Wilson and PhD student Sanjal Shastri describe hate crimes against Muslims as “a perpetuation of the Christchurch attacks”, noting that the number of these crimes reported in 2020 is much higher than in years before the massacres. “Despite the best intentions of many in New Zealand,” they write, “the attacks have made the country more, not less, dangerous for Muslims and other minorities.”
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Plastic appeal

Red, green and blue: albatrosses prefer these colours when selecting plastic debris from the ocean to feed to their chicks back at the nest. Albatrosses are more likely to choose brightly coloured plastic, according to a New Zealand study looking at which types of plastic were being consumed by different seabirds. Were there patterns in terms of shapes, colours and densities? The research suggests that luridly coloured fishing gear from operations around the Chatham Islands and off the coast of Chile may be the source of some of the plastic found at albatross nests. The researchers also looked at the stomach contents of sooty shearwaters killed as bycatch by fishers on the Chatham Rise, and found that these birds had mostly eaten plastic that was white, grey and round. These pieces were probably consumed by fish or other prey, which were in turn eaten by the shearwaters. Most seabird species will be regularly consuming plastic by 2050, according to estimates, either by eating it themselves or via the food chain.
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Hoiho need to eat better

A study of penguin poo suggests Otago’s declining hoiho population are struggling to find food in their hunting grounds off the South Island coast. University of Otago PhD student Melanie Young collected 313 hoiho faecal samples, from the Moeraki Boulders to the Catlins. Some were obtained directly from the bird—“As soon as you hold a penguin it’s basically pooing on you,” says study co-author Ludovic Dutoit, also at Otago—while other samples were gathered from around the penguins’ nests while they were out fishing at sea. The poo also revealed that what the penguins eat has changed significantly since the 1980s, the last time their diet was studied. University of Otago professor Yolanda van Heezik conducted that research for her own PhD, which required a more interventionist approach—“I’ve made a lot of penguins throw up,” she says. Back then, the bones found in penguin spew showed the birds ate a varied diet of squid and small fish, including red cod, blue cod, āhuru, and opalfish. The new study showed the hoiho diet is now dominated by blue cod, and that many of those other fish, once common, are now gone. “There wasn’t a single penguin that hadn’t been eating blue cod,” says Dutoit. (Similar observations were made in other recent studies where a video camera was taped to a penguin’s back.) Blue cod might be the “snapper of the south” for humans, a sought-after commercial eating fish, but it’s not ideal for penguins, says van Heezik. Penguin parents feed their chicks “a lovely hot porridge of partially digested fish”, she says, and muscular blue cod doesn’t break down as easily as other prey. “It’s like trying to feed a baby huge chunks of solid food.” Large, powerful blue cod also take more effort to catch and swallow. The findings are concerning, because they suggest hoiho don’t have many dietary options. This could be part of the explanation for the species’ rapid decline on the mainland. “We’ve had starvation events,” says van Heezik. “Last year, hundreds of chicks were brought into rehabilitation because they were too thin. Clearly there’s something going on that means there isn’t enough food.”
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The virus goes wild

Cats have had it. Dogs, too. Tigers and lions in a New York zoo came down with it, and so did minks in three European countries. This means humans need to protect animals from COVID-19 before it’s too late, write a team of scientists in the journal Mammal Review. Humans are infecting animals—and they’re passing the virus back to us. A study of infected dogs in Hong Kong found the pets probably caught the virus from their owners, while two of the COVID-positive minks infected other humans. A few species can be ruled out as disease vectors. It looks as though mice, pigs, chickens and ducks may be fine—a very small study found they didn’t get infected or spread the virus. But cats, ferrets, rabbits and hamsters can transmit the virus to others of the same species. That’s not even the worst that could happen. If the virus spread from captive or domestic animals into wild animal populations, some species could become a reservoir for it, making it even more difficult to contain. Animals acting as disease storage facilities are already a problem in New Zealand. Some introduced bird species carry avian diseases—they’re asymptomatic but infectious—and pass these on to native birds, which typically have fewer defences and are more susceptible (see page 70 for more). So how should we keep animals safe? The same way we prevent virus transmission between humans, whenever there’s a risk of COVID-19 transmission: masks, gloves and social distancing.
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Kids more likely to survive COVID-19

