Friday, January 15, 2021

How aerosols are formed

ETH ZURICH

Research News

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IMAGE: THE EXPERIMENTAL SETUP IN AN ETH ZURICH LABORATORY. view more 

CREDIT: ETH ZURICH / RUTH SIGNORELL

Aerosols are suspensions of fine solid particles or liquid droplets in a gas. Clouds, for example, are aerosols because they consist of water droplets dispersed in the air. Such droplets are produced in a two-step process: first, a condensation nucleus forms, and then volatile molecules condense onto this nucleus, producing a droplet. Nuclei frequently consist of molecules different to those that condense onto them. In the case of clouds, the nuclei often contain sulphuric acids and organic substances. Water vapour from the atmosphere subsequently condenses onto these nuclei.

Scientists led by Ruth Signorell, Professor at the Department of Chemistry and Applied Biosciences, have now gained new insights into the first step of aerosol formation, nucleation. "Observations have shown that the volatile components can also influence the nucleation process," Signorell says, "but what was unclear was how this was happening at the molecular level." Previously it was impossible to observe the volatile components during nucleation in an experimental setting. Even in a famous CERN experiment on cloud formation, the "Cloud" experiment, certain volatile components could not be directly detected.

Volatile components detected for the first time

The ETH researchers developed an experiment aimed at the first microseconds of the nucleation process. In the experiment, the particles formed remain intact during this time and can be detected using mass spectrometry. The scientists looked at nucleation in various gas mixtures containing CO2 and for the first time, they were able to detect the volatile components as well - in this case, the CO2. The researchers could show that the volatile components were essential for the formation of nuclei and also accelerated this process.

An analysis of the experimental data revealed that this acceleration is the result of the volatile components catalysing the nucleation of other, less volatile components. They do this by forming short-lived, heterogeneous molecular aggregates, known as chaperon complexes. "Because temperature determines the volatility of gas components, it also plays a decisive role in these processes," Signorell explains.

One reason the new research results are interesting is that they improve the understanding of nucleation, its molecular mechanisms and speed, in order to properly account for it in models for, say, cloud formation in the atmosphere. In addition, the results should help to improve the efficiency of technical processes for producing aerosols - such as the use of rapid cooling to capture CO2 from natural gas.

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Reference
Li C, Krohn J, Lippe M, Signorell R: How volatile components catalyze vapor nucleation, Science Advances, 13 January 2021, doi: 10.1126/sciadv.abd9954

Measuring the belowground world

Researchers call for greater consideration of soil biodiversity and functions in international conservation strategies

GERMAN CENTRE FOR INTEGRATIVE BIODIVERSITY RESEARCH (IDIV) HALLE-JENA-LEIPZIG

Research News




If you asked people which group of animals is the most abundant on earth, hardly anyone would know the right answer. Ants? Fish? No, and not humans either. The answer is nematodes, also known as roundworms. Four out of five animals on earth belong to this group, and the reason hardly anyone is aware of the fact is that they live underground, invisible to us. Together with thousands of other soil organisms, they quietly, discreetly and constantly perform enormously important services for the world above them.

The soil is one of the most species-rich habitats in existence. Living under one square meter of healthy soil you can find up to 1.5 kilograms of organisms: among others, roundworms, earthworms, springtails, mites and insect larvae. There is also a multitude of microorganisms including bacteria, protists and fungi. They eat and transform living and dead animal and plant material into nutrients which become the basis for growth and new life. Without soil organisms, no plants would be able to grow and no humans could live.

It is therefore all the more astonishing that soils have so far hardly featured in international strategies for protecting biodiversity. The authors of the new article in Science see this as a big problem: "If we do not protect soils for the next generations, aboveground biodiversity and food production cannot be guaranteed either". Their appeal goes out to the 196 nations who are currently negotiating a new strategy to protect biodiversity within the framework of the UN Convention on Biological Diversity (CBD).

