Archive for March, 2015
The Connected Forest: How Your Used Mobile Phone Can Help Save Rainforests
March 16th, 2015
Via Sustaining People, a look at how recycled cell phones can be used as in an innovative network of sensors:
In 2012, a small group in Borneo and now in the US have found a way to use recycled mobile phones to stop illegal deforestation around the world.
Deforestation accounts for more greenhouse gas emissions than all of our planes, trains and automobiles (as well as ships – don’t forget the ships) combined, and around 90% of this deforestation is caused by illegal logging. A recent TED talk from environmental technologist and CEO of Rainforest Connection Topher White shows us how recycling our old phones is helping to stop this at a micro level.
According to White, rainforests often have surprisingly strong phone reception, even out in the middle of nowhere. Essentially White put together a head of old phones and tuned them to hear certain types of noises (like the whine of a chainsaw). The device then alerts those on the ground via email, enabling them to keep track of an entire forest, and arrive in time to interrupt and stop illegal loggers.
White’s amazing creation and the story behind it is fascinating; what is more fascinating is how White describes the reactions to his recycled tech, and the real effect it is now having around the world.
Rainforest Connection built a strong following on Kickstarter, surpassing their target fund by over 60% mid last year. They are going from strength to strength, and they are now installing their technology in the rainforests, of Indonesia, the Amazon and Africa.
This story teaches us that the solutions to our problems (and to sustainability issues) are all around us; it just takes a creative mind and real life experiences out in the world to shape and change our world.
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Google-Powered Maps Fight Deforestation
March 11th, 2015
Via the Guardian, another look at how Global Forest Watch, a mapping platform powered by Google, is using technology to keep an eye on the world’s forests:
The forestry website Mongabay recently reported that United Cacao, a London-listed company that promises to produce ethical, sustainable chocolate, had “quietly cut down more than 2,000 hectares of primary, closed-canopy rainforest” in the Peruvian Amazon. The company claimed that the land had been previously cleared, but satellite images showed otherwise.
The satellite images came from an online platform called Global Forest Watch, which provides reliable and up-to-date data on forests worldwide, along with the ability to track changes to forest cover over time.
Launched a year ago by the World Resources Institute (WRI), the platform has brought an unprecedented degree of transparency to the problem of deforestation, pointing to ways in which big data, cloud computing and crowdsourcing can help attack other tough sustainability problems.
Before Global Forest Watch came along, actionable information about forest trends was scarce. “In most places, we knew very little about what was happening to forests,” said Nigel Sizer, the global director of the forests program at WRI. “By the time you published a report, the basic data on forest cover and concessions was going to be years out of date.”
Several technology revolutions have changed that. Cheap storage of data, powerful cloud computing, internet connectivity in remote places and free access to US government satellite images have all made Global Forest Watch possible. None were widely available even a decade ago.
Governments and NGOs are both using Global Forest Watch, as are companies like Unilever, Asia Pulp, and Paper and Wilmar, all of which have made commitments to stop deforestation.
“Global Forest Watch revolutionizes the way we are able to monitor and engage with our suppliers,” says Alexandra Experton, who oversees Cargill’s supply chain sustainability from her base in Singapore. Cargill has set a goal of arriving at 100% sustainable palm oil in the next few years.Glenn Hurowitz, the chair of Forest Heroes and a veteran forests campaigner, says Global Forest Watch is “our go-to source as we make efforts to police deforestation”, particularly when it is backed up by on-the-ground observations from local groups.
Glenn Hurowitz, the chair of Forest Heroes and a veteran forests campaigner, says Global Forest Watch is “our go-to source as we make efforts to police deforestation”, particularly when it is backed up by on-the-ground observations from local groups.
An ambitious undertaking, Global Forest Watch brought together a broad coalition of NGO, corporate and government partners. Working closely with WRI are more than 60 partners, including Google (which supported the software development and provides computing power), ESRI (a privately-held mapping company), the University of Maryland’s department of geographical sciences (home to mapping and land-use expert Matt Hansen), Brazil-based Imazon, the Center for Global Development (a Washington DC-based think tank), and the UN Environment Programme. The multimillion dollar program is funded by governments like Norway, the US and UK.
Google provides computing power, storage and software engineering, according to Rebecca Moore, the engineering manager for Google Earth Engine. Moore and other Google engineers, in a collaboration led by Maryland’s Matt Hansen, built the world’s first high-resolution map of global forests, which was published in the journal Science in 2013 and became part of Global Forest Watch.
Global Forest Watch updates its data and images frequently – daily in the case of fire alerts; every few weeks otherwise. Satellite images track tree cover loss or gain at a 30-metre resolution for the entire world, and to a finer resolution in key spots.
Since the launch, governments, companies, nonprofits and individuals have layered on additional, valuable information. The governments of Indonesia and some central African nations, for example, have made data about land ownership and regulations governing forest use available. (Here is a detailed profile of forestry in Indonesia.) The platform also allows users to upload and share information. For example, local NGOs have recently posted stories about threats to caribou habitat in Canada and forests being harvested for charcoal in Cambodia.
New features are frequently added to the platform. Software developers are building applications with a specialized focus, notably Global Forest Watch Commodities, which includes data about commodity production and processing locations. There are also annual and monthly tree cover loss alerts, and active forest and peatland fires.
“This allows you to analyze what’s happening at the end of a supply chain,” Sizer explains. “For now, it focuses on palm oil because that’s the highest priority of the industry.”
