Read more
Geo News

A matter of microplastics

Tiny plastic motes suspended in the atmosphere have an impact on the global climate, according to research from a New Zealand team. As plastic degrades, weathered by the elements, it breaks down into smaller and smaller fragments. Microplastics are between five millimetres and one micron in size—one-hundredth the width of a human hair. They’re tiny, but they’re everywhere: from deep ocean trenches to remote Antarctic icescapes, and, closer to home, in our table salt and drinking water. They’re even airborne, floating in the air we breathe and transported far and wide on the wind. Airborne particles can absorb sunlight or scatter it “like tiny disco balls”, says the University of Canterbury’s Laura Revell, who led a study into the impact of microplastics on the global climate. Scattering has a cooling effect, while absorbing light warms the Earth. “They do both,” says Revell. The plastic particles are pretty good at reflecting sunlight back into space, but they can also absorb heat radiated from the Earth, contributing a tiny amount to the greenhouse effect. Revell estimates microplastics will have a “significant” effect as plastic waste grows. In another modelling study, researchers estimated the amount of microplastics in Waikato River drinking water, which Auckland uses. Their worst-case scenario had the concentration at around 65 particles per litre—about five to ten times less than similar cities around the world, thanks to our low levels of industrial activity, low population density, and advanced filtration methods.
Read more
Geo News

Testing tradition

For generations, Samoan healers have been using the plant matalafi to treat inflammation, and illnesses caused by spirits or ghosts. So when Seeseei Molimau-Samasoni returned to her home village to collect plants for her doctoral research into traditional medicines, she was sceptical about matalafi. But of the 11 plants she analysed, it was the most potent. Matalafi (Psychotria insularum) is a member of the coffee family and grows throughout the South Pacific, but its use as a traditional medicine has been documented only in Samoa. Molimau-Samasoni consulted healers about how they prepared and used the leaf juice and pulp, and back at her lab at Victoria University of Wellington, tests on cells and in mice found that matalafi has an anti-inflammatory effect similar to ibuprofen, and that it affects cells’ iron levels. Working with Helen Woolner, who is Cook Island Māori, Molimau-Samasoni identified two iron-binding molecules with anti-inflammatory properties. Iron is an essential element, with an important role in cellular processes. While people are perhaps more aware of iron deficiency, says Woolner, iron imbalance or overload is associated with several serious diseases. She hopes to investigate matalafi’s effectiveness in the treatment of certain cancers and neurodegenerative conditions such as Alzheimer’s. Molimau-Samasoni is back in Apia, working at the Scientific Research Organisation of Samoa, where she leads a team looking into Samoan medicinal plants, soil microbes and marine organisms for any antibacterial, anti-gout or anti-cancer properties. “It is hugely important for Pacific people to lead research into Pacific traditional knowledge,” she says, “and Pacific natural or genetic resources.”
Read more
Geo News

The Iron Age menu

Barley and cranberries for breakfast. Spelt and seeds for lunch, with soft cheese and beer. If you were a European salt miner 2700 years ago, that is. Researchers took a close look at salt-cured faeces, preserved for thousands of years in an Austrian salt mine, to identify components of the Iron Age diet. One ancient poo contained the fungal species used to make blue cheese (Penicillium roqueforti) and to ferment beer (Saccharomyces cerevisiae), providing evidence of, perhaps, a cheeseboard and a bevvy. The faecal samples pointed to a carb-rich, plant-based diet: lots of cereals such as barley and spelt, supplemented with occasional broad beans, fruits such as crab apples and cranberries, and seeds such as opium poppy seeds. There was a little consumption of meat from cattle and pigs.
Read more
Geo News

Do frogs like each other?

