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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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The biggest bird brain

Birds that evolved on islands, such as the North and South Island, tend to have bigger brains than those that evolved on large continents, even if the species are close cousins. A study published in Nature Communications in July compared brain size relative to body size in more than 1900 bird species, spanning 91 per cent of bird families. The researchers then analysed several bird lineages that had relatives on both islands and continents. Having a large volume in some areas of the brain enables adaptability—the pallial regions, for instance, help with pattern-finding and planning. Because island environments are unpredictable, say the authors, adaptive capability is a significant advantage. “For instance, the Galápagos finch uses tools, instead of the more frequent gleaning technique, when there are droughts and insects are only found in wood crevices,” says lead author Ferran Sayol. The New Zealand tomtit, Petroica macrocephala, has a much larger brain than its closest mainland relative, and the kea has an unusually large brain for a parrot.
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Aerial roots

If a root is above ground, how can it take in water? The Lord Howe pandan has evolved a solution: it has developed grooves that function like aqueducts, according to Victoria University researcher Matt Biddick. Pandans are found on tropical and subtropical coasts around the Pacific. They have weak trunks, but grow tall by sending roots down from the canopy that form stilts when they reach the ground. Most pandans grow to less than five metres high, but a Lord Howe Island species, Pandanus forsteri, grows to more than 15 metres, so it takes years for the aerial roots to reach the ground. Without being able to draw moisture from the earth, the roots gather it by other means. The leaves of P. forsteri are shaped like gutters, and funnel water toward the trunk. Then, grooves on the top surface of the roots channel the water to the roots’ tips, where spongy absorptive tissue carries the collected rainwater to the rest of the plant.
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Why did the penguin swim to the subantarctic?

Tawaki, or Fiordland crested penguins, have plenty of food along the coastline where they breed, yet every year they make a trip to the Subtropical and Subantarctic Fronts and back to feed—a swim of nearly 7000 kilometres. “One would think that the birds try and conserve as much energy on this trip as possible,” says researcher Thomas Mattern from the University of Otago. “But what we found is, simply put, crazy.” In 2016, Mattern and his team put GPS trackers on 17 adult tawaki and watched them travel from their rainforest colony to the subantarctic, an eight-week trip during November and December—a time when the availability of food on the Fiordland coastline is at its peak. The birds must gain weight during the journey because they undergo a ‘catastrophic moult’ immediately following their return, shedding and replacing their entire plumage at once, which requires them to stay on land for three weeks without going out to sea to feed. Mattern thinks this trip is undertaken by instinct—an impulse left over from ancestors that bred on islands close to the Subantarctic Front. Most other crested penguins still breed on those islands.
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There's a parasite for that

The parasite found in cat poo that can drive humans to suicide, car accidents and neuroticism can also make them more entrepreneurial. According to a study of 1495 students published in Proceedings of the Royal Society B, carriers of Toxoplasma gondii were 1.4 times more likely to study business, and 1.7 times more likely to focus on ‘management and entrepreneurship’. Moreover, people from countries with higher levels of the bug, which is carried by two billion people worldwide, report less fear of failure than less-infected nations.
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Fatal memory fail

It took just 13 generations for quolls to forget about their major predator, the dingo, according to Australian research published in Biology Letters in June. After noticing that northern quolls were eating toxic cane toads, with lethal results, researchers moved a group of quolls to a toad-free, dingo-free island in 2003. The quolls were trained to avoid cane toads and reintroduced to their native territory in 2016, where they were promptly eaten by dingoes. They had forgotten how to identify and avoid the dingoes’ scent.
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Set in stone

A fossilised earthquake is preserved in rock along the Livingstone Fault, which slices through both the North and South Islands. It’s the first time the fossilised remains of tectonic movement have been found in serpentinite, a type of rock that resembles snakeskin. When University of Otago PhD student Matthew Tarling and his team studied shards of Southland serpentinite under electron microscopes, they found a 0.001-centimetre layer of olivine and pyroxene within. Friction from the earthquake had heated the serpentinite to more than 800°C, dehydrating it and forming the two minerals. Fossilised earthquakes are rare finds, and this discovery confirms the theory that serpentinite would behave in this way.
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The language switch

