Archive for the ‘Sensors’ Category
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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Joint Chinese-Brazilian Satellite Program Helps Save Amazonian Forests
December 1st, 2014
Via China Daily, a report on a joint Chinese-Brazilian monitoring program:
Deforestation rates in the Brazilian Amazon dropped 18 percent this year, reaching the second-lowest recorded level since monitoring started in 1988, the Brazilian Ministry of Environment announced in a press briefing on Nov 24.
According to the data, an estimated 4,848 square kilometers of forests were cleared in the 12-month period to June 2014, compared with 5,891 square kilometers in the previous 12-month period.
“In the last five years Brazil registered the five lowest deforestation rates ever recorded for the Amazon,” Brazil’s Minister of Environment Izabella Teixeira said.
The rate is an estimate based on analysis of satellite images from Landsat and the China-Brazil Earth Resources Satellite (CBERS), a series of remote sensing satellites built by Brazil and China, each covering an area up to 6.25 hectares.
The CBERS Program was born from a partnership signed between Brazil and China on July 6, 1988, and renewed in 2004, in the space technical scientific segment. The program involves the Chinese Academy of Space Technology (CAST), and the National Institute for Space Research (INPE), to develop a program to build and operate two advanced remote sensing satellites.
With the financial and technological resources from China and Brazil, an investment exceeding $300 million, a system of shared responsibilities was created (70 percent Chinese and 30 percent Brazilian) with the intent to implement a complete system of remote sensing internationally.
With the program, Brazil has obtained a powerful tool to monitor its huge territory by its own remote sensing satellites, looking forward to consolidate an important autonomy in this segment.
The CBERS’s family of remote sensing satellites brought to Brazil significant scientific advances. This significance is attested by the more than 35,000 users from more than 2,500 organizations registered as active CBERS users, and also by the 800,000 CBERS images, distributed at the approximate rate of 250 every day.
Images generated by CBERS satellites are used in important areas, as deforestation control and environmental monitoring in the Amazon Region, water resources monitoring, urban growth, soil occupation, education and several other applications.
It is also fundamental for large national and strategic projects, for example Brazilian Amazon Forest Satellite Monitoring Project (PRODES), which evaluates and monitors the deforestation of the sugar-cane areas.
This time, the data provided through the PRODES project is carried out by Brazil’s National Space Research Institute (INPE).
The data will be consolidated during the first half of 2015 and submitted by the Brazilian government for external auditing. The new 2014 data represents a reduction of 83 percent in deforestation rates compared to 2004 levels, and indicate a resumption of the trend of falling deforestation in Brazil.
Deforestation rates dropped in most Brazilian states in the Amazon region. Historically marked by high rates of cleared forests, the state of Para showed a 22 percent drop in deforestation, with 1,829 square kilometers of cleared forest recorded in the 12 months to June 2014, compared with 2,346 square kilometers recorded in the previous 12 months. The most significant reduction was registered in the state of Maranhao where the rate of deforestation fell by 39 percent. Increases were registered only in the states of Roraima (37 percent) and Acre (41 percent).
According to Minister Teixeira, the reduction is a result of several factors including the work of enforcement teams and a task force for the environmental regularization of rural properties, in accordance with the new Forestry Code.
The new numbers bring Brazil closer to meeting its voluntary climate change mitigation targets established under the National Policy on Climate Change, aimed at reducing projected greenhouse gas emissions by between 36.1 and 39.6 percent by 2020.
“All the work on Brazil’s climate agenda is being carried out,” said Minister Teixeira.
The 20th Conference of the Parties to the United Nations Framework Convention on Climate Change (COP20) starts next week, in Lima, Peru, where representatives from 190 countries will discuss new reduction targets for greenhouse gas emissions.
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Enviro-Net: ‘Game-Changing’ Sensors Revolutionize Methods Of Monitoring Climate Science Data
November 20th, 2014
Via the Calgary Herald, a report on a state of the art wireless sensor network that can be deployed in remote forests around the world to monitor high resolution photosynthesis and seasonal productivity trends to help track patterns in carbon dynamics near the Earth’s surface:
About 300 cellphone-sized sensors installed in the forest north of Peace River are the front lines of a revolution in climate science set in motion by University of Alberta scientists.
From his office on U of A campus, professor Arturo Sanchez can tell whether the forest soil is getting drier, whether spring is early or late, or whether lightning caused a forest fire — all from data streaming dozens of times a minute from the sensors.
“It’s so cool,” says the upbeat professor in the department of earth and atmospheric science and project leader working with a team of Canadian and international scientists. The data is so detailed it can measure how much carbon dioxide the forest is absorbing or emitting, how much sunlight plants are using in photosynthesis, and predict a drought.
