Summer Restoration in a Bolivian Winter

                                 El Hospital Pietro Gamba in Anzaldo, Bolivia Credit: Duke

My biggest accomplishment this summer was being able to call the mountains of Bolivia home. Far away from the lecture halls of Duke, I encountered a profound, alternative education that included everything from learning traditional dances to working in a rural hospital laboratory to raising pigs.

Of course, living in Bolivia for two months had its challenges, like a diet in which potatoes were considered vegetables, repeated food poisoning from chicha, the local alcoholic drink consisting of fermented corn, lack of a consistent water source, many near-car accidents, and most of all a deep-seated machismo, but I feel that these were all almost inextricable aspects of a culture that left such a positive impression upon me.

Of course, the inextricability of such factors posed a problem for me as an intern at El Hospital Pietro Gamba encouraging sustainable development to promote public health. Although 80% of children had head lice, a vast majority contracted repeated gastrointestinal bacterial infections, and countless had scabies, the community seemed to get along contentedly. Regardless, with support from the Foundation for Sustainable Development and DukeEngage, my sponsor organizations, I leveraged the relatively new running water system, implemented only 25 years ago, to set in motion a comprehensive lice campaign, to obtain government funding of soap in public restrooms for at least two years, and to create preventative medicine informational materials.

The majority of my education, though, occurred outside the scope of my project. Most importantly, I’ve learned to openly embrace different forms of learning, like relaxation or soccer, that energize me to wholeheartedly pursue my rigorous biophysics career, which I am so fortunate to have at one of the best universities in the world.

The idea of the Aymara New Year illustrates my mentality poignantly: on the first day of the Aymara New Year, traditional Bolivians wish for health, prosperity, and happiness, just as we do in the United States. However, they have a deeper connection with Pachamama, or Mother Nature: on New Year’s Day, they wake up early in the morning to stand on the ground barefoot, awaiting the first rays of the sun. They believe that watching these rays rise above the horizon and light the earth will bring them energy for the entire year. In this, the Aymara New Year represents both personal aspiration and attenuation with the environment.

Similarly, I now aim to maintain a balance between self and surroundings: I hope to be more attuned to the world around me rather than single-mindedly submersing myself in quantum physics, as I believe that varied experiences will infuse me with energy in whatever I pursue. Now, back at Duke for the start of my junior year, I’m excited to begin blogging again and to continue my adventures and education here on campus.

Source: Duke University

NASA Goddard instrument makes first detection of organic matter on Mars

MSL Curiosity rover at "John Klein" drill site. This self-portrait of NASA's Mars rover Curiosity combines dozens of exposures taken by the rover's Mars Hand Lens Imager on Feb. 3, 2013 plus three exposures taken May 10, 2013 to show two holes (in lower left quadrant) where Curiosity used its drill on the rock target "John Klein". Credit: NASA/JPL-Caltech/MSSS

The team responsible for the Sample Analysis at Mars (SAM) instrument suite on NASA's Curiosity rover has made the first definitive detection of organic molecules at Mars. Organic molecules are the building blocks of all known forms of terrestrial life, and consist of a wide variety of molecules made primarily of carbon, hydrogen, and oxygen atoms. However, organic molecules can also be made by chemical reactions that don't involve life, and there is not enough evidence to tell if the matter found by the team came from ancient Martian life or from a non-biological process. Examples of non-biological sources include chemical reactions in water at ancient Martian hot springs or delivery of organic material to Mars by interplanetary dust or fragments of asteroids and comets.

The surface of Mars is currently inhospitable to life as we know it, but there is evidence that the Red Planet once had a climate that could have supported life billions of years ago. For example, features resembling dry riverbeds and minerals that only form in the presence of liquid water have been discovered on the Martian surface. The Curiosity rover with its suite of instruments including SAM was sent to Mars in 2011 to discover more about the ancient habitable Martian environment by examining clues in the chemistry of rocks and the atmosphere.

The organic molecules found by the team were in a drilled sample of the Sheepbed mudstone in Gale crater, the landing site for the Curiosity rover. Scientists think the crater was once the site of a lake billions of years ago, and rocks like mudstone formed from sediment in the lake. Moreover, this mudstone was found to contain 20 percent smectite clays. On Earth, such clays are known to provide high surface area and optimal interlayer sites for the concentration and preservation of organic compounds when rapidly deposited under reducing chemical conditions.

While the team can't conclude that there was life at Gale crater, the discovery shows that the ancient environment offered a supply of reduced organic molecules for use as building blocks for life and an energy source for life. Curiosity's earlier analysis of this same mudstone revealed that the environment offered water and chemical elements essential for life and a different chemical energy source.

"We think life began on Earth around 3.8 billion years ago, and our result shows that places on Mars had the same conditions at that time -- liquid water, a warm environment, and organic matter," said Caroline Freissinet of NASA's Goddard Space Flight Center in Greenbelt, Maryland. "So if life emerged on Earth in these conditions, why not on Mars as well?" Freissinet is lead author of a paper on this research submitted to the Journal of Geophysical Research-Planets.