It’s harder to turn a language off than on. When a bilingual person changes between languages, the most effort lies in deactivating one language, not picking up the other. In research published in Proceedings of the National Academy of Sciences in September 2018, United States researchers studied bilingual people fluent in English and American Sign Language who often used both at once. They were able to leave one language on while turning off or turning on the other—and engaging the other language showed no more activity in cognitive control areas than not switching languages at all. Using two languages, the study concluded, is no more difficult for the brain than using one.
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The brand-new seabird of Whenua Hou

Whenua Hou, a tiny island off the coast of Stewart Island, is most famous for its population of kākāpō, but it also has a one-kilometre strip of beach where diving petrels breed. These have just been identified as a unique species, the Whenua Hou diving petrel, Pelecanoides whenuahouensis. While there are 15 million diving petrels around the world, Johannes Fischer of Victoria University in Wellington concluded that this tiny colony was a different species for a variety of reasons: their feather colours, DNA, deeper bills, longer heads, and different species of feather lice. They’re also the only diving petrel to breed entirely within a sand-dune environment. The species numbers about 150 birds, making it critically endangered. Its entire population nests in this fragile, changeable place.
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The first colour X-rays

What if it was possible to take pictures of the inside of the human body—colour pictures, where bone and muscle were easily distinguishable from pathologies such as cancer tissue or kidney stones? Earlier this year, New Zealand scientists performed the first-ever colour x-ray of a human body, using particle-tracking technology that had originally been developed for CERN’s Large Hadron Collider, the world’s largest particle accelerator. When x-rays pass through the human body, they are absorbed differently by different internal organs. They travel straight through soft tissue, such as muscle and fat, but are impeded by denser materials, such as bone. Then the x-rays hit a metal film, which creates an image based on the intensity of the radiation that emerges. Areas where the x-rays were blocked are white, and areas they were able to pass through are black. By contrast, a new scanner the New Zealand scientists developed records each change in wavelength as the particles hit different parts of the body—bone, muscle, liquid, fat, cartilage, tumour. When the x-rays emerge, software assigns a colour to each of those energy levels. The scanner was developed in part by the Universities of Otago and Canterbury, alongside New Zealand company Mars Bioimaging, using a detector that had originally been designed to spot subatomic particles. While x-ray photons have always had this energy information contained within them, the Mars Bioimaging scanner is the first technology capable of measuring it. Because traditional x-ray imaging only records whether the radiation passed through the body, it doesn’t reveal much about the soft tissue or muscle surrounding the bones. Small versions of the colour scanner are now being used to study cancer, bones and joints, and Mars Bioimaging hopes to produce body-part scanners specialised for areas such as knees and ankles.
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How rats shape coral reefs

When rats consume the eggs and chicks of coastal-nesting seabirds, this affects fish and coral reefs offshore, according to a letter published in Nature in July. If birds are killed, this prevents their droppings from reaching marine ecosystems, meaning that underwater species miss out on the boost of nutrients provided by this natural fertiliser. The Chagos Archipelago in the Indian Ocean, south of the Maldives, is an ideal place to study the effects of rat populations—18 of its 55 islands are rat-free, while rats have been in residence on the others for centuries. An international team of researchers found seabird densities were 760 times higher on rat-free islands, which also had 251 times more nitrogen deposited from seabird droppings. Tracking nitrogen isotopes on the coral reefs around the islands, the scientists found nitrogen from birds present in seaweed, sponges and turf algae. They observed that herbivorous damselfish grew faster, and fish communities in general had 48 per cent more biomass, compared to the rat-covered islands next door. This suggests rat eradications could alleviate pressure from climate-stressed coral reefs.

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