Hidden among damp leaf litter, rocks and tree roots, the nocturnal Hamilton’s frog (Leiopelma hamiltoni) leads a surprising social life. During the day, the frogs retreat to damp, cosy crevices—often accompanied by a flatmate. These flatmates aren’t chosen at random—some frogs preferentially hang out with specific frogs, and avoid others they don’t like. In other words, frogs have friends. To map these amphibian social networks, researchers at the University of Otago turned to a captive population of Hamilton’s frogs. PhD student Luke Easton had been keeping detailed notes of the frogs’ interactions over several years, tracking them with photo ID. Individual frogs can be differentiated based on their distinctive markings: the pattern of mottled brown-and-black blotches on their back, “sort of like leopard spots”, says the study’s lead author, Simon Lamb. “One of the individuals was called Mo, because he had a moustache pattern.” Lamb realised that the meticulous notes collected by Easton could be used in social network analysis—a fancy statistical way of examining social associations between individuals. “You build up a map of who likes to hang out with each other.” The analysis assessed the strength of the friendship between individuals—the frequency of their hang-outs—and the diversity of interactions across the network. Were the same individuals always choosing the same flatmates, or were they switching it up? Were there froggy feuds? “In one of the tanks, we had one female that only hung out with one male during the entire study and that male almost never hung out with other females in the tank—only, like, a couple of times.” The idea for the study was sparked by a frog friendship observed at Zealandia Ecosanctuary. There, Joseph Altobelli, also from the University of Otago, spotted two female Hamilton’s frogs in the open, locked in a damp embrace, one plopped directly on top of the other. Going back over frog census records kept since 2012, he realised that these two individuals had been spending time together for the previous eight years. “This got us thinking, maybe there’s something up here,” he says. “Everything we know about frog social interaction is kind of limited to breeding behaviour. But how do they associate on a day-to-day basis? “People have assumed that amphibians maybe don’t have these higher-level social interactions like mammals and birds, and I think that’s led to them being overlooked.” How do Hamilton’s frogs chat with each other? This ancient species doesn’t call—they don’t even have eardrums. “It’s still a bit of a mystery as to how they communicate,” says Altobelli. “They may be using chemical cues.” The next step involves exploring amphibian social networks in the wild by equipping the frogs with tiny radio backpacks. This will allow the researchers to precisely determine who is hanging out with who. “Having this little window into their social life is actually really important,” says Altobelli. “It tells us a lot about how social interactions may play into the frogs’ survival, and then that will help us with their conservation.”
Read more
Geo News

How close is medical care?

Health geographer Jesse Whitehead has been mapping New Zealanders’ access to healthcare, whether it’s the distance they have to travel to a vaccination clinic, or whether it would be more equitable to ensure vaccines are available at schools or GP clinics (it turns out that schools offer better coverage). These maps show the distance people must travel to the nearest metropolitan hospital (located in major cities, with a wide range of services) or regional hospital (with less capacity and fewer services).
Read more
Geo News

Bear bones

From trophies to traditional medicine, the illegal trade in bear parts is driving some iconic species to extinction—and New Zealand is one destination in the $2 billion global market for smuggled bear products. In the ten years to 2018, New Zealand authorities made 412 seizures of smuggled bear parts and bear-derived products. More than 80 per cent of the seizures related to traditional medicines—often bear bile or gall bladder extract—but some also included bear parts and trophies.
Read more
Geo News

Tuna vs minerals

Mining the deep ocean is likely to begin in the next few years, as countries and companies look to exploit a previously untapped resource of cobalt and other minerals essential for technologies like smartphones, laptops, and electric car batteries. But scientists have raised concerns about the impacts deep-sea mining will have on ocean ecosystems. A recent study found that mining claims in the high seas already have significant overlap with important tuna fisheries—the skipjack, bigeye and yellowfin tuna that many Pacific Island nations depend on. Mining produces toxins as well as large amounts of sediment that will have to be released into the water, reducing visibility and affecting the jellyfish, squid, zooplankton and small fish that tuna eat, says lead author Jesse van der Grient from the University of Hawai’i. “They might die, they might not grow as fast, or they might not reproduce as well. It could mean the tuna have less food and therefore we have less tuna. It’s becoming increasingly clear that the fishing industry could take a significant hit if ocean mining goes ahead.” Setting appropriate restrictions before mining begins is crucial—but scientists were concerned that a meeting of the International Seabed Authority in Jamaica in December could rush through approvals before research has been done.
Read more
Geo News

Whose teeth?

Have you ever found a cuttlefish bone washed up by the tide? You may also have seen one of the bleached, surfboard-shaped shells in a budgie’s cage, acting as a calcium supplement. These are actually neither bone nor shell, but function in a similar way, giving shape and buoyancy to cuttlefish. There are no cuttlefish in New Zealand waters, but their remains are washed here from Australia. So, which species were they? And what had killed them? Researchers at Te Papa Tongarewa set out to solve the mystery. They managed to extract DNA from the dorsal shield, the top layer of the cuttlebones, and discovered that those most commonly found belonged to the Australian giant cuttlefish, Sepia apama. This animal lives in seagrass meadows and rocky reefs around the southern coasts of Australia, and it can rapidly change colour, flashing through different shades like a neon sign. Next, the Te Papa team analysed the punctures, cuts, and scratches found on the cuttlebones to try to determine what had eaten them. Using animal skulls and teeth from the museum’s collections, they made indentations in Blu Tack, then matched up the bite marks with the patterns on the cuttlebones to find the culprits: albatrosses, sharks and dolphins.
Read more
Geo News