The Alberta-developed technology is “a game changer” for researchers and a new tool in the world’s battle to monitor climate change and reduce greenhouse gas emissions, says Sanchez.
It’s also a great new tool to help Alberta policy-makers understand the environmental impacts of oilsands development or forestry companies and how to mitigate the impacts, he says.
Next week, Sanchez will take the system, called Enviro-Net, to a UN climate change conference in Lima, Peru, so the rest of the world can take advantage of this major scientific advance.
The concept of real-time measuring came to Sanchez but the technology wasn’t there. So the U of A team had to built the specialized sensor which records 64 different climate details.
This one records two measurements every second and sends the data to a tower in the forest which relays it to the university.
“The University of Alberta has the capacity when faced with challenges to develop the technology,” Sanchez adds.
The next problem was how to deal with the massive flow of data streaming in every second all day and all night from the censors; how to find the trends and changes.
“In other words, how to move from data to knowledge,” says Sanchez.
That’s where IBM came in with its software capable of handling large data streams — called advanced analytics.
The software provides real-time analysis for 10,000 points of data per second from sensors now placed in Australia, Costa Rica, Brazil and Mexico as well as Alberta.
“You can quickly see a trend line if soil moisture is rising or falling,” he says.
The team chose the Peace River area for a test site about 2-1/2 years ago. The idea was to get baseline data about the health of forests before oilsands development takes off.
“We are finding out what are the conditions of the environment, the health of the forest, before development starts,” Sanchez says.
Over the years, policy-makers can watch in real time the changes and measure them against the baseline data.
This Enviro-Net tool will enhance Alberta’s ability to provide world-class environmental monitoring and keep track of changes due to climate change as well, Sanchez notes.
This technology will benefit many countries and that’s why the U of A is taking the system to the public, he adds.
In Costa Rica, for instance, the sensors revealed that a forest there, under drought conditions, absorbed 40-per-cent less carbon than the year before.
That’s a key piece of information for the country which is trying to become carbon neutral by 2020, says Sanchez, who began working on the system four years ago.
Scientists used to collect data themselves in the forest, then took months to analyze it and report it.
“Now we can basically ‘see’ the forest breathing in real time,” he says.
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Ten Ways Remote Sensing Can Contribute To Conservation
November 18th, 2014
Via Terra Daily, a report on ways in which remote sensing can contribute to conservation:
Scientists from the WCS (Wildlife Conservation Society), NASA, and other organizations have partnered to focus global attention on the contribution of satellites to biodiversity conservation in a recently released study entitled “Ten Ways Remote Sensing Can Contribute to Conservation,” featured in the latest edition of the scientific journal Conservation Biology.
Addressing global questions requires global datasets that are enabled by satellite remote sensing; this paper highlights the way in which continuous observations of the Earth’s surface and atmosphere can advance our understanding of how and why the Earth is changing and inform actions that can be taken to halt the degradation of planet’s natural systems.
The findings of the paper will inform discussions on improving protected area management that are underway at the IUCN World Parks Congress, an event held every 10 years by the global conservation community.
Established in many cases to conserve wildlife and the ecosystems they inhabit, protected areas still fall short of protecting species and their ecological needs. In many instances, protected areas such as Nouabale-Ndoki National Park in The Republic of Congo do not cover the full range of species such as elephants. Remote sensing can be used to gather information needed for managing landscapes beyond protected area networks.
“Remote sensing data from orbiting satellites have been used to measure, understand, and predict environmental changes since the 1970s, but technology that subsequently became available can now be applied much more widely on a whole range of conservation issues,” said WCS Conservation Support scientist Dr. Robert Rose, the lead author of the study.
“To that end, we sought out the top thought leaders in conservation and the remote sensing community to identify the best conservation applications of these data.”
“Collaborations such as these that strengthen ties between disparate research communities will create new opportunities to advance conservation,” said co-author Dr Allison Leidner of NASA’s Earth Science Division. “For example, it will help remote sensing scientists tailor their research to meet the needs of field-based researchers and conservation practitioners.”
With funding from NASA to lead the study, Rose and his co-authors brought together 32 thought leaders from both the conservation and remote-sensing communities. The participants interviewed more than 100 experts in both fields and generated 360 questions, which were then whittled down to the Top 10 conservation examples on how remote sensing can be used, including:
+ Species distribution and abundances
+ Species movements and life stages
+ Ecosystem processes
+ Climate change
+ Rapid response
+ Protected areas
+ Ecosystem services
+ Conservation effectiveness
+ Agricultural/aquiculture expansion and changes in land use/cover
+ Degradation and disturbance regimes
With this study, the authors hope to jumpstart a new collaborative initiative that provides guidance to space agencies and other partners on how future Earth observation satellite missions can contribute to advancing wildlife protection and protected area management.