The organic molecules found by the team also have chlorine atoms, and include chlorobenzene and several dichloroalkanes, such as dichloroethane, dichloropropane and dichlorobutane. Chlorobenzene is the most abundant with concentrations between 150 and 300 parts-per-billion. Chlorobenzene is not a naturally occurring compound on Earth. It is used in the manufacturing process for pesticides (insecticide DDT), herbicides, adhesives, paints and rubber. Dichloropropane is used as an industrial solvent to make paint strippers, varnishes and furniture finish removers, and is classified as a carcinogen.

It's possible that these chlorine-containing organic molecules were present as such in the mudstone. However, according to the team, it's more likely that a different suite of precursor organic molecules was in the mudstone, and that the chlorinated organics formed from reactions inside the SAM instrument as the sample was heated for analysis. Perchlorates (a chlorine atom bound to four oxygen atoms) are abundant on the surface of Mars. It's possible that as the sample was heated, chlorine from perchlorate combined with fragments from precursor organic molecules in the mudstone to produce the chlorinated organic molecules detected by SAM.

In 1976, the Gas Chromatograph Mass Spectrometer instrument on NASA's Viking landers detected two simple chlorinated hydrocarbons after heating Martian soils for analysis (chloromethane and dichloromethane). However they were not able to rule out that the compounds were derived from the instrument itself, according to the team. While sources within the SAM instrument also produce chlorinated hydrocarbons, they don't make more than 22 parts-per-billion of chlorobenzene, far below the amounts detected in the mudstone sample, giving the team confidence that organic molecules really are present on Mars.

The SAM instrument suite was built at NASA Goddard with significant elements provided by industry, university, and national and international NASA partners.

For this analysis, the Curiosity rover sample acquisition system drilled into a mudstone and filtered fine particles of it through a sieve, then delivered a portion of the sample to the SAM laboratory. SAM detected the compounds using its Evolved Gas Analysis (EGA) mode by heating the sample up to about 875 degrees Celsius (around 1,600 degrees Fahrenheit) and then monitoring the volatiles released from the sample using a quadrupole mass spectrometer, which identifies molecules by their mass using electric fields. SAM also detected and identified the compounds using its Gas Chromatograph Mass Spectrometer (GCMS) mode. In this mode, volatiles are separated by the amount of time they take to travel through a narrow tube (gas chromatography -- certain molecules interact with the sides of the tube more readily and thus travel more slowly) and then identified by their signature mass fragments in the mass spectrometer.

The first evidence for elevated levels of chlorobenzene and dichloroalkanes released from the mudstone was obtained on Curiosity Sol 290 (May 30, 2013) with the third analysis of the Cumberland sample at Sheepbed. The team spent over a year carefully analyzing the result, including conducting laboratory experiments with instruments and methods similar to SAM, to be sure that SAM could not be producing the amount of organic material detected.

"The search for organics on Mars has been extremely challenging for the team," said Daniel Glavin of NASA Goddard, a co-author on the paper. "First, we need to identify environments in Gale crater that would have enabled the concentration of organics in sediments. Then they need to survive the conversion of sediment to rock, where pore fluids and dissolved substances may oxidize and destroy organics. Organics can then be destroyed during exposure of rocks at the surface of Mars to intense ionizing radiation and oxidants. Finally, to identify any organic compounds that have survived, we have to deal with oxychlorine compounds and possibly other strong oxidants in the sample which will react with and combust organic compounds to carbon dioxide and chlorinated hydrocarbons when the samples are heated by SAM."

As part of Curiosity's plan for exploration, an important strategic goal was to sample rocks that represent different combinations of the variables thought to control organic preservation. "The SAM and Mars Science Laboratory teams have worked very hard to achieve this result," said John Grotzinger of Caltech, Mars Science Laboratory's Project Scientist. "Only by drilling additional rock samples in different locations, and representing different geologic histories were we able to tease out this result. At the time we first saw evidence of these organic molecules in the Cumberland sample it was uncertain if they were derived from Mars, however, additional drilling has not produced the same compounds as might be predicted for contamination, indicating that the carbon in the detected organic molecules is very likely of Martian origin."

Source: nasa

Female frogs modify offspring development depending on reproduction date

Breeding male of Rana arvalis from the study area. Credit: Germán Orizaola

Global warming is altering the reproduction of plants and animals, notably accelerating the date when reproduction and other life processes occur. A study by the University of Uppsala (Sweden), including the participation of Spanish researcher Germán Orizaola, has discovered that some amphibians are capable of making their offspring grow at a faster rate if they have been born later due to the climate.

Over recent decades many organisms, both plants and animals, have experienced a notable advance in the date when many of their life processes (like reproduction, migration or flowering) occur, attributed to the impact of climate change. An article published in the journal Ecology examines the effects that these changes in the reproduction date have on the life cycles of the amphibians.