CAPTION

Collembola, such as this Acanthanura sp., can be useful indicators of soil quality and also the focus of nature conservation measures.

Healthy soils are becoming increasingly rare. They suffer the burden of intensive cultivation with heavy machinery, fertilisers and pesticides, are compacted, built over or are lost due to wind and water erosion. Global warming is putting them under additional pressure. According to the German Heinrich Böll Foundation, around 24 billion tons of fertile soil are lost worldwide every year. As a result, the soils' wide variety of services such as water purification and protection against plant diseases gradually decline. In addition, soils are the most important carbon reservoir on earth and therefore help slow global climate warming.

Call for greater consideration of soil biodiversity in global biodiversity protection strategies

According to the researchers, these services are given far too little attention in the political debate. "Up to now, soil conservation has been mostly reduced to the impacts related to soil erosion and its importance for agriculture," said first author Dr Carlos Guerra (iDiv, MLU). "It's about time that soil conservation policies consider the protection of soil organisms and ecosystem functions more than just for food production and other productive systems. Soil biodiversity monitoring and conservation can support the achievement and tracking of many sustainability goals, targeting areas such as climate, food and biodiversity protection."

"Protection measures have so far mainly focused on life above ground, for example in the designation of protected areas", said senior author Dr Diana Wall from Colorado State University. However, since these do not necessarily benefit underground biodiversity, the specific needs of the biotic communities in the soil have to be taken into account.

CAPTION

Earthworms are the architects of the soil. They mix the soil layers, form a network of burrows essential for soil water, air and nutrient dynamics, and decompose dead materia

Establishing global monitoring network Soil BON

In order to be able to decide which regions of the world are particularly in need of protection, and which protective measures are appropriate, sufficient information must be available on the status and trends of biodiversity in soils. Since this has not been the case so far, the researchers launched the Soil BON monitoring network. "We want to move biodiversity in soils into the focus of conservation efforts. To do this, we must provide policymakers with the necessary information to support decision-making," said senior author Prof Nico Eisenhauer, research group leader at iDiv and Leipzig University. "Soil BON will produce and support the production of the relevant data to achieve this goal."

The purpose of Soil BON is to help gather equivalent soil data, comprehensively and over extended periods of time. What is required is an internationally recognised standard which sets out what is to be recorded and how. The researchers propose a holistic system for this: the so-called Essential Biodiversity Variables (EBVs). EBVs are key parameters for measuring biodiversity. The concept was developed by, among others, iDiv and includes criteria such as soil respiration, nutrient turnover and genetic diversity. Indicators are derived from the EBVs which then serve as a basis for soil status evaluation and subsequent decisions regarding the level and type of protection necessary for the soils.

According to the researchers, their proposed monitoring and indicator system will enable the worldwide condition of soils and their capacity to function to be recorded efficiently and monitored long term. They emphasise that it also serves as an important early warning system; with its help, it will be possible to identify, at an early stage, whether existing nature conservation goals can be achieved with current measures.

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Thursday, January 14, 2021

Posidonia marine seagrass can catch and remove plastics from the sea

A trap for plastics in coastal areas

UNIVERSITY OF BARCELONA

Research News

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IMAGE: IN THE GRASSLANDS, THE PLASTICS ARE INCORPORATED TO AGGLOMERATES OF NATURAL FIBER WITH A BALL SHAPE (AEGAGROPILA OR POSIDONIA NEPTUNE BALLS). view more 

CREDIT: UNIVERSITY OF BARCELONA

Posidonia oceanica seagrass -an endemic marine phanerogam with an important ecological role in the marine environment- can take and remove plastic materials that have been left at the sea, according to a study published in the journal Scientific Reports. The article's first author is the tenure-track 2 lecturer Anna Sànchez-Vidal, from the Research Group on Marine Geosciences of the Faculty of Earth Sciences of the University of Barcelona (UB).

