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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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Moth magnet

On spring nights, bogong moths migrate to the Australian Alps, travelling distances of more than 1000 kilometres to reach the cool mountain caves where they spend their summers aestivating. But how does the moth navigate from its winter breeding grounds to the alps? Tests in a flight simulator found moths found their way by the stars and moon, but became disoriented when researchers deliberately misaligned the sky and the Earth’s magnetic field. That magnetic field is crucial to the moths’ ability to find their way, making bogong moths the first nocturnal insect known to use magnetic sensitivity as a tool in long-distance migration. (Birds have long been known to navigate using the Earth’s magnetic field.) Do other insects have an internal compass tuned to the Earth’s magnetic field? Study co-author Eric Warrant, a sensory physiologist from Lund University in Sweden, says monarch butterflies, which migrate by day across the United States to overwinter in Mexico, may also have some magnetic sensitivity, but their primary compass is the sun: “Bogong moths must rely on the Earth’s magnetic field because the moon is a very variable and unreliable cue compared to the sun—which is a very constant cue day after day.”
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Tinder land

On January 29, the Nelson Mail published a prophetic story: the fire risk in the region was the highest since 2001, a year of record drought. A week later, a contractor ploughing a paddock sparked a blaze that quickly covered 2000 hectares and threatened homes. “The start to summer was the third warmest on record for New Zealand,” says NIWA meteorologist Ben Noll. “The warm pattern has been a result of very warm sea-surface temperatures, both in New Zealand coastal waters and in the Tasman Sea, as well as a lack of cool southerly winds.” January 2019 is now the sunniest month on record for the entire South Island. Tasman experienced a 22-day dry spell—defined as consecutive days with less than 0.1 millimetre of rain—while Nelson has recorded 84 millimetres of rain during its summer, which would normally see 224 millimetres. Regional fire officers in the region report the highest fire-danger levels they’ve seen in 20 years. Scion’s fire buildup index, which reflects the amount and dryness of fuel, is more than twice as high as the historical average. In an average year, Nelson would have nine to 10 days of very high or extreme fire danger, says Grant Pearce, a fire scientist at Scion’s Rural Fire Research Group, but modelling shows that is likely to increase to 12-13 days on average, and 20-25 days in the worst years. It’s not the only region to experience change: “The number of severe fire-weather days is likely to increase in many parts of the country.”  
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Safety in flamboyance

Birds with colourful plumage are better at attracting mates, but also more likely to attract predators—right? Well, no. When a team of New Zealand and Australian biologists investigated whether dull-coloured birds had better survival rates than brightly coloured ones, they found both were equally likely to be attacked. The fairy-wren, an Australian songbird, varies wildly in colour—some have brilliant plumage, while others are nondescript. The researchers placed 3D-printed models of the birds at eight fairy-wren sites in Australia, then settled in to watch. They found that 13.1 per cent of brightly coloured female birds were attacked, compared to 13.6 per cent of dull-coloured females. But there was a wide discrepancy in the rate of attacks between sites, suggesting that survival had more to do with vegetation and location than the flashiness of the birds’ feathers. “While being brightly coloured can be important, for example in competing for a mate, the assumption has been that it is costly for birds because it appears to scream ‘Here I am, come eat me’,” says lead researcher Kristal Cain of the University of Auckland. “It suggests the relationship between predation and colour is not as simple as we might have thought. “Instead, it appears that because males and females behave differently—females often take more risks—bright feathers may be more dangerous for females than for males.”
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On the spectrum

Birds fly at high speed through dense forests without crashing into trees or leaves—and this navigational prowess may be due to their ability to see ultraviolet light. Two researchers photographed forest habitats with a multispectral camera, allowing them to look at the scenes through the birds’ eyes. In a paper published in Nature Communications in January, they determined that contrast between leaf surfaces was greater with UV vision, and speculated that UV vision also helps birds search for particular leaf surfaces, leading them to prey or safe refuge.
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Why don’t birds have teeth?