"We specifically examined whether changes in the reproduction date of a common amphibian species in the north of Europe, Rana arvalis, can condition the growth and development of their offspring," the Spanish researcher Germán Orizaola, from the University of Uppsala (Sweden) and co-author of the study, said.

Results revealed that female frogs have the ability to influence both the growth rate and the development of their offspring, and they adjust it depending on the date of reproduction.

According to Orizaola, "the mechanism by which the female frogs can condition the growth of their larvae could be due to the genes associated with the maintenance of their biological clock being transferred to the embryos and becoming active even before fertilisation. This would provide the larvae with the exact information regarding the progression of the growing season."

The later the birth, the faster the growth

One of the characteristics associated with climate change is an increase in the interannual variability of climatic conditions, so organisms are also exposed to greater uncertainty when it comes to determining the right time to reproduce. This explains why the existence of mechanisms adjusting growth and development rates depending on the variation in the start of breeding is highly advantageous for many species.

In particular, as part of this study they observed that by delaying the date of reproduction (which simulated a time of environmental instability), the result was an equivalent reduction in the growth period for the larvae. "That means the later this species of frog breeds, the faster the larvae develop," explains the scientist.

An interesting aspect of the study is that the acceleration in growth is produced under constant lab conditions. "The larvae were not exposed to any outside sign that would indicate the progression of the growing season," adds Orizaola.

"This result is very novel and demonstrates that the acceleration in the development of the larvae is conditioned by the breeding females, which reveals the existence of a 'transgenerational effect' in which the breeding adults are capable of altering key aspects of the life cycle for the following generations, to better prepare them to survive the environmental conditions that they are going to experience," concludes the expert.

Source: Plataforma SINC.

Earthworms, ants, termites: The real engineers of the ecosystem

The contribution of home gardens in the preservation of biodiversity, economics and human health prompted a multidisciplinary group at the South Border College (Ecosur) in Mexico to work on a project in Tabasco, a south state of the country, with the aim to improve the production and environmental management of these plantations. Credit: Image courtesy of Investigación y Desarrollo

The contribution of home gardens in the preservation of biodiversity, economics and human health prompted a multidisciplinary group at the South Border College (Ecosur) in Mexico to work on a project in Tabasco, a south state of the country, with the aim to improve the production and environmental management of these plantations.

Although the research was conducted from different perspectives, head of research Esperanza Huerta Lwanga focused on the study of soil invertebrates because they are indicators of its quality.

"These organisms fulfill various functions,like allowing the soil to absorb processed organic matter such as leaves, wood, trunks and branches and with this nourishing crops; they also maintain an ecological balance capable of preventing the invasion of pests and provide greater fertility without using chemicals. This happens when growing different types of plants, allowing the existence of a wide variety of soil invertebrates" the researcher explains.

The project, which began in 2009 and was funded by the Ministry of Energy, Natural Resources and Environmental Protection (SERNAPAM), arises because home gardens are places where there is a wealth of soil. In total, the research team worked in 50 home gardens located in different physiographic regions of the state: mountains, coast, floodplain and hillocks.

"During the fieldwork I realized that the orchards whose owners had family harmony, were characterized by a rich vegetation and greater diversity of soil invertebrates was found. However, in other orchards we observed garbage instead vegetation and organisms, revealing a gap between people and nature, " relates Huerta Lwanga.

An important finding of this project was when the researcher found a anecic earthworm, initially thought to be a new species, however, it was only a new entry in the state of Tabasco. "Such organism is characterized by its vertical movements, thereby creating tunnels, helping to integrate the organic matter in the soil, aerating it and forming its structure," the researcher says.

Other species were also identified, like earthworms, ants, termites, centipedes, beetles, grasshoppers, cockroaches and woodlice, which may also be called "ecosystem engineers" (specifically earthworms, termites and some ants) because their activities modify the soil, enriching its productivity.

According to the researcher, it is important to note that the presence of such organisms does not mean that the garden is infested with pests. "If you let me live there, they fulfill their tasks and at the same time control their population because the variety of invertebrates generates food chains."

The pest problem, she says, appears when the land is handled as a monoculture. In these cases only one type of organisms thrives and rapidly increases in number and , because nobody eats them, they become a threat to the plantations.

The research results revealed that the coastal region was the one with more garbage, followed by the hillocks. "In the mountains we found healthy vegetation and a great variety of crops, high diversity of invertebrates and greater earthworm biomass, which was estimated at more than 33 grams per square meter," highlights Huerta Lwanga.

That amount is important because according to previous studies it was established that if biomass is equal or greater than 30 grams per square meter germination induction and plant growth are achieved.

Additionally, this project included environmental education, which was given by mini-workshops and training in the production of vermi-compost.

"At Ecosur, we designed a box for composting, which is equiped with a small mill and worms, where we place the fresh waste to be processed. A device like this was given to all farmers, but was only accepted by 47 percent of them," she sadly concludes.