500

The number of critically endangered tarāpuka/black-billed gulls that abandoned their nesting site on Canterbury’s Waimakariri River in November. Though tarāpuka number in the tens of thousands, they are the most endangered gulls in the world as they are rapidly declining. Two dead tarāpuka were found at the site, but experts aren’t sure whether the disruption was caused by a dog attack, a vehicle coming too close, or something else. “It’s their environment and we’ve heavily impacted it,” says David Owen from Environment Canterbury. “We need to keep vehicles and dogs away from them and give them a fair chance."
Read more
Geo News

Star-crossed albatrosses

Divorce is a possibility for any socially monogamous species, from humans to seabirds. Typically, birds split up after breeding failures, allowing them to find a more suitable match. In the case of albatrosses, new research published in Proceedings of the Royal Society B suggests that climate change may increase divorce rates in couples who otherwise would have stayed together, with population-wide ramifications. Starting in 2003, international researchers tracked the mating behaviour and breeding success of black-browed albatrosses on the Falkland Islands in the southern Atlantic Ocean. They found that the divorce rates varied considerably from year to year, ranging between 0.8 and 7.7 per cent, and were strongly correlated with warm sea surface temperature anomalies, increasing as the waters warmed and fish became less available. The authors suggest the environmental stress could cause migrating pairs to arrive at different times, or that in times of shortage, females blame their mates for the lack of food, and look for greener pastures. The researchers predict similar patterns may be seen in other species, too, and say the findings represent an overlooked consequence of global climate change that could have unforeseen effects on endangered populations.
Read more
News

Southern sights

New Zealand Geographic and Heritage Expeditions are pleased to announce their second premium adventure, a journey through Fiordland with New Zealand conservation stalwart, award-winning author, photographer and natural history filmmaker Rod Morris. 

Read more
Geo News

Between ice and fire

On a summer afternoon in early 2020, the land of the long white cloud temporarily became a land shrouded in an orange haze. Catastrophic bushfires in Australia produced a huge plume of smoke that drifted across the Tasman, reaching altitudes as high as 16 kilometres before settling over the Southern Ocean. Tiny motes of ash and dust mixed with gases fertilised an area of sea larger than Australia itself, seeding an extraordinary bloom of microscopic algae, also known as phytoplankton. The sprinkling of smoke provided three times more iron than usual, promoting unprecedented growth for the time of year. When algae grow, they photosynthesise like a plant. They use sunlight to power the conversion of water and carbon dioxide into food. The smoke-fuelled bloom of early 2020 sponged up a lot of carbon dioxide from the atmosphere, roughly equivalent to the amount released by the bushfires. However, it’s unknown whether this carbon removal has a lasting effect. Further south, in the seas around Antarctica, the bloom-and-bust cycles of phytoplankton are usually driven by ice, not fire. When sea ice breaks up and melts, it creates favourable conditions for algal blooms. But when sea-ice cover remains, the lack of sunlight means algae don’t flourish. These blooms play a dual role: as a carbon sink, drawing carbon dioxide from the atmosphere into the deep ocean, and as the basis of the Antarctic food web. As the changing climate shifts sea ice around the Antarctic coast, there will be flow-on effects for phytoplankton blooms. In turn, these effects will have implications for the wider Antarctic ecosystem and the global carbon cycle.
Read more
Geo News

Losing tuna

Many Pacific Island nations depend on tuna for survival: the governments of Tuvalu, Tokelau and Kiribati derive more than half their national income from tuna fishing licences and access fees. But climate change will eventually drive the lucrative tuna populations east, away from the territorial waters of many island states and out into the high seas, according to new modelling published in Nature Sustainability in July. If ocean warming continues at current rates, the study predicts, the tuna catch in the waters of ten Pacific nations is expected to decline by an average of 20 per cent by 2050. For some countries, that will result in losses of government revenue of up to 17 per cent—reducing their ability to help their communities adapt to climate change, and potentially making them more reliant on foreign aid. Tuna stocks could be affected, too, as fishing rules, designed to ensure sustainability, are much harder to enforce on the high seas.
Read more
Geo News