The study describes for the first time the outstanding role of the Posidonia as a filter and trap for plastics in the coastal areas, and it is pioneer in the description of a natural mechanism to take and remove these materials from the sea. Other authors of the study are the experts Miquel Canals, William P. de Haan and Marta Veny, from the Research Group on Marine Geosciences of the UB, and Javier Romero, from the Faculty of Biology and the Biodiversity Research Institute (IRBio) of the UB.

A trap for plastics in coastal areas

The Posidonia oceanica makes dense prairies that make a habitat with a great ecological value (nutrition, shelter, reproduction, etc.) for marine biodiversity. As part of the study, the team analysed the trapping and extraction of plastic in great seagrasses of the Posidonia in the coasts of Majorca. "Everything suggests that plastics are trapped in the Posidonia seagrass. In the grasslands, the plastics are incorporated to agglomerates of natural fiber with a ball shape -aegagropila or Posidonia Neptune balls- which are expulsed from the marine environment during storms", notes Anna Sànchez-Vidal, member of the Department of Ocean and Earth Dynamics of the UB.

"According to the analyses -she continues- the trapped microplastics in the prairies of the Posidonia oceanica are mainly filaments, fibers and fragments of polymers which are denser than the sea water such as polyethylene terephthalate (PET).

How are Posidonia Neptune balls made?

This marine phanerogam has a vegetative structure made by a modified stem with a rhizome shape from which the roots and leaves appear. When the leaves fall, its bases (pods) are added to rhizomes and give them a feather-like appearance. "As a result of the mechanical erosion in the marine environment, those pods under the seafloors are progressively releasing lignocellulosic fibres which are slowly added and intertwined until they make agglomerates in a ball-shape, known as aegagropilaeAegagropilae are expulsed from prairies during periods of strong waves and a certain part ends up in the beaches", says Professor Javier Romero, from the Department of Evolutionary Biology, Ecology and Environmental Sciences and the Biodiversity Research Institute (IRBio) of the UB.

Posidonia aegagropilae are expelled from the prairies during periods of strong waves and a part ends up piled in the beaches. Although there are no studies that quantify the amount of aegagropilae expelled from the marine environment, it is estimated that about 1,470 plastics are taken per kilogram of plant fibre, amounts which are significantly higher than those captured through leaves or sand. As researcher Anna Sànchez-Vidal says, "we cannot completely know the magnitude of this plastic export to the land. However, first estimations reveal that Posidonia balls could catch up to 867 million plastics per year".

CAPTION

This natural mechanism could trap about 867 million plastic per year in coastal areas.

Plastic-free oceans: everyone's responsibility

The polluting footprint of plastics that come from human activity is a serious environmental problem affecting coastal and ocean ecosystems worldwide. Since plastics were created massively in the 20th century fifties, these materials have been left and accumulated at the sea -seafloors act as a sink for microplastics-- and are transported by ocean currents, wind and waves. "The plastics we find floating in the sea are only a small percentage of everything we have thrown onto the marine environment", warns Anna Sànchez-Vidal.

The paper published in the journal Scientific Reports has been carried out within the frame of the subject of the EHEA bachelor's degree final project of the degree in Marine Sciences of the Faculty of Earth Sciences, and counted on the support from the Scientific and Technological Centers of the UB (CCiTUB). The new ecosystemic service of the Posidonia described in the article has a significant value in a marine area such as the Mediterranean -with high quantities of floating plastic and in the seafloors-- and with Posidonia seagrass that can occupy large areas up to forty meters deep.

"This is why we need to protect and preserve these vulnerable ecosystems. However, the best environmental protection strategy to keep oceans free of plastic is to reduce landfills, an action that requires to limit its use by the population", conclude the experts.