Source: Investigación y Desarrollo

Deforestation threatens species richness in streams

In the catchment area of the river Yangtzekiang in Southern China deforestation takes place in order to gain arable land and build tea plantations. Credit: © M. Kuemmerlen

With a population of 1.3 billion, China is under immense pressure to convert suitable areas into arable land in order to ensure a continued food supply for its people. Accordingly, China is among the top countries in the world in terms of the extent and intensity of land use change. As shown in a new study by a team of scientists led by Dr. Britta Schmalz (Kiel University), in cooperation with Dr. Mathias Kuemmerlen, LOEWE Biodiversity and Climate Research Centre (BiK-F) and Dr. Sonja Jähnig, Leibniz-Institute for Freshwater Ecology and Inland Fisheries (IGB), deforestation may change the water surface runoff conditions, leading to a negative impact on the occurrence of microorganisms in rivers and streams.

Studies in a sub-basin of China's longest river

As part of this study, funded by the German Research Association (DFG), the team examined an area of about 1,700 square kilometers located in the Yangtzekiang River watershed, namely a tributary of the Poyang lake in Southern China. By using an ecohydrological model, it was possible to show how different land use types and intensity levels can influence the hydrological regime. The five scenarios that were studied encompassed three different deforestation and two afforestation scenarios. A medium deforestation rate, in which 53 percent of the forest is preserved (of the original 70 percent) and the remainder is used as agricultural land and for tea plantations, most closely approximates the ongoing expansion rate of agricultural areas in this Chinese region. This scenario was used to model the potential impact of these changes on the distribution of 72 species of invertebrates, known as stream macroinvertebrates.

Considerable range decreases for freshwater biota

Species rich stream reaches could become less frequent as a consequence of deforestation. Especially in areas where land use changes are expected to be most severe, is where insect larvae, snails, worms and leeches might become endangered. "As an example, we highlighted the distribution range of the stonefly Topoperla sp., based on a moderate rate of deforestation. As a result of the projected changes, its distribution range would decrease to a mere 15 percent of its current range," explains Mathias Kuemmerlen, BiK-F. Topoperla sp., as many other invertebrate microorganisms, is regarded as a water quality indicator. This leads to the conclusion that deforestation has a negative impact on the overall water quality.

Conversion to arable land changes the hydrological regime

In the present study, the cause for the decrease in species diversity is the changing hydrological regime resulting from the conversion of forest to arable land. According to the study, increasing deforestation causes, increased surface runoff, especially during the rainy season, which later flows on into streams and rivers. "In forested areas, surface water drains more slowly and in lower quantities; a significant percentage of the rain water is absorbed by the soil and by trees. Higher runoff rates may only be seen in floodplain forests, if at all. If forests are cut down and converted into fields, the surface runoff increases." says Kuemmerlen. If areas are afforested, the opposite trend occurs, allowing soils to store larger amounts of water again.

Land use change should be sustainable

The research team points out that the study's results offer a scientific basis for a sustainable landscape planning and management which takes into account the water cycle of the respective regions. The ultimate goal should be to use the limited resource "land" in a way that it ensures food security. . However, there must be room for the necessary adaptation measures in the face of global climate change. To certain degree this is supported by the preservation of forests in their role as runoff regulators and water reservoirs. Further modeling studies are being carried out elsewhere, also in Germany, in order to continue improving our knowledge on similar processes.

Source: Senckenberg Research Institute and Natural History Museum

Home on the range: Cattle ranching in the Amazon

Rubber tapper children ride their steer home from school in the Brazilian state of Acre.
Credit: Image courtesy of University of California - Santa Barbara

In a paper published in the current issue of the journal Human Organization, UC Santa Barbara anthropologist Jeffrey Hoelle takes a look at the rise of cattle ranching in the Brazilian state of Acre and the processes that brought it to one of the greenest corners of western Amazonia.

According to Hoelle, an assistant professor of anthropology, the Amazonian research on cattle usually falls into one of two camps: documentation of the environmental consequences of cattle raising -- the leading driver of Amazonian deforestation -- or analysis of the ways that policies and markets interact to make cattle and pasture more profitable than the standing forest. His article aims to expand the study of Amazonian cattle raising to include "cattle culture," the positive cultural constructions associated with a cattle-raising lifestyle that contribute to its appeal over other ways of using the land.

In Acre, Hoelle writes, "the rubber tapper movement protested the arrival of cattle ranching in the 1980s, capturing worldwide attention with a message of sustainable forest-based development. Across Amazonia, groups who once opposed or were displaced by cattle are now adopting it, including Acrean rubber tappers and colonists."

Using primary data he collected among rural and urban groups in Acre, Hoelle demonstrates, through a discussion of two processes that result in very different types of cultural expression, how cattle culture emerged in this unlikely place.