Three-body problem

You can’t see them with the naked eye, but they’re in the Orion constellation, about where the hunter’s head would be: three stars locked together in a triple system known as GW Orionis, around 1300 light years from Earth. Now, evidence is mounting that this system is home to the first known planet orbiting three suns. The planet, thought to be a gas giant like Jupiter, hasn’t been directly sighted. But astronomers have observed a halo of dust, gas and debris encircling the stars, called a protoplanetary disk. These disks form around new stars before coalescing into planets—first the big, hot gas giants, and then the smaller terrestrial planets like Earth. Images of the star system show concentric dust rings encircling the gravitationally bound stars, like a cosmic bullseye. There is a curious gap between the first and second rings, and the first ring is fractured and tilted. New modelling suggests this misalignment is most likely due to one or more planets carving out their orbit. While Earth has just the one sun, several planets orbiting two stars—like Luke Skywalker’s home planet, Tatooine, in the Star Wars movies—are already known. But the existence of a planet orbiting three stars suggests that planets form more easily than we thought, and in unexpected places. If the triple-star planet does indeed exist, what would you see in its sky? Just two suns would appear, because two stars in this system are so close together that they appear as one. As the planet rotated, the stars would rise and set in patterns hard to imagine for Earthlings accustomed to the concept of night and day. Further observations of the GW Orionis system from telescopes in Chile are expected in the coming months, which may offer further proof of the potential planet.
Read more
Geo News

Tuatara tūpuna

A tiny fossil unearthed in a dusty desert in north-western Argentina provides new clues to the origins of tuatara. The 231-million-year-old skull, measuring just 32 millimetres in length, belonged to Taytalura alcoberi, an ancient member of the scaled reptile family that includes lizards, snakes and tuatara. The skull is an evolutionary puzzle piece: a rare insight into the evolution of scaled reptiles, or lepidosaurs, which diverged from their dinosaur cousins some 260 million years ago. Until now, the early lepidosaurs were represented in the fossil record by just a handful of fragmented specimens from Europe. This specimen is so well preserved in three dimensions that palaeontologists could confidently place it on the tree of life. Taytalura predates the split between the squamates (lizards and snakes) and the sphenodontians—a reptile family with only one living species, the tuatara. Despite being such a distant ancestor, the family resemblance with today’s tuatara is strong. Taytalura has distinctly sphenodontian skull architecture, with anatomical features previously thought to be exclusive to tuatara. The tuatara-type body was the original, with lizards and snakes deviating from this ancestral pattern over time—a finding that could shake up our understanding of reptile evolution. “Taytalura preserves a composition of features that we were not expecting to find in such an early fossil,” says researcher Gabriela Sobral. “It made us question how truly ‘primitive’ certain lizard features are, and it will make scientists reconsider several points in the evolution of this group.”
Read more
Geo News

A new seahorse

New Zealand has a brand-new endemic species: a tiny, jewel-coloured pygmy pipehorse, just a few centimetres long, that has been hiding in plain sight among the waving seaweeds of the Northland coast. “It’s very unusual for a new species of seahorse to be discovered in New Zealand,” says Auckland Museum’s head of natural sciences, Tom Trnski, who was involved in naming and describing it. “It’s so well camouflaged, and I think that’s why it’s eluded discovery for so long.” The tiny pipehorse has so far been found only off the east coast of Northland: peering shyly from the vegetation on undersea walls near the Bay of Islands, the Poor Knights Island, and Whangaruru. Its natural range pretty much corresponds with Ngātiwai’s rohe, so the scientists asked the iwi to gift a name for the species. Together, the kaumātua and the scientists came up with Cylix tupareomanaia. “Cylix”, which means “chalice” in Latin and Greek, refers to the cup-shaped formation on top of the creature’s head. “Tūpare o manaia” translates as ‘‘the garland of the seahorse”, referencing the animal’s jointed head crest and the word for seahorse in Māori: manaia. It also evokes the location where the original pipehorse specimen was collected, Home Point, which Ngātiwai call Tu Pare o Huia, the plume of the huia. In a world first, Ngātiwai is credited as the “naming authority” of the species. (Historically, this has always been scientists.) “It’s a really beautiful name that links this small taonga with Ngātiwai, the kaitiaki of the coast,” says Trnski. Trnski and his colleagues first submitted the paper to a European scientific journal, but its editors wanted them to cut the Māori abstract—written in the form of a pepeha, or introduction, for the species—and refused to give the naming credit to Ngātiwai. The scientists withdrew the paper and found a new home for it at another journal, where it appeared in full, as weaving of indigenous knowledge with science was respected.
Read more
Geo News