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Teeth pendants speak of the elk's prominent status in the Stone Age

UNIVERSITY OF HELSINKI

Research News

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IMAGE: A TOTAL OF 90 ELK TEETH WERE PLACED NEXT TO THE HIPS AND THIGHS OF THE BODY IN GRAVE 127, POSSIBLY ATTACHED TO A GARMENT RESEMBLING AN APRON. THERE WERE... view more 

CREDIT: DRAWING BY TOM BJORKLUND

Roughly 8,200 years ago, the island of Yuzhniy Oleniy Ostrov in Lake Onega in the Republic of Karelia, Russia, housed a large burial ground where men, women and children of varying ages were buried. Many of the graves contain an abundance of objects and red ochre, signifying the wish to ensure the comfort of the buried also after death. Pendants made of elk incisors were apparently attached to clothing and accessories, such as dresses, coats, cloaks, headdresses and belts. Although no clothing material has been preserved, the location of the elk teeth sheds light on the possible type of these outfits.

A people of grooved elk tooth pendants

A study headed by archaeologist Kristiina Mannermaa, University of Helsinki, aimed to determine who the people buried in outfits decorated with elk tooth ornaments were, and what the pendants meant to them. The study analysed the manufacturing technique of a total of more than 4,000 tooth ornaments, or the way in which the teeth had been processed for attachment or suspension. The results were surprising, as practically all of the teeth had been processed identically by making one or more small grooves at the tip of the root, which made tying the pendants easier. Only in two instances had a small hole been made in the tooth for threading, both of which were found in the grave of the same woman. The tooth pendants found in graves located in the Baltic area and Scandinavia from the same period as the Yuzhniy Oleniy Ostrov graves are almost exclusively perforated. Perforation is the surest way of fastening the pendant, but making holes in the narrow tip of a tooth is more laborious than grooving.

Archaeological and ethnographic research has shown that humans have been using decorations almost always and everywhere in the world, for several different purposes. To many indigenous peoples in Eurasia, including the Sámi communities, decorations have been and still are an important way of describing a person's identity and origin. They are not only aesthetic details, but also connected to intercommunity communication and the strengthening of intracommunity uniformity. External elements such as ornaments can also influence the names which neighbouring groups use to refer to a community. In fact, Kristiina Mannermaa calls the people found in the burial site the people of grooved elk tooth pendants.

"Even though there are pendants made of beaver and bear teeth in the graves, the share of elk teeth in them is overwhelming," Mannermaa says.

Typically, only one or at the most a couple of different groove types were prevalent in individual graves. This indicates that the pendants found in a specific grave or cluster were the result of routine serial production of sorts carried out in a fairly short period of time. The most common groove types were firm as well as quick and easy to make.

"Interestingly, the grooves were not always made on the broadest side of the tooth, which would be the easiest option. In many graves, the grooves are on the thin side of the tooth where the unstable position of the tooth makes them harder to do. The artisan may have resorted to this method in order to tie them in a specific position," researcher Riitta Rainio notes.

The highest number of elk teeth were found in the graves of young adult women and men, the lowest in those of children and elderly people. In other words, elk tooth ornaments were in one way or another linked to age, possibly specifically to the peak reproductive years.

Elk was the most important animal in the ideology and beliefs of the prehistorical hunter-gatherers of the Eurasian forest zone, and their limited availability made elk teeth a valuable material to ancient hunters. Elks were not brought down very often, and not all members of the community contributed to hunting. It may be that a single individual was given all of the incisors of a caught elk. Elks have a total of eight incisors, six permanent ones in the lower jaw and two permanent canines in the shape of incisors. At times, corresponding deciduous teeth were also processed into ornaments. The largest ornaments required the teeth of at least 8 to 18 elks.

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In addition to Mannermaa, Riitta Rainio from the University of Helsinki as well as Evgeniy Yurievich Girya and Dmitriy Gerasimov from Peter the Great's Museum of Anthropology and Ethnography contributed to the study.

Greenland melting likely increased by bacteria in sediment

Microbes in meltwater stream sediment may help boost island's contribution to sea-level rise

RUTGERS UNIVERSITY

Research News

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IMAGE: A SUPRAGLACIAL STREAM AND SEDIMENT FLOODPLAIN IN SOUTHWEST GREENLAND. view more 

CREDIT: SASHA LEIDMAN

Bacteria are likely triggering greater melting on the Greenland ice sheet, possibly increasing the island's contribution to sea-level rise, according to Rutgers scientists.