Birds may have lost their teeth to speed up hatching time, according to a new theory published in May in Biology Letters. The toothless beak is a relatively recent invention. Dinosaur birds had teeth, and incubated their eggs for a lengthy three to six months. Research on fossil embryos shows tooth formation took 60 per cent of this time. But eggs in open nests are vulnerable to predation, compared with mammal embryos that are protected inside the womb, or eggs that are buried. Losing teeth would allow for a shorter incubation time—and thus a higher survival rate for chicks. Other theories postulate that birds lost their teeth in order to become light enough to fly, and that the toothless beak is better adapted to certain foods.
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Blindsight solved

Some blind people are able to detect and respond to visual cues that they cannot see. The mechanism for this ‘blindsight’ was previously unknown, but researchers at the University of Queensland’s Brain Institute now believe they have identified the cause. If a person’s primary visual cortex is damaged—usually through a stroke or injury—the brain isn’t able to receive and process visual input from the eyes. Brain researcher Marta Garrido proposed the existence of a ‘shortcut’, another pathway in the brain. In a study published in January in eLife, Garrido identifies a connection between the retina and the centre of the brain, bypassing the primary visual cortex. The discovery, she says, raises questions of why the brain evolved alternate but parallel pathways. “One possibility, I think, is redundancy—so if one thing fails, then we still have the ability to process things that are really, really important, like danger and navigation. “You ask someone with blindsight how they know where to navigate to, and they will tell you, ‘I don’t know, I just had a feeling’. And understanding where that feeling comes from is fascinating.”
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Inferior monocultures

The more species a subtropical forest has, the better at storing carbon it is. A study of forests in China, published in Proceedings of the Royal Society B, found forests that were more species-rich cycled carbon faster and stored more carbon in trees, roots, litter, deadwood and soil. For every additional tree species, the total carbon stock increased by 6.4 per cent—suggesting that planting a mixture of trees rather than a monoculture creates more effective carbon sinks.
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Use the force

British artists Ruth Jarman and Joe Gerhardt turn data into art. One of the pieces at the duo’s upcoming solo show at City Gallery, Wellington, compiles seismic data from around the world—including the Kaikōura earthquake of 2014—into a dynamic moving picture that condenses eons of tectonic change into minutes. This piece, Earthworks, along with others, will be on display from March 23-July 14.
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Taking calls

A happy hihi, or stitchbird, has a call that sounds like two marbles clacking together. Using sound-recording devices, researchers listened to hihi calls in Rotokare Scenic Reserve in Taranaki to determine whether the reintroduction of the birds to the area was successful. “By recording and listening to the hihi calls, we were able to figure out how the birds were using the area they’d been reintroduced to,” says PhD candidate Oliver Metcalf, from a Zoological Society of London research team. “Using the calls, we found the birds moved from an initial exploration phase around the habitat, to a settlement phase—meaning the birds had established their own territories.” It’s hoped that auditory monitoring may replace more-invasive radio tracking for some species. Since 2004, six new populations of hihi have been established across their former range.
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Ocean sprawl

Could abandoned jetties and oil platforms help marine species? Much research focuses on how ocean structures negatively affect marine ecosystems—jetties, platforms, wrecks and pipelines can change habitats with sound, pollution, and the introduction of invasive species. But they can also provide support for endangered species of fish, coral and seals by acting as stepping stones between coral reefs, providing outposts of food and shelter. New research suggests leaving some of these structures in place may be beneficial. In the Gulf of Mexico, protected deep-sea sponges grow on the legs of oil and gas platforms, and in a study published in Scientific Reports in August 2018, University of Edinburgh scientists modelled how the larvae of a protected coral, Lophelia pertusa, could disperse around the North Sea from oil and gas rigs. They could travel between oil-rig coral populations, which would provide refuges and genetic diversity, and arrive at distant reef populations that they would not otherwise reach. “We clearly don’t need more human structures in the ocean,” says lead author Lee-Anne Henry, “but if development is to happen—and it needs to in some places sometimes—then we should consider the positives and negatives of the infrastructure together.” One of the downsides, she says, is that these structures also facilitate the dispersal of non-native species and invasive species.
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Building blocks

The wombat is the only species in the world capable of organically producing cubes. Thanks to the varying elasticity of its intestinal walls, wombats poop cubes, which they then stack up to mark their territory and attract the attention of other wombats. How they produce droppings in this shape has long been a biological mystery, solved only when Patricia Yang, a postdoctoral fellow in mechanical engineering at Georgia Institute of Technology, studied the digestive tracts of roadkill wombats from Tasmania. Cubes are rare in the natural world. “We currently have only two methods to manufacture cubes: We mold it, or we cut it. Now we have this third method,” said Yang in a presentation of her research. “It would be a cool method to apply to the manufacturing process—how to make a cube with soft tissue instead of just molding it.”
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Noise ages birds faster

Zebra finches exposed to the sound of traffic appear to age faster than those in quieter environments. In a study published in Frontiers in Zoology, birds were found to have shortened telomeres, which indicates accelerated ageing, if they were played recordings of street traffic once they had left the nest. The birds heard the noise from the age of 18 days until 120 days. But if birds were exposed to noises only while in the nest, their telomeres were of normal length. The authors suggest the birds are more sensitive to noise between 18 and 120 days of life—the time when they are learning song.
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Missing targets