On the one hand, he notes, the subsistence uses of cattle led to cultural beliefs that were based on interdependence and resembled cattle complexes from other parts of the world. Yet local economic relationships with cattle could not explain the explosion of a "cauboi" (cowboy) model in which human control of cattle and nature was celebrated by men and women with shiny belt buckles, tight jeans, boots and a love of rodeos and "sertananeja" or "contri" (country) music.

Rubber tapper Jatobá Rocha was hesitant about cattle when Hoelle first met him in 2007. A year later, however, he bought a young bull named Tchoa, who quickly became a member of the family, pulling his own weight -- literally, with an oxcart -- and serving as a means of transportation for the Rochas.

Hoelle explained that people raise cattle all over the world in different ways, from subsistence pastoralism in East Africa to large-scale capitalist ranching in the Americas, with smallholders who fall somewhere in between these economic and ecological systems. In traditional nomadic pastoralism, humans regarded their cattle as individuals -- as the Rochas do Tchoa -- and develop an emotional connection with them. With large-scale ranching, cattle are a nameless commodity.

"For the cowboys and ranchers, the objective is to raise cattle as if they were a crop to be harvested at the right time," Hoelle said. "You don't want to hurt the herd to the extent that you'll jeopardize your investment, but you do need to dominate it." This economic relationship is recreated symbolically in rituals such as rodeos, he noted.
"If, however, you're relying on a cow for its milk, or if you're going to ride it to the store, you have to establish a relationship with the animal," he continued. Deep cultural connections form from that relationship, such as India's "sacred cow" or the cattle complex in East Africa. Hoelle argued the same thing happens deep in the heart of capitalist ranching in the Amazon.

He emphasized that it isn't necessarily ranching/pastoralism or capitalism/subsistence that explains the type of cattle culture that emerges, but rather the type of relationship that humans have with animals to secure products or services from them. "This really became apparent when I stopped looking at the ways that cowboys roughed up the cattle and focused instead on the affection they showed their horses," Hoelle continued. "They'd name their horses, hug them around the neck and nudge them playfully, and probably punch you if you asked about eating their beloved equine."

For the cowboys, horses were essential economic tools for securing the production of cattle; whereas for smallholders, the cattle served a similar function in terms of daily reliance. In both cases, cultural beliefs develop to protect vital resources.

Since the arrival of cattle in Acre, Hoelle said, these animals have been surrounded by violence, deforestation and displacement. "It is surprising that cattle raising and cattle culture have expanded across Amazonia, and especially in Acre," he commented. "It is also troubling for those of us concerned with sustainable alternatives to cattle raising. My point is that you have to put that aside for the moment and attempt to understand why it makes sense for those adopting it."

Understanding the appeal of the cowboy in the Amazon rainforest is critical to understanding the appeal of cattle raising, he noted. "The cowboy persona is something people strive for. It's very strong there, and really important in terms of the way people interact with nature," Hoelle said. "Being the strong manly type who can face the forest and transform it into this nice uniform pasture full of big domesticated animals is very powerful in the way it communicates ideals of masculinity, modernity and development."

From a distance of thousands of miles, it's easy for us here in the U.S. to decry the Acreans' decimation of the rainforest to expand cattle-grazing land. Our instinct is to preserve the rainforest because of its vital contribution to the world. "But those who are living it see themselves in the same way pioneers and settlers have throughout history. There is a drive to tame the frontier -- to control or cultivate nature," Hoelle explained. While this tendency has declined in the U.S., it remains front and center for those attempting to make a living in a place where people really do feel that they are under constant assault from the forest, he noted. In this context, the cowboy is an appealing figure, while here it might be more common to romanticize the Indians.

Hoelle, the author of the forthcoming book, "Rainforest Cowboys: The Rise of Ranching and Cattle Culture in Western Amazonia," emphasized that crafting appropriate policy solutions requires an understanding of the interlinked political, economic and cultural features of Amazonian cattle raising.

Source: University of California - Santa Barbara

New laws threaten Brazil's unique ecosystems

Brazil's globally significant ecosystems could be exposed to mining and dams if proposals currently being debated by the Brazilian Congress go ahead, according to researchers publishing in the journal Science this week. Credit: Alexander C. Lees

Brazil´s globally significant ecosystems could be exposed to mining and dams if proposals currently being debated by the Brazilian Congress go ahead, according to researchers publishing in the journal Science this week.

The new report by a group of Brazilian and British researchers comes in the wake of Brazil´s recent presidential elections. It warns that new legislation could pose a serious threat to protected areas, weakening Brazil's international status as an environmental leader.

One of the proposals of particular concern is the call to open up 10% of the most strictly protected areas to mining. In a new analysis, the research shows that at least 20% of all Brazil´s most strictly protected areas and reserves for indigenous people overlap with areas that have been registered as under consideration for mining. In addition, many of the river systems associated with protected areas will be influenced by the construction of large hydroelectric dams.