That's because the microbes cause sunlight-absorbing sediment to clump together and accumulate in the meltwater streams, according to a Rutgers-led study - the first of its kind - in the journal Geophysical Research Letters. The findings can be incorporated in climate models, leading to more accurate predictions of melting, scientists say.

"These streams can be seen all over Greenland and they have a brilliant blue color, which leads to further melting since they absorb more sunlight than the surrounding ice," said lead author Sasha Leidman, a graduate student in the lab of co-author Asa K. Rennermalm, an associate professor in the Department of Geography in the School of Arts and Sciences at Rutgers University-New Brunswick. "This is exacerbated as dark sediment accumulates in these streams, absorbing even more sunlight and causing more melting that may increase sea-level rise."

The Greenland ice sheet covers about 656,000 square miles - most of the island and three times the size of Texas, according to the National Snow & Ice Data Center. The global sea level would rise an estimated 20 feet if the thick ice sheet melted.

With climate change, sea-level rise and coastal storms threaten low-lying islands, cities and lands around the world.

YouTube video: Drone flight over a supraglacial stream in Greenland

Most scientists ignore sediment in glacial streams that form on top of the Greenland ice sheet as meltwater flows to the ocean, but the Rutgers-led team wanted to find out why they accumulated so much sediment. In 2017, scientists flew drones over an approximately 425-foot-long stream in southwest Greenland, took measurements and collected sediment samples. They found that sediment covers up to a quarter of the stream bottom, far more than the estimated 1.2 percent that would exist if organic matter and cyanobacteria did not cause sediment granules to clump together. They also showed that streams have more sediment than predicted by hydrological models.

"We found that the only way for sediment to accumulate in these streams was if bacteria grew in the sediment, causing it to clump into balls 91 times their original size," Leidman said. "If bacteria didn't grow in the sediment, all the sediment would be washed away and these streams would absorb significantly less sunlight. This sediment aggregation process has been going on for longer than human history."

The solar energy absorbed by streams likely depends on the health and longevity of the bacteria, and further warming in Greenland may lead to greater sediment deposits in glacial streams, the study says.

"Decreases in cloud cover and increases in temperature in Greenland are likely causing these bacteria to grow more extensively, causing more sediment-driven melting," Leidman said. "With climate change causing more of the ice sheet to be covered by streams, this feedback may lead to an increase in Greenland's contribution to sea-level rise. By incorporating this process into climate models, we'll be able to more accurately predict how much melting will occur, with the caveat that it is uncertain how much more melting will take place compared with what climate models predict. It will likely not be negligible."

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Rutgers co-authors include graduate student Rohi Muthyala and School of Engineering Professor Qizhong (George) Guo. A scientist at the University of Colorado Boulder contributed to the study.

The richer you are, the more likely you'll social distance, study finds

JOHNS HOPKINS UNIVERSITY

 NEWS RELEASE 

Research News

The higher a person's income, the more likely they were to protect themselves at the early stages of the Covid-19 pandemic in the United States, Johns Hopkins University economists find.

When it comes to adopting behaviors including social distancing and mask wearing, the team detected a striking link to their financial well-being. People who made around $230,000 a year were as much as 54% more likely to increase these types of self-protective behaviors compared to people making about $13,000.

"We need to understand these differences because we can wring our hands, and we can blame and shame, but in a way it doesn't matter," said Nick Papageorge, the Broadus Mitchell Associate Professor of Economics. "Policymakers just need to recognize who is going to socially distance, for how long, why and under what circumstances to give us accurate predictions of how the disease will spread and help us establish policies that will be useful."

The findings, that could contribute to more accurate predictions of how the disease will spread, appear in the latest Journal of Population Economics.

