Tag Archives: conservation

pollination

Honeybee health: a #dataimpact story

Featured image above: Environmental stressors which alter bee pollination, like extreme weather and pesticides, are assessed using large data sets generated by bees from all over the world via fitted micro-sensor ‘backpacks’. Credit: Giorgio Venturieri

Bee colonies are dying out worldwide and nobody is exactly sure why. The most obvious culprit is the Varroa mite which feeds on bees and bee larvae, while also spreading disease. The only country without the Varroa mite is Australia. However, experts believe that there are many factors affecting bee health.

To unravel this, CSIRO is leading the Global Initiative of Honeybee Health (GIHH) in gathering large sets of data on bee hives from all over the world. High-tech micro-sensor ’backpacks’ are fitted to bees to log their movements, similar to an e-tag. The data from individual bees is sent back to a small computer at the hive.

Researchers are able to analyse this data to assess which stressors – such as extreme weather, pesticides or water contamination – affect the movements and pollination of bees.

Maintaining honey bee populations is essential for food security as well securing economic returns from crops. Bee crop pollination is estimated to be worth up to $6 billion to Australian agriculture alone.

Currently 50,000 bees have been tagged and there may be close to one million by the end of 2017. Researchers aim to not only improve the health of honey bees but to increase crop sustainability and productivity through pollination management.

This article was first published by the Australian National Data Service on 10 October 2016. Read the original article here.

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Lizards trained to not eat cane toads

Lizards trained to not eat cane toads

Featured image above:  Trained floodplain monitor lizard tripods to get a better view of approaching researchers.

Australian researchers have taught free-ranging goannas to avoid eating poisonous cane toads about to invade their study area – a floodplain in the remote Kimberley wilderness.

“After training, giant monitor lizards, known as goannas, survived when the toads arrived, whereas untrained lizards were immediately killed,” says PhD candidate Georgia Ward-Fear, who led the research under supervision from University of Sydney Eureka Award-winner Professor Rick Shine with colleague Dr Gregory Brown.

Lizards trained to not eat cane toads
Balanggarra Rangers Herbert and Wesley Alberts, and Georgia Ward-Fear (L-R) with a captured floodplain goanna.

Worldwide, invasive species cause devastating impacts on native predator populations. The 7 kg, yellow-spotted monitor, or floodplain goanna, is central to Aboriginal culture and plays a pivotal ecological role.

In Australia, the spread of cane toads has caused catastrophic population declines in many native predators because of fatal poisoning when toads are ingested. Smaller predators often survive because the toads they attack are small enough to make them sick but not kill them. Small toads contain much less poison than large adult toads. So, the predators learn not to eat toads.

Immediately prior to the arrival of toads at a remote floodplain at Oombulgurri in the Kimberley region of northwestern Australia, researchers offered small (non-lethal) cane toads to wild lizards. Follow-up trials confirmed just one or two toad meals were enough to convince a goanna not to eat another toad.

The trained lizards then went on to ignore the large toads that arrived a few months later. Eighteen months after the study started, many of the trained lizards are still alive despite the presence of toads.

The research led by University of Sydney is published today in the journal Biology Letters in the paper: ‘Ecological immunization: in situ training of free-ranging predatory lizards reduces their vulnerability to invasive toxic prey’. 

The work was carried out in collaboration with the Western Australian Department of Parks and Wildlife and Balanggarra Rangers.

Lizards trained to not eat cane toads
Balanggarra Ranger Quentin Gore radio tracking a floodplain monitor.

Shine says the findings suggest a potential buffer against invasive species impacts by targeting vulnerable natives rather than feral pests.

“This study shows that exposure to small cane toads can immunise free-ranging predators against the toad invasion,” Shine says. “It sets the framework for a bold new method of conservation.”

Brown concludes that “Releasing small toads just before the invasion front arrives could prolong the lives of native predators”.

This article was shared in a media release by the University of Sydney on 6 January 2016.