Study finds cultural differences in attitudes toward infidelity, jealousy

Photo of father and small son.

The 11 societies studied included the Namibian community of the Himba, where this father and child live. Photo credit: Brooke Scelza.

In cultures where fathers are highly invested in the care of their children, both men and women respond more negatively to the idea of infidelity, a cross-cultural study led by UCLA professor of anthropology Brooke Scelza found.

Jealousy is a well-examined human phenomenon that women and men often experience differently, but the study published this week in Nature Human Behavior also examined cultural differences in the experience of jealousy, by surveying 1,048 men and women from 11 societies on five continents.

Scelza wanted to use established evolutionary science to go beyond the idea that a phenomenon of human behavior is either universal or variable.

“In studying jealousy we find evidence for both,” she said. “Almost everywhere men tend to be more upset than women by sexual infidelity,” she said. “At the same time, cultural factors lead to population-level differences in how infidelity is viewed.”

For example, in places where men are not expected to be as involved in day-to-day care of children, people were less prone to jealousy. And in cultures that are more accepting of what Scelza describes as “concurrent” sexual relationships, responses to questions about jealousy were more muted.

The study harnessed expertise from a dozen researchers who have worked extensively in the populations surveyed. Eight were small-scale societies, including the Himba, a pastoral community in Namibia, and the Tismane, indigenous people of Bolivia. Three populations of respondents were from urban settings, such as Los Angeles, India and Okinawa, Japan.

Researchers used a five-point scale to determine attitudes about infidelity and jealousy.

“Very few people of either sex said that either sexual or emotional infidelity was ‘very good’ but responses of ‘OK’ and ‘good’ were not uncommon,” Scelza said. “What is most interesting is that we were able to not just show that cross-cultural variation in jealous response exists, which by itself is not very surprising, but we were able to explain some of that variation using principles from evolutionary theory about the relative costs and benefits of infidelity, including how common extramarital sex is, and whether men are very involved in child-rearing.”

Another surprising finding of the study was that in the majority of populations studied, both men and women found sexual infidelity more upsetting than emotional infidelity. In only four of the populations, including Los Angeles and Okinawa, a majority of women responded that emotional infidelity was more upsetting. These responses echoed what women surveyed in smaller communities like the Himba and Tsimane reported to researchers — that sexual infidelity leads to fears of loss of paternal support and resources for children.

“Typically, we tend to think that emotional infidelity is more likely to lead to loss of resources, which is why it is thought to be more upsetting to women, but we found the opposite,” Scelza said.

This study is part of a growing body of work over the last decade from social scientists who seek to be more inclusive and not just focus their research on western, educated, industrial, rich and democratic — also known as WEIRD — societies, Scelza said.

“For a long time in psychology there was a tendency to use student samples from U.S. and European universities, and if they found a consistent result, extrapolate that as something that could be a ‘human universal,’” she said. “But there are many reasons to believe that people from WEIRD populations are unlikely to be representative of humanity more generally.”

For example, Scelza’s idea for the study was sparked by her ongoing work with Himba pastoralists living in rural Namibia. In her work on marital and family dynamics she found that both women and men frequently had multiple concurrent sexual partners but still experienced happy marriages.

“Over and over I was told that one could love both their husband and another man, and that in fact, many people would be uninterested in having a spouse who could not attract other partners,” she said. “It made me wonder whether or not people in this culture experienced jealousy at all. It turns out they do, but those findings inspired me to take a broader look at how jealousy is treated around the world, and try to understand where and why people view it differently.”

This article originally appeared in the UCLA Newsroom.

Photo of smoggy Los Angeles skyline

Air quality app influences behavior by linking environment to health

Photo of smoggy Los Angeles skyline

An air quality app prompted a majority of its users to take measures to reduce air pollution’s effects on their health.

Nine out of 10 people worldwide breathe polluted air and 7 million die every year from air pollution, according to the World Health Organization. Air quality mobile applications could mitigate these health risks by educating people and promoting preventive behavioral changes, a UCLA study found.

“I think information can be very powerful to change your behavior,” said the study’s lead author, Magali Delmas, a professor of management at the UCLA Institute of the Environment and Sustainability and the Anderson School of Management.

To test the effectiveness of an air quality app, a team of UCLA researchers created AirForU. Similar to a weather app, AirForU gave users information such as hourly air quality updates, next-day air quality forecasts and seven-day historical averages. Data was taken from the Environmental Protection Agency’s AirNow website.

Sixty-nine percent of the app’s 2,740 users said the app prompted them to take measures to reduce air pollution’s effects on their health, and 58% said they learned new information about the health impacts of air pollution.The researchers tracked how often users checked the app and surveyed them to find out how often they shared air quality information with others.

Engagement was found to be highest among health-conscious users, including those who exercised frequently or had preexisting conditions — such as asthma or heart disease — that can be aggravated by air pollution. These users opened the app one to two more times a week than other users.

Additional motivations such as emails and in-app notifications increased engagement, generating two to three more app visits a week. However, the paper’s authors noted that too many notifications could backfire, annoying users.