As part of a six-country survey, 1,000 people in the United States, from Texas, Florida, California and New York, were asked a series of questions in April 2020 to determine if and how their behavior had changed as Covid-19 cases were beginning to spike across the country. The resulting data includes information on income, gender and race along with unique variables relevant to the pandemic, such as work arrangements and housing quality.

The team, which included economics graduate student Matthew Zahn, found that while almost everyone changed their behavior in some way to try to stay safe, people making the most money made the most changes. The highest earners were 13% more likely to change their behaviors, 32% more likely to increase social distancing and 30% more likely to increase hand washing and mask wearing.

But the team found it was also much easier for people with more money to take extra safety measures.

Higher-income individuals were more likely to report being able to work from home and more likely to have transitioned to telework instead of losing their job. The researchers found the ability to telework emerged as a huge predictor of whether someone would social distance. Compared to somebody who continued to work, people able to telework were 24% more likely to social distance.

"The whole messaging of this pandemic is you're stuck at home teleworking, that must be really tough so here are some recipes for sourdough starter, and here's what you should catch up on Netflix," Papageorge said. "But what about the people who aren't teleworking? What are they going to do?"

The team found lower-income respondents faced increased chances of job and income losses due to the pandemic and limited access to remote work. They were also more likely to live in homes with no access to the outdoors - access to outdoor space was a very strong predictor of social distancing, the researchers found. People with access to open air at home were 20% more likely to social distance.

All of these burdens ensured those earning the least would have a harder time adopting social-distancing behaviors, which could have prolonged the pandemic, the team found. Social distancing was simply more practical, comfortable and feasible for people with more income.

"It's not shocking that if you don't live in a comfortable house you're going to be leaving your house more often. But the point we want to push is that if I'm a policy maker maybe I really need to think about opening city parks in a dense neighborhood during a pandemic. Maybe that's something that's worth the risk. This is why we want to understand these details - they can eventually suggest policies," Papageorge said.

The data showed that women were 23% more likely than men to social distance. Surprisingly, the researchers did not find any meaningful patterns between pre-existing health conditions and people's self-protective actions.

The team is now expanding this research with even more extensive surveys that look into how events such as the Black Lives Matter protests affected behavior during the pandemic, the pandemic's possible effects on addictive behaviors and, more broadly, how to build tools to better understand the unequal burdens the pandemic.

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Authors also included: Michele Belot of Cornell University; Eline van den Broek-Altenburg of University of Vermont; Syngjoo Choi of Seoul National University; Julian C. Jamison of University of Exeter; and Egon Tripodi of University of Essex.

This work was supported by funding from the Creative-Pioneering Researchers Program at Seoul National University and the European University In

New classification marks paradigm shift in how conservationists tackle climate change

WILDLIFE CONSERVATION SOCIETY

Research News

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IMAGE: TRANSFORMATION-ORIENTED PROJECTS INVOLVED TRANSLOCATION OF TREES OR OTHER PLANTS, COMMONLY IN FOREST ECOSYSTEMS. view more 

CREDIT: NICOLE MATSON

NEW YORK (January 14) -- A new study co-authored by researchers from the Wildlife Conservation Society's (WCS) Global Conservation Program and the University of British Columbia (UBC) Faculty of Forestry introduces a classification called Resistance-Resilience-Transformation (RRT) that enables the assessment of whether and to what extent a management shift toward transformative action is occurring in conservation. The team applied this classification to 104 climate adaptation projects funded by the WCS Climate Adaptation Fund over the past decade and found differential responses toward transformation over time and across ecosystems, with more transformative actions applied in forested ecosystems.

The RRT classification addresses a continuum from actively resisting changes - in order to maintain current or historical conditions--through accelerating ecological transitions through approaches such as translocating species to new areas. Results show a shift from more resistance-type actions to transformative ones in recent years. Most transformation-oriented projects involved translocation of trees or other plants, commonly in forest ecosystems, with exceptions including, for example, translocating seabird species to habitat where they may be more likely to survive. Other ecosystems with more transformative projects occurred in coastal aquatic and urban/suburban ecosystems.