WRI and its partners also are working to deliver sharper, more timely imagesand instant alerts so those who want to protect forests can respond in a timely way to threats. “We’re going to be continually refining the freshness of the information, the accuracy, the resolution and the ease of getting into people’s hands,” Google’s Moore says.
Users are eager to see the platform evolve. Cargill hopes to support the addition of social indicators to complement the environmental data on the platform. Gemma Tillack, a forest campaigner with the Rainforest Action Network, which is now using Global Forest Watch to identify “bad actors” in Sumatra, says she’d like all the major palm oil companies to provide data on their landholdings and mills, and require the same from their suppliers.
Meanwhile, it’s easy to imagine how the technology behind Global Forest Watch could help deal with other sustainability issues. Already, several NGOs working in the Democratic Republic of the Congo are using satellite imagine and predictive analytics to assist park rangers who are trying to halt an unprecedented slaughter of elephants for ivory in Garamba National Park. Oceans could be monitored to track illegal fishing, or a map or database of the world’s factories could allow laborers to provide feedback on working conditions.
Information, as they say, is power. Perhaps this mapping project will help NGOs figure out how to wield more of that power in favor of the environment.
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Drones: Latest Tool In Conservation Science
March 9th, 2015
Via the Sacramento Bee, a look at how drones are revolutionizing conservation:
When the rain finally came to Sacramento in early February, Nature Conservancy scientist Chris McColl needed to quickly assess whether water had overflowed the banks of the Cosumnes River and filled a floodplain the organization is trying to restore.
Planes are expensive, and it takes hours to hire one and get it in the air. So McColl deployed a drone instead.
Cheap, fast and flexible, drones are quickly becoming a favored tool for organizations conducting scientific research. The Nature Conservancy has four drones operating from San Diego to the northern Sierra. The remote aircraft count sandhill cranes, survey flood restoration projects and perform other tasks.
McColl said the conservancy would double its California drone arsenal within the next year.
At the Cosumnes River Preserve south of Sacramento, where a levee was recently removed to allow flooding to resume its natural, historic pattern, scientists use a drone to see if their efforts are paying off. They previously would have had to eyeball the flooding from the ground – not the most accurate way to measure it – or hire an airplane to fly over.
“If we had to hire a pilot, the time flexibility might not be there,” McColl said. “The drones allow us to be really responsive after storm events because we need to be there within hours to catch certain flood levels.”
At the Cosumnes River Preserve, the conservancy is using a Phantom Vision 2 drone that sports four propellers and a GoPro camera attached to a gimbal.
Total cost: $1,400. The costs of repeat flights are minimal: manpower and battery juice. In contrast, hiring a pilot to fly over the site can run anywhere from $1,500 to $3,000 per trip.
The drone has the potential of paying for itself in just one trip. It also gives the conservancy complete control over the images captured. The only limitations are short battery times and noise levels.
Although small, the Phantom Vision 2 emits a high-pitch whirring sound that scares off sandhill cranes, McColl said. Quieter drones are available in the form of a fixed-wing model that is quiet and has not scared birds, but those drones cost $10,000 to $30,000 each.
Another scientist who has been using drones for research is Christopher Zappa, ocean and climate researcher at the Lamont-Doherty Earth Observatory at Columbia University.
Zappa has deployed drones since 2011 to test new instruments that measure ocean temperature and ocean waves. He also uses drones to drop off micro-buoys that can measure water temperature and salinity.
“We’re looking at the marginal ice zone, where the ocean meets the edge of the ice, seeing how fast and how slow the melting is occurring,” Zappa said. “Monitoring ice melt in the Arctic, drones will fly to places that icebreakers and manned aircraft don’t dare venture.”
Drones are not limited to the air. Recently, the Woods Hole Oceanographic Institution started monitoring polar ice with underwater drones. A similar drone is being used to observe the deep-water habits of great white sharks.
The technology is still in its infancy, as are the laws that regulate its use. Last month, the Federal Aviation Administration issued a ruling on allowing commercial use of drones, under strict guidelines.
The ruling, which needs final approval, allows drones to be flown for recreational purposes. For commercial use, a pilot’s license is required.
The new FAA rules allow the operating of drones under 55 pounds. The drones must be flown below 500 feet, kept 5 miles from an airport, and are not to be flown directly overhead of people. The drone operator must also maintain a constant visual line of sight with the drone.
With the Cosumnes flyovers, no pilot’s license was necessary since the conservancy was flying over its own land.
The river and adjacent fields are a living floodplain laboratory unusual in California, since the Cosumnes is one of the last rivers without a dam.
“The river is pretty dramatic because it’s a seasonal river that goes from completely dry to flooded in winter,” said Judah Grossman, project manager with the Nature Conservancy. “This is unique to the Cosumnes.”
“We’re hoping that allowing the river to overtop more frequently into a larger area will let floodwater percolate down and recharge the aquifer,” Grossman said. “And, hopefully, this will bring groundwater levels up again.”
Groundwater recharge is a big issue for a thirsty state in a multiyear drought. Last month, the U.S. Geological Survey reported that California is depleting its groundwater faster than any other state in the country.
The drones capture time-lapse photos and video that will help show whether the conservancy’s efforts are succeeding.
Read more here: http://www.sacbee.com/news/local/environment/article12964940.html#storylink=cpy
Read more here: http://www.sacbee.com/news/local/environment/article12964940.html#storylink=cpy
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