As part of an end-of-study feedback survey, researchers measured behavioral changes. The most common actions users took to protect their health were not exercising outdoors when air pollution levels were high (21.7%) and closing windows (20.2%). Their knowledge of air quality rose as well, from 10% in the intake survey to 70% in the exit survey.

The study ran from 2015 to 2017, but it was cut short. “[A] company used lawyers to try to influence the type of information we provided in the app,” the study stated, after “one app user contacted a facility about their toxic releases.” The letter was written by attorneys representing an unidentified company. Though all of the app’s information was publicly available through government sources, UCLA Health decided to remove the app from the store. By that time, the information needed for the study had already been collected.

The researchers suggested increasing transparency about data sourcing and potentially including attorneys in development teams for similar apps.

Maintaining long-term engagement was another challenge. App engagement dropped 90 percent about three months after signup. The paper’s authors suggest it could indicate that users learned enough during that time, or that additional strategies are needed to engage them further.

While users can no longer download AirForU, Delmas and Kohli see potential for future apps to go beyond educating users and promote behavioral change — informing public advocacy to address air pollution through policies and responsible business practices.

“I hope others will learn from what we did to build something that is even more effective,” Delmas said.

This article originally appeared in the UCLA Newsroom.

Physical Sciences Dean Miguel García-Garibay has been elected a 2019 Fellow of the American Chemical Society

Photo of Miguel García-Garibay

Miguel García-Garibay, Dean of the UCLA College Division of Physical Sciences.

Miguel García-Garibay, dean of the UCLA Division of Physical Sciences and professor of chemistry and biochemistry, has been elected a 2019 fellow of the American Chemical Society, the ACS announced.

García-Garibay is a pioneer in research on molecular motion in crystals, molecular machines and green chemistry.

He has earned worldwide recognition in the fields of organic photochemistry, solid-state organic chemistry and physical organic chemistry. García-Garibay studies the interaction of light and molecules in crystals. Light can have enough energy to break and make bonds in molecules, and his research team has shown that crystals offer an opportunity to control the outcome of these chemical reactions. He is interested in the basic science of molecules in crystals.

His research has applications for green chemistry that may lead to the production of specialty chemicals that would be very difficult to produce by traditional methods due to their complex structures, as well as applications for molecular electronics and miniaturized devices. His research group has made advances in the field of artificial molecular machines and amphidynamic crystals, a term García-Garibay invented, referring to crystals built with molecules that have a combination of static and mobile components. His research is funded by the National Science Foundation, among other funding sources.

“I can get a precise picture of the molecules in the crystals, the precise arrangement of atoms, with almost no uncertainty,” García-Garibay said. “This provides a large level of control, which enables us to learn the different principles governing molecular functions at the nanoscale.”

He has won many honors for his research, including selection as a fellow of the American Association for the Advancement of Science, as well as numerous honors from the National Science Foundation and the American Chemical Society. He is a member of the California NanoSystems Institute and the Society for Advancement of Chicanos/Hispanics and Native Americans in Science, among other scholarly organizations.

ACS fellows are nominated by their peers and selected for their outstanding accomplishments in scientific research, education and public service. The 2019 fellows will be honored at a ceremony during the ACS national meeting in San Diego on Aug. 26.

This story originally appeared here.

Mathematician named a Great Immigrant by Carnegie Corporation

Photo of Terence Tao

Terence Tao. Photo Credit: Reed Hutchinson

 

Terence Tao, professor of mathematics, who holds the James and Carol Collins Chair in the UCLA College, has been named by Carnegie Corporation of New York on its 2019 annual list of Great Immigrants — a salute to 38 naturalized citizens who “strengthen America’s economy, enrich our culture and communities, and invigorate our democracy through their lives, their work, and their examples.”

Tao became the first mathematics professor in UCLA history to be awarded the Fields Medal in 2006, often described as the “Nobel Prize in mathematics.” He has earned many other honors, including the National Science Foundation’s Alan T. Waterman Award, the Breakthrough Prize in Mathematics, Royal Society’s 2014 Royal Medal for physical sciences and the Royal Swedish Academy of Sciences’ Crafoord Prize. National Geographic magazine featured him in its “What makes a genius?” May 2017 issue.

Every Fourth of July since 2006, the Carnegie Corporation of New York has sponsored the public awareness initiative to commemorate the legacy of its founder, Scottish immigrant Andrew Carnegie, who believed strongly in both immigration and citizenship.

“As we celebrate these 38 extraordinary individuals, we are reminded of the legacy of our founder, Andrew Carnegie, who showed the country how immigrants contribute to the great, unfinished story that is America,” said Vartan Gregorian, president of Carnegie Corporation of New York.

This article originally appeared in the UCLA Newsroom.

Photo of students on a study abroad program in Scotland.

Early graduation within reach for most bruins

 

Photo of students on a study abroad program in Scotland.

Students on a study abroad program in Scotland. Photo Credit: Michael Le

To her surprise, Qiyuan (Grace) Miao realized during her sophomore year that she could graduate a year early, allowing her to begin graduate school ahead of schedule.