A study of 627 children and teenagers who had been admitted to hospital for COVID-19 in the United Kingdom found they had less severe symptoms and were much less likely to die from the virus than other age groups. The study tracked patients at 260 hospitals in England, Wales and Scotland between January and July 2020, and was published in The British Medical Journal in August. Eighteen per cent of children and teenagers in hospital were admitted to intensive care, and six children died—the authors note that all had “profound” underlying conditions—putting the group’s fatality rate at one per cent. That’s dramatically lower than the fatality rate for all people hospitalised with COVID-19 during the same period, which was 27 per cent. For children admitted to hospital, the odds are extremely good—but the study underscores the vulnerability of young people with existing health challenges.
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Thunderstorm asthma

Certain weather conditions can spread pollen fragments so small that some people experience severe asthma, even if they’ve never had it before. It begins when a significant storm arrives while pollen is abundant. Pollen grains are sucked into the storm clouds, where they absorb moisture and burst, shattering into smaller pieces. These tiny particles are dispersed by the storm’s downdrafts. They’re so small that they pass straight through the nose (where nasal hairs catch ordinary-sized pollen grains) and into people’s lungs, where they can trigger an asthma attack. It’s a serious condition—a Melbourne storm in November 2016 sent 8500 people to emergency departments and overwhelmed ambulance services. At least 10 people died of asthma-related causes. Thunderstorm asthma was thought unlikely to happen in New Zealand—weather patterns aren’t favourable. But Waikato Hospital saw a jump in acute asthma cases following a thunderstorm on December 2, 2017. They became the first people in New Zealand to be diagnosed with thunderstorm asthma.
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Parasite publicity

Parasites don’t get great publicity—they tend to drink blood or make their home inside intestines—but there’s a lot to value in this vast and varied group of organisms. In the journal Biological Conservation, an international group of scientists, including Allen Heath from AgResearch in New Zealand, describe their importance and present a plan to conserve them. Parasites are animals which spend at least part of their lives feeding on or making their home inside living hosts. This freeloading approach to life is so popular that perhaps 40 per cent of all species may be parasitic, and parasitism may have evolved independently at least 200 times. Parasites are incredibly diverse, too—one study estimates parasitic worms number as many as 300,000 species, substantially more than the 70,000-odd vertebrate species that host them. Their presence isn’t necessarily negative for their host. Some parasites can regulate their host’s immune system, while others store heavy metals that might otherwise prove poisonous. Around four per cent of known parasites infect humans, often to our detriment. The report suggests that parasites could be biomedical resources that help humans. We have already used leeches medicinally for many years, and some researchers are investigating helminths (worms) as a therapy for some autoimmune conditions. In New Zealand, geographic isolation has led to a proliferation of endemic parasite species. The tuatara has its own resident tick species; the hihi is home to a unique coccidian, a microscopic single-celled parasite that dwells in the intestine. But we still have lots to learn and discover about the parasites that dwell in the nooks and crannies of Aotearoa. Otago Museum is amassing parasites as part of a collection that already contains thousands of specimens. “Because the museum attends to many strandings of marine fauna across the South Island, they end up collecting lots of rare parasites that you wouldn’t find otherwise,” says parasitologist Anusha Beer, who recounted finding a three-metre-long intestinal worm while dissecting a stranded sunfish. Such collections enable research into the fascinating lifecycles and myriad strategies devised by parasites. They may also become a compendium of disappearing biodiversity, says Beer: “It’s thought that about half of all parasites will become extinct without ever being discovered.”

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