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Flight tests

It’s not a squirrel, or a bat, but a dinosaur that acted like all three. The newly discovered species Ambopteryx longibrachium lived in the forests of China 163 million years ago, climbing trees and gliding between them. Ambopteryx, which was described in a paper published in Nature in May, is only the second feathered dinosaur to have been found with signs of membranous, bat-like wings. The first, Yi qi, or ‘strange wings’, reshaped theories about the evolution of flight following its 2007 discovery. (It’s now believed that dinosaurs developed flight up to four times, using multiple types of wings.) Ambopteryx is a member of the scansoriopterygid family: tiny, feathered, lightweight dinosaurs. Alive, it probably weighed a few hundred grams, or about the same as a burger. It had long hands and fingers, feet suited to perching, and wrist bone called a styliform which looks like it would support a wing. “These fossils demonstrate that, close to the origin of flight, dinosaurs closely related to birds were experimenting with a diversity of wing structures,” write the authors. Now, the hunt is on for relatives of Ambopteryx and Yi.
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Living under a rock

It’s been alone for two million years, during which time it lost the ability to fly, and its habitat has shrunk to just a few hundred metres of stream with a view of Dunedin Airport—but the Maungatua stonefly is finally enjoying a moment in the spotlight. Its discovery was an accident: Jon Waters, a professor of zoology at the University of Otago, was out in the Maungatua Range looking for an entirely different species of stonefly. But this species was different, and Waters knew it. It’s flightless, chunky, and short, less than two centimetres long. PhD student Brodie Foster, who led its taxonomic description, called it a “relict”. Juvenile stoneflies, called nymphs, live under stones in rapids. At first, researchers found only nymphs of the Maungatua stonefly, so they reared a male to adulthood to study. DNA analysis confirmed it as a new species, named Zelandoperla maungatuaensis. Landcare Research considers nymphs from the Zelandoperla genus to be indicators of good water quality—they’re among the first species to disappear from an unhealthy stream.
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Frog apocalypse

Chytrid fungus is the Genghis Khan of the amphibian world: it has spent the past 50 years invading nations one by one, slaughtering as it goes. It has spread to more than 60 countries, wiped out 90 species, and caused significant population declines in more than 500 species, according to an international study led by the Australian National University. The fungus, which eats the skin of amphibians, is responsible for the world’s greatest biodiversity loss due to a disease. Researchers say it should be considered one of the most damaging invasive species in the world—up there with rats and cats in terms of the number of species it endangers. Though chytrid is present in New Zealand and Australia, one nearby land mass remains a sanctuary: New Guinea, which is home to six per cent of the world’s frog species. In June, a team of 30 international experts published a paper in Frontiers in Ecology and the Environment calling for greater support and protection for New Guinea’s island haven.
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Walk like a shark

When spider monkeys, honey bees, or sharks are foraging for food, they’ll use a pattern of movement called a Lévy walk—random but correlated steps with no destination in sight, involving many short movements mixed with a few longer ones. The theory goes that this pattern is statistically best for finding randomly distributed objects, such as food. Now, Japanese scientists have shown humans also do the Lévy walk when moving through crowds—the free spaces substituted as the resources being sought. Though people move haphazardly, they naturally choose efficient routes. The study has implications for crowd-behaviour research and urban design.
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The power of poo

Wherever penguins and seals wander on the Antarctic peninsula, biodiversity hotspots spring up in their wake, thanks to the soil enrichment provided by their poo. Its nourishment allows mosses and lichens to grow, which in turn host small invertebrates, such as mites and springtails. The poo partly evaporates as ammonia, and this is blown inland, resulting in a total area of enrichment up to 240 times the size of the penguin or seal colony. In a study published in Current Biology in May, Dutch researchers mapped these biodiversity hotspots across the peninsula, which will be updated in future by tracking penguin and seal movement by satellite. Next, they plan to look at whether these hotspots are enabling invasive species to spread.
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Born this way