A study analysing the climate-change goals of various nations has ranked New Zealand among the worst performers. Along with China and Russia, New Zealand’s climate change polices would propel the world to five degrees of warming by the end of the century, says the study, published in November in the journal Nature Communications. Researchers looked at different countries’ climate-change policies and determined the temperature rise that would ensue if all other nations followed their example. The United States and Australia are ranked slightly better, but their policies would lead to more than four degrees of warming. Recently, the World Meteorological Organization’s 2018 Climate Report found the world was not on track to meet the climate-change targets determined in the Paris Agreement. Similarly, a United Nations report published in November found that emissions of carbon dioxide rose in 2017, the first increase in four years. To meet the Paris goals, emissions must peak by 2020.
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The gannet diet

The Australasian gannet forages by plucking fish from the sea, then regurgitates food for its young—and sometimes its meals are interrupted by researchers studying gannet nutrition. A team of Australian and New Zealand scientists took a close look at what the gannets were providing their chicks. They found that the fish and squid they were eating had a lower ratio of healthy fats to protein when the sea was warmer than the 10-year average. In addition, GPS trackers showed the birds worked harder to get enough nutrition, increasing their foraging area by more than 200 square kilometres and their time spent feeding from more than 13 hours in duration to more than 21 hours. Study author Gabriel Machovsky-Capuska says the right proportion of healthy fats to proteins is crucial to gannets for good body function and healthy chicks.
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Fragile records

In a storeroom in Mt Albert, Auckland, there stood large steel filing cabinets, which hadn’t been opened for decades. Their drawers were filled with fine sheets of glass, each in its own paper sleeve, filed alphabetically—photo negatives from the 1950s and earlier documenting work of the government research institute that’s now Plant & Food Research. When staff were moving premises in 2018, photographer Wara Bullot discovered the trove of images—documentation made by her science-photography colleagues long ago—and recognised their importance. Many of the glass-plate negatives had hand-written labels detailing the subject, its purpose and location. Others could only be guessed at. Before Kodak revolutionised film in the mid-1950s, glass-plate photography was the go-to process for documenting science, as it was more chemically stable than film available at the time. The glass-plate process was cumbersome and time-consuming, but has a unique finish—a softness and a wide range of tones. “I can only admire the skill of the people who worked in this challenging medium and used it so well to capture images that tell compelling stories,” says Bullot. “Some of these photographers, like Steve Rumsey, were phenomenal at their time. They were highly skilled and had great patience and a deep understanding of their craft.” Bullot has co-curated a selection of photographs, which will be exhibited at Alberton from January 16-27. More details and some of the images can be viewed online at scienceinthedarkroom.nz.
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The long life of tortoises

Lonesome George was the last of his species, a Galápagos giant tortoise from the island of Pinta. Though he died in 2012, he continues to inform scientific research—his genome was sequenced and more than 3000 genes thought to be involved in ageing and cancer were analysed by an international team of researchers. Galápagos giant tortoises are among the longest-lived species, reaching up to 200 years, and it’s thought they have evolved mechanisms for preventing cancer. The researchers identified variants in several genes previously unassociated with ageing, opening up avenues for further research.
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Dolphin fingerprints

Ninety-five per cent of common dolphins have a unique ‘fingerprint’ of pigmentation on their dorsal fin that lasts a lifetime. Scientists hope machine learning could use the dolphin photographs taken by people all around New Zealand to track where the dolphins travel. Common dolphins occur around the globe, and it was thought they were too numerous and similar to tell individuals apart—there are thousands that swim in the Hauraki Gulf alone. Currently, dolphins are told apart by the nicks and notches on their dorsal fins—scars received socially or from boats or fishing lines. These accumulate over a dolphin’s lifetime. Bottlenose dolphins are very social and may acquire many scars, but 50 per cent of common dolphins have no scars at all. Scientists from Massey University and NIWA used 240,000 photos of nicks and notches to manually identify 2083 individuals in the Hauraki Gulf. Then they demonstrated that over ten years, the pigmentation on common dolphins’ dorsal fins doesn’t change, making it a reliable mark of identity. Lead researcher Krista Hupman is now developing an algorithm that will identify dolphins, and hopes that photos of individuals taken by recreational boaties and tourism operators could be used to get a better understanding of how many dolphins there are, where they go, and how they behave.
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Armchair travel

Viewing the world through a rectangular frame is becoming a thing of the past now that virtual-reality technology allows people to look around in 360º while watching a video—following the trajectory of a stingray passing overhead, or watching dolphins swim below.

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