Toward that end, the authors initiated the Conservation Remote Sensing Network, which currently has 350 members from around the world, all of whom are interested in applying remote-sensing data to a broad array of conservation challenges.
“A vital part of this new network, which will foster communications and build opportunities between the conservation and remote sensing communities and help develop new remote sensing capabilities, will be to generate interest from both the public and private sector to invest in the use of orbiting Earth observatories to help conserve the planet’s remaining biodiversity,” added Dr. David Wilkie of WCS’s Conservation Support Program.
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Tibetan Plateau Gets Wired Up For Monsoon Prediction
October 1st, 2014
Via Nature, an interesting report on use of technology to monitor the Tibetan Plateau:
The Tibetan plateau, often called the third pole, will be monitored by balloons, drones, and ground sensors.
The gigantic, remote Tibetan plateau is being flooded with sensors in an unprecedented attempt to understand its influence on climate — especially the Asian monsoons, which caused deadly flooding in India and Pakistan in September. The US$49-million Chinese effort could help to predict extreme weather — both in Asia and as far afield as North America — and give scientists a steer on how climate change affects these events.
Sitting at an average height of around 4,000 metres above sea level, the plateau protrudes into the middle of the troposphere, where most weather events originate. As the biggest and highest plateau in the world, it disturbs this part of the atmosphere like no other structure on Earth. But there are little data on the impact that this has on climate.
In central and western Tibet, where weather observations are particularly lacking, researchers jointly funded by the China Meteorological Administration and the National Natural Science Foundation of China began, in August, to place temperature and moisture detectors in the soil and to erect 32-metre-high towers laden with sensors that measure cloud properties. In recent weeks, the team has begun deploying sensors mounted on weather balloons and unmanned aerial vehicles.
Such sensors will eventually monitor a vast swathe of the plateau’s ground and air — across diverse landscapes such as desert, grassland, forest and farmland. “The data should help determine the extent to which different types of land surface heat up the overlying air, and how this might vary in response to factors such as snow cover and vegetation changes,” says Wu Guoxiong, an atmospheric scientist at the Institute of Atmospheric Physics of the Chinese Academy of Sciences (CAS) in Beijing and a principal investigator of the project.
Scientists agree that Tibet plays a key part in the climate system, but many of the details are a mystery. The plateau’s remoteness, altitude and harsh conditions — it is often called the third pole because it hosts the world’s third-largest stock of ice — mean that even basic weather stations are few. Satellite data are also plagued by large errors owing to lack of calibration from ground observations.
“Climate models have the greatest uncertainties in Tibet and the Himalayas, and are especially weak at simulating monsoons,” says Xu Xiangde, an atmospheric scientist at the Chinese Academy of Meteorological Sciences in Beijing and investigator on the project. This dearth of information about the plateau, acknowledged by the Intergovernmental Panel on Climate Change, affects scientists’ ability to predict how the climate is changing, and the consequences for people living in vulnerable regions.
The plateau’s altitude means that it receives more sunlight and so gets hotter than land at sea level. And because land absorbs more solar radiation than air, the plateau acts like a giant heating plate. This heat pumps air upwards, which disperses in the upper troposphere, giving the plateau an outsized influence over atmospheric circulation, and thus climate. The heating effect also intensifies monsoons, which arise as a result of a temperature difference between land and the oceans that sets up a pressure gradient in the atmosphere. In 2008, Wu reported that the surface heating of the plateau had been weakening since the 1980s (A. Duan & G. Wu J. Clim. 21, 3149–3164; 2008), consistent with a weakening in the strength of Asian monsoons. But monsoons seem to be getting stronger again, and occurring in places where they were previously rare, says Klaus Fraedrich, an atmospheric scientist at the University of Hamburg in Germany.
In early September, a deadly flood caused by a monsoon hit border regions between India and Pakistan that are normally dry, killing hundreds and affecting millions more. If the Chinese project can help to explain why monsoons are changing, it “could help instigate early evacuation plans and save many lives”, says Fraedrich.
The project could have yet broader effects. A team led by Hai Lin, an atmospheric scientist at Environment Canada in Quebec, found that the greater the snow cover in Tibet, the warmer the winter in Canada (H. Lin & Z. Wu J. Clim. 24, 2801–2813; 2011). The latest initiative could confirm Lin’s suspicion that increased snow cover causes the plateau to reflect more sunlight, reducing its heating capability and strengthening a pressure system that causes warmer-than-usual winters in North America. Ma Yaoming, an atmospheric scientist at the CAS Institute of Tibetan Plateau Research in Beijing, says that combined with data on glaciers, permafrost, rivers and lakes, the project will contribute to a better picture of Asia’s entire water cycle.
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