Three fathers, two mothers, one father and two mothers—all are naturally occuring parent combinations for honeybees. Honeybees are haplodiploid, which means that females hatch from fertilised eggs (and have two parents) while males hatch from unfertilised eggs (and have no father). This makes it possible for new forms of reproduction to occur, and new research into bees’ DNA, published in Biology Letters last November, found that they can have multiple parents of various sexes. Researchers estimate that one to two per cent of bees are born this way—they’re known as sex mosaics, or gynandromorphs, and have a mixture of male and female characteristics.
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I spy for science

A citizen-science project to spot Otago skinks will help a Dunedin PhD student collect valuable data about the weather conditions that they prefer. Jo Virens set up eight cameras in Redbank Reserve to photograph Otago skink habitat every minute. The result: 750,000 images. Virens now needs help identifying which pictures feature skink appearances. By plotting the reptiles’ activity alongside detailed data on wind, solar radiation, temperature and humidity, Virens will be able to figure out which temperature conditions best suit them. “It’s all about how that affects body temperature, they’re going to be wanting to maintain a body temperature of probably around 25 to 35 degrees.” Then, using localised weather projections for the next 100 years, Virens will be able to create a skink forecast: will there be skink-friendly weather, encouraging them to bask all day long? Or will they need to move to new habitat to survive? There aren’t many skinks to spot—they’re endangered—but they pop into the frame often enough to tempt a viewer to spot just one more. “I’m not expecting it to be that entertaining,” says Virens. “I’m hoping the challenge behind it is what’s going to be appealing about it.” Otago skinks have black and gold markings reminiscent of lichen growing on rock, and reach up to 30 centimetres in length. Their patterns are unique—individual skinks can be identified from pictures of their face markings. Not that they always come that close in Virens’ pictures. Virens has set up the project on citizen-science platform Zooniverse—anyone can view 10 time-lapse images at a time, and flag when Otago skinks appear. Follow this shortcut to access them: nzgeo.com/skink The skinks are hard to spot, warns Virens, so look closely. “The beta test revealed that false negatives—people missing skinks—were relatively common, whereas false positives—people saying they saw a skink when there wasn’t one—practically never happened.”
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Learning to speak

Eating grains may have given rise to human speech, say Swiss researchers. The change from hunter-gathering to milled-grain consumption is correlated with a change in human tooth structure, where the upper teeth were pushed slightly in front of the lower teeth. This allowed the mouth to produce new sounds known as ‘labiodentals’, which are found in half the world’s languages. They are made by touching the lower lip to the upper teeth, such as when saying ‘f’ or ‘v’.
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Fossilised fish flock together

Fish have been forming shoals since at least the Eocene Epoch, according to this fossil of 259 tiny, extinct Erismatopterus levatus, which lived about 50 million years ago in giant lakes that covered Wyoming, Colorado and Utah in the United States. By analysing the positions and swimming directions of the fish, researchers from Arizona State University found their group behaviour to be the same as fish species today: they avoid straying too far from the shoal and swimming too close to each other. Communication and behaviour are usually absent from the fossil record, but in this case, a mystery remains: how were these fish preserved mid-swim?
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Quakes on the moon

It seems like an ancient, static hunk of old rock, but the moon does seem to be tectonically active, according to new research based on four seisometers left on its surface during NASA’s Apollo programme. The devices recorded 28 shallow ‘moonquakes’ between 1969 and 1977. A recent paper published in Nature Geoscience analysed them in an attempt to pinpoint their epicentres. Researchers from the United States and Canada compared the epicentres to land features such as fault scarps, loose soil and rock deposits, and boulder movements, and say their findings may mean the moon is currently tectonically active.
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City trees struggle, too

Trees give us a better life: they keep us cool, provide habitat, filter carbon dioxide, produce oxygen, help with flood protection, improve our mental health, increase house prices, reduce car crashes and shield us from wind. But trees can be a marker of inequality, too. Auckland Council data from 2017 shows that urban trees cover 18 per cent of the city’s land on average—but that can fluctuate from eight per cent to 74 per cent depending on the suburb. Māngere, Ōtāhuhu, Ōtara, Papatoetoe, Manurewa and Papakura had an average of 10.5 per cent tree coverage, while central areas had 19.3 per cent and Devonport and Takapuna 24.6 per cent. How to get the benefits of more trees in our cities, and share those with everyone? Other than discouraging cutting them down, new research from Boston University, published in PLOS One in May, suggests that just planting more trees isn’t enough, as those in cities grow faster but die younger than their relatives in the country. Our understanding of trees is based on intact, rural forests and doesn’t apply to urban ecosystems, say the authors. They conclude that taking better care of existing trees can have more of an impact—in terms of the total biomass of urban trees—than planting loads of new ones.
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What lives inside glaciers?