Unprecedented environmental changes such as increased frequency and severity of heatwaves, droughts, storms, heavy rainfalls, and wildfires, have degraded ecosystems, disturbed the economy, and led to the loss of lives and livelihoods. Conventional conservation strategies may be ineffective in dealing with changing environmental conditions: wildfires could decimate protected old-growth forests and endangered species, and coastal conservation easements could become inundated by rising seas. Novel conservation actions aimed specifically at helping ecosystems adapt to the mounting impacts of climate change contrast with approaches that aim to maintain current or historical conditions. Transformative actions, such as species translocation, were once more controversial than they are today; they are now increasingly highlighted as necessary components of conservation in an effort to implement projects that are more robust to future climates. However, few studies have systematically examined on-the-ground conservation adaptation projects to assess the extent to which such transformational adaptation actions are being implemented, through what approaches, and in what ecosystems.

This study, published in Nature Communications Biology, assessed projects implemented within the United States but the authors see broader applications. "Our classification could be applied to a suite of conservation projects across the world to determine if a global shift in practice is occurring," said co-author Lauren Oakes, a Conservation Scientist at WCS and Adjunct Professor at Stanford University. Guillaume Peterson St-Laurent, the lead author and a postdoc at the University of British Columbia, says the team is interested in creating an online platform for tracking projects assessed with the new classification around the globe. "We hope to be working with international teams in the not-so-distant future as we envision this new tool could be applied to many different ecological scenarios," says Peterson St-Laurent.

The interdisciplinary research team was supported by the Doris Duke Charitable Foundation, and the study was conducted in partnership with the IUCN Species Survival Commission's Climate Change Specialist Group.

Precautionary actions aimed at resistance or resilience--such as protecting intact ecosystems--are incredibly valuable in the suite of responses needed to address current and future climate change. But the authors suggest that degraded ecosystems or working landscapes may require more transformative actions and the public support to do so, in an effort to meet the shifting goals in a changing climate. This research provides evidence of a paradigm shift, as practitioners and funders move more in this critical direction.

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About the Wildlife Conservation Society

WCS saves wildlife and wild places worldwide through science, conservation action, education, and inspiring people to value nature. To achieve our mission, WCS, based at the Bronx Zoo, harnesses the power of its Global Conservation Program in nearly 60 nations and in all the world's oceans and its five wildlife parks in New York City, visited by 4 million people annually. WCS combines its expertise in the field, zoos, and aquarium to achieve its conservation mission. Visit: newsroom.wcs.org Follow: @WCSNewsroom. For more information: 347-840-1242.

About the Doris Duke Charitable Foundation (DDCF). The mission of the Doris Duke Charitable Foundation is to improve the quality of people's lives through grants supporting the performing arts, environmental conservation, medical research and child well-being, and through the preservation of the cultural and environmental legacy of Doris Duke's properties. The foundation's Environment Program seeks to enable communities to protect and manage wildlife habitat and create efficient built environments. An awareness of climate change as the greatest emerging threat to biodiversity--and the need to aggressively mitigate it without unnecessarily sacrificing wildlife habitat--shapes the Environment Program's grant-making priorities. In addition to funding researchers from the WCS Global Conservation Program, DDCF also funds the WCS Climate Adaption Fund. For more information, visit ddcf.org.

About the University of British Columbia's (UBC) Faculty of Forestry. UBC's Faculty of Forestry is a global leader in forestry education and research. What began in 1921, today embodies a comprehensive offering of undergraduate and graduate programs as well as world-renowned research and initiatives. Our programs and research draw from all forest science disciplines and model the broad spectrum of topics relating to forests' interplay between our environment and all those who live on our planet. For more information, visit forestry.ubc.ca/news/media-centre.