The threat that this mining and hydropower poses to Brazil's ecosystems is not trivial. Areas of registered interest for mining include 34,117 km2 that are currently classified as strictly protected areas -- including National Parks, Biological Reserves and Wildlife Refuges. This is equivalent to an area the size of Switzerland. The situation is worse for indigenous lands, 28% of which, or 281,443 km2, overlap with areas of registered mining interest -- an area larger than the whole of the UK or the state of São Paulo.

In recent years Brazil has enjoyed increasing recognition as a world leader in combatting environmental destruction. Brazil´s protected area network is the largest in the world, while improved environmental governance in private lands has contributed to an 80% reduction in the rate of deforestation in the Brazilian Amazon over the last decade. Yet these new proposals could threaten these recent successes and undermine Brazil's reputation.

Dr Joice Ferreira, a scientist at Brazil´s agricultural research institute, Embrapa, and lead author of the study, said: "The purpose of this analysis is not to say that Brazil´s development should not benefit from its abundant natural resources, but that we should not squander our hard-won record of success and leadership in favor of fast-tracked and poorly planned development projects that leave a long legacy of environmental damage. It is possible to manage our development in a more sustainable way."

Co-author Dr Jos Barlow, a researcher at Lancaster University and a visiting professor in Brazil, said: "Rather than exploiting protected areas for short-term gains, Brazil should treasure them for the long-term benefits they can provide to society. The recent water shortages in the south east of Brazil emphasize the importance of protecting native vegetation across the country."

The authors of the study also warn that the proposals for minimizing and mitigating the environmental damage of large-scale development projects are so inadequate that even if only a fraction of these mining concessions were approved then the impacts could be enormous, especially in Brazil´s most threatened ecosystems.

Dr. Luiz Aragão a co-author of the study from Brazil´s federal space agency, INPE and the University of Exeter said: "Our concern is that even if the proposed mitigation actions were put in place they are oversimplified because they fail to take account of the indirect effects of mega-projects.
"These projects can involve thousands of workers and lead to rapid local population growth. This, combined with new roads and access routes, is a recipe for the emergence of new deforestation frontiers." explains Luiz.

The study highlights the fact that these worrying changes reflect an important shift in the support shown by Brazil´s federal government to environmental protection. These concerns come on the back of other recent changes, including the partial dismantling of Brazil´s protected area system to make way for development -- with some 44,100 km2 lost since 2008 due to downsizing or abolishment -- and the weakening of the Forest Code that gave an amnesty to landowners who deforested illegally in the past.

"Beyond the conservation and stewardship of its own biodiversity and environmental resources, so vital to the wellbeing of its citizens, Brazil plays a vital role in motivating and supporting the adoption of more sustainable development trajectories around the world," said Toby Gardner, of Stockholm Environment Institute, one of the authors of the study who has worked in the country for more than a decade. "Yet this standing is now in jeopardy."

Dr Joice Ferreira said: "The newly elected government has the chance to set the record straight and point Brazil firmly on a path of sustainable development. The authors of this report call on President Dilma and her government to ensure that individual development initiatives are subject to a comprehensive, socially inclusive, evidence-based and long-term cost-benefit analysis that compares potential environmental and social impacts against alternative development options. And also to ensure that Brazil´s renowned protected area network is given the resources it needs to manage our ecosystems sustainably.

"Above all we ask the Government to guarantee that important decisions regarding the management of Brazil´s natural resources involve the full and democratic participation of Brazilian society."

Source: Lancaster University

Carbon dioxide converted into a valuable resource

Arshe Said, postgraduate researcher at Aalto University, operating a pilot plant that converts CO2 and slag into Precipitated Calcium Carbonate (PCC). Credit: Image courtesy of Aalto University

Researchers at Aalto University have opened a pilot plant that converts CO2 and slag, the by-product of steel manufacturing, into a valuable mineral product. The product, Precipitated Calcium Carbonate (PCC), is used in e.g. plastics, papers, rubbers and paints. The innovative plant represents the next stage prior commercialization of a new process that consumes CO2 in order to convert a low-value by-product into a highly valuable resource for industry.

The potential economic and environmental benefits of this new technology are significant. "We are turning the industrial solid by-product from steel-manufacturing into a product which is 50 times more valuable," says Arshe Said, a postgraduate researcher at Aalto University. "Also, this process actually consumes CO2 and acts as a CO2 sink which benefits the environment greatly."

Current methods of PCC production require burning large amounts of limestone. "The conventional method involves large mining activities and has high CO2 emissions," points out Sanni Eloneva, D.Sc. (Tech).

Carbon intensive manufacturing industries are coming under increasing pressure from bodies such as the EU to reduce greenhouse gas emissions. "We believe this pilot plant will help to efforts by these industries to conform with government imposed emissions and waste targets," explains Professor Mika Järvinen.

In 2010, 13% of the total steel slag produced in Europe (16 Mt) went to the landfill. "In theory, if all the calcium in this steel slag could be recovered, approximately 13 Mt PCC/year could be produced, simultaneously sequestering nearly 6 Mt CO2/year," Järvinen continues.