As glaciers retreat, they lose invisible ecosystems formed of microbes—before we’ve had a chance to get to know them. Bacteria thrive just about anywhere, but nobody has investigated the microbiome of alpine glaciers on a global scale, says geologist Mike Styllas, leader of a three-year, round-the-world expedition to study ice-loving microbes on 200 glaciers in 15 countries. The team, from the Swiss Federal Institute of Technology, want to find out how the microbes adapted to extreme conditions, and what’s happening to them in a changing climate. This project is a first-of-its-kind worldwide inventory of unseen life during times of dramatic change. New Zealand was the first stop on the itinerary because of the wealth of long-term observations gathered during annual end-of-summer snowline surveys. The late Trevor Chinn, who began the survey in 1977 and took his last flight over the Southern Alps last year, helped the team scout out the best locations—such as Richardson Glacier, one of 50 ‘index’ glaciers Chinn selected to be tracked every year. On arrival, Richardson Glacier looked dirty, hiding its ice under a thick coat of surface moraine. This provides a thermal buffer, slowing its retreat. But its recent history of withdrawal was written into the landscape, with moraine heaps dumped much further down the valley. The Aoraki/Mt Cook region was one of several field sites along a north-south transect of the Southern Alps. At each, the team gathered environmental data and took samples for DNA sequencing to identify microbial communities: one dataset from a glacier’s terminus, another from the glacial stream. “With the Richardson, we know where the glacier was a hundred years ago,” says Styllas. “Sampling further downstream, we’re going back in time and can see how microorganisms have adapted and evolved as the glacier has retreated.”
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Too much browsing

Is it true that deer act like moa in our forests, filling the ecological niche that moa left empty? Nope, says a new study by Landcare Research–Manaaki Whenua palaeobiologists Janet Wilmshurst and Jamie Wood. They compared prehistoric moa poo with modern-day deer poo, both from Daley’s Flat in the Dart River valley. Using plant pollen preserved in the faeces, they reconstructed the diets of both species, and found a wider variety of pollen in the moa poo. This points to a more diverse forest having existed at the time. Some of the plants found in moa poo are now restricted to areas deer can’t reach. (The lower half of the picture above is a boulder-top inaccessible to deer.) “It is the final nail in the coffin for any idea that deer fill the same job vacancy in the ecosystem as moa,” says Nic Rawlence, director of the University of Otago’s palaeogenetics laboratory. “Ever wondered why our native forests are relatively open under the canopy? Now you know why.”
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The mystery of the adzebill

Ornithologists have been arguing for more than a century about just what an adzebill was. Hefty flightless birds with massive beaks, they disappeared in the first wave of extinctions following human arrival in Aotearoa and are known only from their skeletons. Their bone chemistry indicates they were carnivores, and their pick-like beaks and powerful feet suggest they were diggers, perhaps excavating tuatara and seabirds from burrows. But they were apparently unrelated to any living bird species. When Richard Owen first described them from leg bones in 1844, he mistook them for small moa. Later adzebills were thought to be cousins to the sunbitterns, or the flightless kagu, the national bird of New Caledonia. Were they from the rail family—or something else entirely? Finally we have an answer, thanks to new techniques that allow palaeogeneticists to extract traces of DNA from ancient bones. An international team of researchers, including palaeontologists and ornithologists from Australia and New Zealand, found that adzebills are relatives of small ground-dwelling birds from Africa, in the obscure family Sarothruridae, or flufftails. The Madagascan wood rail is a typical flufftail—a medium-sized forest bird resembling a weka. So how did the ancestors of adzebills get from Madagascar to New Zealand? DNA suggests the split happened 40 million years ago, when the southern continents were closer together and Antarctica was further north and covered in forests. The ancestors of adzebills could fly, and were probably spread across Africa, Madagascar, Antarctica and New Zealand, leaving modern-day descendants at each end of the range. We now know that kiwi, whose closest relatives are the extinct elephant birds of Madagascar, had similarly mobile flying ancestors. Adzebills turn out to be another native bird that colonised Aotearoa from across the oceans, then lost its ability to fly.
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Bat maps