Seal census

The population of Weddell seals in Antarctica is smaller than expected, according to a new crowdsourced count of the iconic polar species. Around 202,000 female Weddell seals call the icy coasts of Antarctica home, the study estimates—far fewer than the previous estimate of 800,000. “That doesn’t necessarily mean there has been a big decrease of Weddell seals recently,” says lead researcher Michelle LaRue from the University of Canterbury, “but instead, this is probably a more accurate count that we can use as a baseline to determine change over time.” More than 330,000 citizen-science volunteers tagged thousands of seals in hundreds of satellite images depicting the Antarctic coastline. The very-high-resolution (VHR) satellite images were captured in November 2011. The non-invasive approach is perfect for seal monitoring: previously “the only way to study the seals was to travel by snow machine, or if you were lucky, a helicopter flight to get a little farther afield”, says LaRue. “Now, anyone with internet access can count them from space.” It’s the first time ever that the global population of a wide-ranging animal has been estimated from direct counts. But why only count the females? During the summer months, when the images were captured, male Weddell seals spend most of their time defending their underwater territory. Meanwhile, females lounge on the ice nursing their single newborn pup, meaning the blubbery, bodacious females are the ones snapped from space (the pups are too small to appear in the images). The study also assessed where Weddell seals like to live, finding that they prefer fast ice (anchored to the shore) that is close to deep water. The fast-ice lifestyle means that the seals need to maintain breathing holes, which they gnaw open with their teeth. They also like having emperor penguins as their neighbours—as long as there aren’t too many of the fish-gobbling waddlers, which increases competition for food.
Read more
Geo News

Ancient fires

Soot found in Antarctic ice indicates an increase of fires in New Zealand around the year 1300, thought to have been set after Māori arrived in the country, according to a team of researchers from North America, Europe and Australia. New Zealand scientists aren’t so convinced. Postdoctoral fellow Holly Winton at the Antarctic Research Centre in Wellington points out that Australia and Patagonia may also have been sources of the black carbon layer in the ice—geochemical analysis of the carbon could reveal the type of vegetation burned. For Priscilla Wehi, director of Te Pūnaha Matatini centre of research excellence in Auckland, the paper is a missed opportunity; mātauranga Māori and local research could have informed its conclusions. “‘Helicopter science’, where research is led and conducted by those who live and work far from the subject of their work, is currently under scrutiny in the research community,” she says. “How much better could this have been were it more inclusive in this approach?”
Read more
Geo News

Bruce finds a solution

A disabled kea named Bruce has come up with his own tool for preening himself. Researchers gathered multiple lines of evidence to show the bird was selecting pebbles for use as a tool for self-care—the first time this has ever been observed in a parrot. Bruce was found as a young kea in Arthur’s Pass with the upper half of his beak missing—probably due to an encounter with a pest trap. He ended up at Willowbank Wildlife Reserve in Christchurch, where he learned to hold food between his tongue and lower bill, pressing it against hard objects to help him eat it. In 2019, researchers noticed he’d come up with a new innovation: a way of preening himself despite his missing beak. First, Bruce searches for the perfect stone. He rolls it around in his beak for a while to get it lined up correctly, and then he uses it to preen, grinding it against his olive-and-scarlet feathers in order to remove parasites and dust. University of Auckland researchers, including lead author Amalia Bastos, spent 20 hours over nine days camped outside Bruce’s enclosure, their eyes fixed on the parrot, in order to establish whether his tool use was deliberate or accidental. They found that 90 per cent of the time, when Bruce picked up a pebble, he used it to preen. If he happened to drop it, he retrieved it 95 per cent of the time, or found another one before continuing his routine. (They also observed the 14 other kea in the aviary for the same length of time. No other bird used pebbles while preening.) “We have a lot to learn from Bruce,” says Bastos. “He has a serious disability compared with other kea with their massive, powerful beaks, and he’s come up with this innovative way of dealing with his situation.”

Loading..

3 FREE ARTICLES LEFT

Subscribe for $1  | 

3 FREE ARTICLES LEFT THIS MONTH

Keep reading for just $1

$1 trial for two weeks, thereafter $8.50 every two months, cancel any time

Already a subscriber?

Signed in as . Sign out

SEE THE OPTIONS

{{ contentNotIncluded('company') }} has not subscribed to {{ contentNotIncluded('contentType') }}.

Ask your librarian to subscribe to this service next year. Alternatively, use a home network and buy a digital subscription—just $1/week...

Go back

×

Subscribe to our free newsletter for news and prizes