The highly promising new technology also has other potential advantages. "We are currently investigating the possibility of extracting other valuable materials from the slag after the extraction of calcium," says Said.

The pilot PCC plant is now running in Otaniemi campus of Aalto University. The method used in the pilot is based on the patent owned by Aalto University Foundation together with Åbo Akademi and Rautaruukki Oyj (now part of SSAB).

Source:  Aalto University

Deep sea fish remove one million tons of carbon dioxide every year from UK and Irish waters

This is a deep sea lizard fish (Bathysaurus ferox) from 2000m depth on the continental slope off the west coast of Scotland.
Credit: Dr. Clive Trueman

Deep sea fishes remove and store more than one million tonnes of CO2 from UK and Irish surface waters every year, according to a new study led by the University of Southampton.

This natural carbon capture and storage scheme could store carbon equivalent to £10 million per year in carbon credits.

Fish living in deep waters on the continental slope around the UK play an important role carrying carbon from the surface to the seafloor.

It is assumed that deep water fishes all depend on particles that fall from the surface for their energy. These bottom-living deep water fishes never come to the surface and the carbon in their bodies stays at the seafloor. However, at mid-slope depths there is an abundant and diverse ecosystem where a huge volume of animals make daily vertical migrations to feed at the surface during the night. The animals conducting this migration then transport nutrients from the surface back to the deep.

Researchers from the University of Southampton and Marine Institute, Ireland used novel biochemical tracers to piece together the diets of deep-water fish revealing their role in transferring carbon to the ocean depths.

They found that more than half of all the fishes living on the seafloor get their energy from animals that otherwise go back to the surface, and not from settling particles. These bottom-living fishes therefore become a carbon capture and storage facility. Global peaks in abundance and biomass of animals at mid slope depths occur because this is the depth range where the vertically migrating animals are most easily captured by fishes that live at or near the seafloor.

Lead author, Dr Clive Trueman from the University of Southampton, says: "As fishing, energy extraction and mining extend into deeper waters, these unfamiliar and seldom seen fishes in fact provide a valuable service to all of us. Recognising and valuing these ecosystem services is important when we make decisions about how to exploit deep water habitats for food, energy or mineral resources."

As it is difficult to study animals living under a kilometre or more of water, the researchers measured forms, or isotopes, of carbon and nitrogen, in the muscles of fish caught in deep-water research surveys on the continental slope west of Ireland, at water depths ranging from 500 to 1800m. These were collected on the RV Celtic Explorer, a multi-disciplinary research vessel operated by the Irish Marine Institute.

Small differences in the mass of these isotopes mean that they are processed at slightly different speeds in the body, leading to patterns which can show who eats who in the slope ecosystem. By measuring the isotopes in all of the most common species, the researchers were able to estimate how much carbon is captured and stored by these deep water fish.

The study, which is published in the journal Proceedings of the Royal Society B, was funded by the University of Southampton and the Marine Institute.

Source: University of Southampton.

New technology successfully removes heavy metals from water

Polluted water.
Credit: Image courtesy of Investigación y Desarrollo

The methods traditionally used to remove heavy metals from wastewater have limitations because they only withdraw a certain percentage and the remaining amount is very difficult to remove. This motivated a young graduate researcher at the National Polytechnic Institute (IPN) in Mexico, Gabriel Ramirez Monter, to create a technology capable of removing such contaminants at low cost and with an efficiency that surpasses existing technologies.

According to Monter Ramirez, this project led him to design some structures called dendrimers, which are highly branched molecules with shape similar to a shrub or a tree with multiple branches.
"Dendrimers adhere and spread on a microfiltration membrane; ie, thin sheets of porous material that are not normally capable of retaining heavy metals due to its pore size. Once placed, it achieves total removal of heavy metal ions in the same way a marine anemone would act, using tentacles to concentrate and catch food; in this case, the branches of the dendrimers capture pollutants, "says the researcher.

He explains that through dendrimers the team converted a microfiltration membrane into a nanofiltration one. "Another advantage of these structures is that they can be washed and reused, plus the captured metals are removed without problem."

Highlighting his business plan, which he called "Nanoestructurados Bromelia", it integrates his master's work, led by Dr. Irina Victorovna Lijanova attached to the Centre for Research and Technological Innovation (CIITEC) of the IPN, which has optimized technologies for removal of heavy metals.

Currently, the entrepreneurial project is linked to the company "Nanotecnología México" that specializes in nanomaterials with applications for the environment and is a leading provider of Mexican Oil (Pemex) in the refining area for sewage cleanup. "The firm was interested in the development of this technology and its commercialization," said Monter Ramirez.

"In Mexico, the problem of heavy metals is associated with industrial progress and important economic activities such as mining or even the oil industry, in both refining and petrochemicals; those are the markets we want to focus on," he stresses.

Source: Investigación y Desarrollo.