The lesser short-tailed bat was once in residence in forests around the country, but has disappeared since the arrival of humans, thanks to forest clearance and the introduction of predators. Short-tailed bats are thought to be important pollinators—they crawl on the forest floor to forage for food.
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New squid on the block

A number of squid newcomers have been found on a single research expedition to the Kermadecs, an island arc 1000 kilometres northeast of New Zealand. AUT University postdoctoral research fellow Heather Braid defrosted about 150 cephalopod specimens collected in late 2016 on a NIWA deep-sea survey voyage, identifying 43 species. Thirteen of these had not been sighted in New Zealand waters before, including bobtail squids, comb-fin squids and myopsid squids. Five are likely new to science (three of the five are pictured below; the other squid, lower right, is Histioteuthis miranda). Braid extracted DNA from the new species in order to compare them with squids from other parts of the world. [gallery columns="2" link="none" ids="329323,329324,329325,329326"] The Kermadecs are a site of high marine biodiversity, thanks to the juncture of a warm ocean current from the north and a cool current from the south. There is a long-stalled campaign to declare a marine sanctuary across the region. “Pretty much every time they go they find something exciting,” says Braid. “We have one of the highest biodiversities of squid and octopus species in the world.”
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Kākāpō get busy

On the island sanctuary of Whenua Hou, kākāpō only breed when rimu trees mast. Rimu responds to different temperature cues than beech. “If year two is colder than year one, there’ll be a mast in year four,” says kākāpō scientist Andrew Digby. “We count the developing fruit in the autumn. If more than eight per cent of the branch tips have fruit on them, the kākāpō will breed the following summer.” Last autumn, 47 per cent of the tips had fruit, and it has led to a record-breaking breeding season. It’s rare for rimu fruit, pictured above, to fully ripen on Whenua Hou—that last happened 17 years ago. But today, ripe red fruit carpet the ground, and kākāpō mums are feeding it to their chicks, which are growing faster than usual. Almost every nest has two chicks, or even three: “We’ve never seen that before,” says Digby. “Almost every bird has bred.” It means 2019 is a mega-mega-mast: not only are beech and rimu masting at the same time, a rare event, but masting is unusually widespread.
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Insectpocalypse now

The first global review of studies about the decline of insects predicts the planet will lose its insects within a century if the current rates of extinction continue. Notable insect population crashes have been documented in Puerto Rico, where one study found a 98 per cent decrease in ground insects over 35 years, and the United Kingdom, where butterfly species dropped by 58 per cent in a decade on agricultural land. In Oklahoma, only half of bee species recorded in 1949 were found in 2013, while in Germany, the abundance of flying insects in national parks declined by 75 per cent over 25 years. Insects are the most abundant animals on Earth—they outweigh humans by 17 times—but their mass has been declining by 2.5 per cent a year for the past three decades. The insect rate of extinction is eight times higher than that of birds, mammals and reptiles. According to the analysis, which will be published in Biological Conservation in April, the decline in insect numbers is primarily due to intensive agriculture, heavy pesticide use, loss of habitat through urbanisation and climate change. “Unless we change our ways of producing food, insects as a whole will go down the path of extinction in a few decades,” write the authors of the review. “The repercussions this will have for the planet’s ecosystems are catastrophic, to say the least.”    
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Losing ground

Forest soils take a long time to recover from disturbances such as bushfires or logging. Soils lose nutrients when heated—fires can result in soil temperatures of more than 500°C—while logging alters the soil structure, exposing and compacting various layers. When researchers from the Australian National University collected 729 soil cores from 81 sites in the mountain ash forests of Victoria, they found it took soils up to 80 years to recover to their former nutrient density and quality following a bushfire, and 30 years following logging.

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