About the IUCN SSC Climate Change Specialist Group

The IUCN SSC Climate Change Specialist Group is a global network of scientists working at the research-policy-practice interface to strengthen nature conservation in a changing climate. With more than 60 members worldwide, we work at the forefront of climate change and biodiversity science to bridge knowledge gaps, build collaborations, and strengthen the community of practice around climate-focused conservation. Learn more at ccsg-iucn.com or follow us on Facebook (IUCN SSC Climate Change Specialist Group) or Twitter (@IUCN_CCSG).

Lack of managers keeps India's businesses small

YALE UNIVERSITY

Research News

In today's economy, American businesses often tap into professional management to grow, but most firms in India and other developing countries are family owned and often shun outside managers. A new study co-authored by Yale economist Michael Peters explores the effects that the absence of outside professional management has on India's businesses and the country's economy.

The study, published in the American Economic Review, uses a novel model to compare the relationship between the efficiency of outside managers and firm growth in the United States and India. It shows that the lack of managerial delegation factors significantly into why businesses in India tend to stay small and has wider implications on the country's economy, constraining innovation, economic growth, and per capita income.

"There's been growing evidence that managerial services might be the key missing input for many firms in poor countries," said Peters, associate professor of economics in Yale's Faculty of Arts and Sciences. "Our analysis confirms that the absence of managerial delegation is a significant factor in why successful Indian businesses fail to grow, which reduces the overall productivity of the country's economy."

By growing, companies generate employment, promote innovation, and contribute to a countries' economic productivity, the researchers say.

In developed countries, family-owned firms such as Walmart, Ford Motor Co., and the Lego Group, which all emerged from humble beginnings, grew into corporate behemoths, with hundreds of thousands of employees, by delegating key operations to outside managers. But businesses in developing countries rarely hire managers outside the owners' families, the researchers note.

Peters and his co-authors, Ufuk Akcigit of the University of Chicago and Harun Alp of the University of Pennsylvania, focused their analysis on this disparity between developed and developing countries' firm sizes. They created a quantitative model that centers the role of managerial delegation in firm growth. It incorporated plant-level data from the United States and India and was calibrated to recognize that business in India might face higher barriers to growth, such as having less access to start-up capital, than U.S. businesses.

In India, more than 9 out of 10 of manufacturing businesses have fewer than four employees, and those small firms account for more than half of total employment. In contrast, two-thirds of U.S. manufacturing employment is concentrated in establishments with at least 100 employees, and only one-third of firms have fewer than four employees, according to the study.

The researchers found that India's economy suffers from "a lack of selection" -- the process of creative destruction through which successful businesses expand while unproductive firms close or are swallowed up by competitors -- allowing unproductive businesses to survive because successful businesses do not expand. Their analysis showed that the low productivity of outside managers in India, which they estimate to be substantially lower than in the United States, is one cause of the lack of selection and has negative consequences for India's economy.

If Indian businesses used outside managers as efficiently as U.S. businesses, it would boost economic productivity in India and increase the country's per capita income by about 11%, according to the study.

The study found a strong complementary relationship between the quality of outside managers and other factors affecting firm growth, such as access to capital or credit. Increasing the efficiency of managerial delegation to U.S. standards would increase average firm size by 3%, the researchers said. In contrast, if U.S. businesses had to operate with management practices common in India, the country's average firm would shrink by about 15%. This disparity between the U.S. and India shows that the productivity of outside managers is not the only determinant of firm growth and that other forces prevent successful Indian businesses from expanding, Peters explained.

"The complementarity between the efficiency of delegating managerial tasks and other aspects affecting firm growth, such as access to credit, is one of our key results," said Peters, who is affiliated with Yale's Economic Growth Center. "For improvements to managerial quality to have a large effect, other factors hindering growth must be addressed. If you repair a punctured tire, you still can't drive if your other tires are flat."

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A link to the paper and a detailed summary of its findings is available on the Economic Growth Center's website.