The San Andreas Fault system in San Francisco Bay Area are locked, overdue

San Andreas Fault. Credit: © davetroesh123 / Fotolia

Four urban sections of the San Andreas Fault system in Northern California have stored enough energy to produce major earthquakes, according to a new study that measures fault creep. Three fault sections -- Hayward, Rodgers Creek and Green Valley -- are nearing or past their average recurrence interval, according to the study published in the Bulletin of the Seismological Society of America (BSSA).

The earthquake cycle reflects the accumulation of strain on a fault, its release as slip, and its re-accumulation and re-release. Fault creep is the slip and slow release of strain in the uppermost part of the Earth's crust that occurs on some faults between large earthquakes, when much greater stress is released in only seconds. Where no fault creep occurs, a fault is considered locked and stress will build until it is released by an earthquake.

This study estimates how much creep occurs on each section of the San Andreas Fault system in Northern California. Enough creep on a fault can diminish the potential size of its next earthquake rupture.

"The extent of fault creep, and therefore locking, controls the size and timing of large earthquakes on the Northern San Andreas Fault system," said James Lienkaemper, a co-author of the study and research geophysicist at U.S. Geological Survey (USGS). "The extent of creep on some fault sections is not yet well determined, making our first priority to study the urban sections of the San Andreas, which is directly beneath millions of Bay Area residents."

Understanding the amount and extent of fault creep directly impacts seismic hazard assessments for the region. The San Andreas Fault system in Northern California consists of five major branches that combine for a total length of approximately 1250 miles. Sixty percent of the fault system releases energy through fault creep, ranging from 0.1 to 25.1 mm (.004 to 1 inch) per year, and about 28 percent remains locked at depth, according to the authors.

Monitoring of creep on Bay Area faults has expanded in recent years. The alignment array measurements made by the San Francisco State University Creep Project and recently expanded GPS station networks provide the primary data on surface creep, which the authors used to estimate the average depth of creep for each fault segment. Where available, details of past ruptures of individual faults, unearthed in previous paleoseismic studies, allowed the authors to calculate recurrence rates and the probable timing and size of future earthquakes.

According to the study, four faults have accumulated sufficient strain to produce a major earthquake. Three creeping faults have large locked areas (less than 1 mm or .04 inches of creep per year) that have not ruptured in a major earthquake of at least magnitude 6.7 since the reporting of earthquakes by local inhabitants: Rodgers Creek, northern Calaveras and southern Green Valley. The southern Hayward fault, which produced a magnitude 6.8 earthquake in 1868, is now approaching its mean recurrence time based on paleoseismic studies.

The authors also estimate three faults appear to be nearing or have exceeded their mean recurrence time and have accumulated sufficient strain to produce large earthquakes: the Hayward (M 6.8), Rodgers Creek (M 7.1) and Green Valley (M 7.1).

"The San Andreas Fault and its two other large branches, the Hayward and Northern Calaveras, have been quiet for decades. This study offers a good reminder to prepare today for the next major earthquake," said Lienkaemper.

Source: Seismological Society of America

The Three years since Japan's disaster: Communities remain scattered and suffering

While western eyes are focused on the ongoing problems of the Fukushima Daiichi nuclear reactor site, thousands of people are still evacuated from their homes in north-eastern Japan following the earthquake, tsunami and nuclear emergency. Many are in temporary accommodation and frustrated by a lack of central government foresight and responsiveness to their concerns.

With the exception of the ongoing problems at the Fukushima Daiichi nuclear reactor, outside of the Tohoku region of Japan, the after effects of the Great East Japan Earthquake of 2011, and the subsequent tsunami and nuclear disaster, are no longer front page news. The hard work of recovery is the everyday reality in the region, and for planning schools and consultants across the country the rebuilding of Tohoku dominates practice and study.

But while physical reconstruction takes place, progress is not smooth. Many victims of the disasters and members of the wider public feel that the government is more interested in feeding the construction industry than addressing the complex challenges of rebuilding sustainable communities. This is a region that was already suffering from the challenges of an aging population, the exodus of young people to Tokyo and the decline of traditional fisheries-based industries. In the worst cases people are facing the invidious choice of returning to areas that are still saturated with radioactive fallout or never going home.

The frustration is reflected in four short pieces in Planning Theory and Practice's Interface Section from architecture, design and planning practitioners working with communities in four different parts of Tohoku.

Christian Dimmer, Assistant Professor at Tokyo University and founder of TPF2 -- Tohoku Planning Forum which links innovative redevelopment schemes in the region says:

"The current Japanese government's obsession with big construction projects, like mega-seawalls that have already been shown to be not likely to be effective, is leading to really innovative community solutions being marginalized, the voices of communities being ignored, and sustainability cast aside."
According to community planner and academic, Kayo Murakami -- who edits this Interface section: "The troubles of the Tohoku reconstruction are not just a concern for Japan. They highlight some of the fundamental challenges for disaster recovery and building sustainable communities, in which people are really involved, all over the world."

Source: Taylor & Francis