Miao is one of many Bruins who choose to complete their undergraduate degrees in less than the traditional four years. Although on different academic paths, these students all share a common message: With good planning and by taking advantage of UCLA programs designed to reduce time to degree, almost anyone can graduate early.

Miao, who graduated in June, pointed to several opportunities at UCLA that enabled her to get ahead on her coursework and finish her communication degree in three years while still enjoying a full undergraduate experience.

Opportunities start freshman year

UCLA offers two intensive programs to introduce incoming students to campus and academic life: the Freshman Transfer Summer Program in the Academic Advancement Program, for students from underrepresented populations, and the College Summer Institute (CSI). Students in both programs take courses that fulfill graduation requirements, giving them a head start before their first fall quarter even begins.

CSI is where Miao first met with Brian Henry, an academic adviser who helped her map out her academic path — something all undergraduates are encouraged to do at least once a year. In advising sessions, students discuss their academic, personal and career goals and learn about opportunities to enrich their university experience. Academic counselors can also advise students on effective ways to maximize their time to degree if their goal is to graduate early.

Another way Miao optimized her time at UCLA was by taking a Freshman Cluster course, “Frontiers of Aging.” These are year-long general education courses offered on topics such as “Evolution of the Cosmos and Life” and “History of Modern Thought.” Each cluster, over the course of a year, satisfies four general education requirements and the Writing II requirement.

“Clusters are a great way to fulfill a lot of requirements very quickly,” Miao said.

UC’s study-abroad intensives

Graduating early doesn’t require students to sacrifice meaningful experiences outside of the classroom.  Michael Le, who graduated with a bachelor’s degree in neuroscience in winter 2019, one quarter early, was still able to study abroad one summer at the University of Glasgow, where UC offers an intensive three-course physics program over two months.

“I completed all three courses in a mere eight weeks, something that would [normally] take 30 weeks,” Le said. “This is an excellent way to get your study abroad ‘fix’ in and be efficient with course planning.”

Shrey Kakkar, a junior majoring in computer science, is on track to graduate one or two quarters early and said many of his peers could do the same, even in a demanding major like computer science. He credits his fast track to his commitment to enroll in four classes every quarter, plus one summer class.  And he still has had time for other activities such as doing research and working for a startup.

Fitting more into four years

Graduating early isn’t every student’s goal. For some, like Mac Casey, maximizing time to degree meant packing a lot into the traditional four years: He was in the rigorous College Honors program, studied abroad for a year, and graduated in 2016 with degrees in both political science and business economics.

“The faculty at UCLA are excellent, and I loved taking courses – the more courses the better,” Casey said. “I really wanted to learn as much as I could and interact with great faculty and researchers.”

Casey said that accomplishing so much in four years is not out of reach for most students. By choosing courses strategically and enlisting the expertise of his honors academic counselor, he was able to complete all his major requirements and stay on track.

Dean and Vice Provost of Undergraduate Education Patricia Turner said that although UCLA already does an excellent job of graduating students in a timely manner, she will continue to work with her faculty colleagues to develop new opportunities to allow students to graduate on time or early while still having a personalized, fully engaged undergraduate experience.

“A student’s undergraduate years are the perfect time to discover what they’re most passionate about,” Turner said. “Students who take advantage of credit-earning opportunities such as service learning, civic engagement and entrepreneurship often find themselves on career paths they otherwise might not have discovered. And because of the way these programs are designed, students can still graduate in four years or less.”

Photo of Richard Kaner, with Maher El-Kady, holding a replica of an energy storage and conversion device the pair developed.

Creating electricity from snowfall and making hydrogen cars affordable

Photo of Richard Kaner, with Maher El-Kady, holding a replica of an energy storage and conversion device the pair developed.

Richard Kaner, with Maher El-Kady, holding a replica of an energy storage and conversion device the pair developed. Photo credit: Reed Hutchinson

Professor Richard Kaner and researcher Maher El-Kady have designed a series of remarkable devices. Their newest one creates electricity from falling snow. The first of its kind, this device is inexpensive, small, thin and flexible like a sheet of plastic.

“The device can work in remote areas because it provides its own power and does not need batteries,” said Kaner, the senior author who holds the Dr. Myung Ki Hong Endowed Chair in Materials Innovation.“It’s a very clever device — a weather station that can tell you how much snow is falling, the direction the snow is falling and the direction and speed of the wind.”

The researchers call it a snow-based triboelectric nanogenerator, or snow TENG. Findings about the device are published in the journal Nano Energy.

The device generates charge through static electricity. Static electricity occurs when you rub fur and a piece of nylon together and create a spark, or when you rub your feet on a carpet and touch a doorknob.

“Static electricity occurs from the interaction of one material that captures electrons and another that gives up electrons,” said Kaner, who is also a distinguished professor of chemistry and biochemistry, and of materials science and engineering, and a member of the California NanoSystems Institute at UCLA. “You separate the charges and create electricity out of essentially nothing.”

Snow is positively charged and gives up electrons. Silicone — a synthetic rubber-like material that is composed of silicon atoms and oxygen atoms, combined with carbon, hydrogen and other elements — is negatively charged. When falling snow contacts the surface of silicone, that produces a charge that the device captures, creating electricity.

“Snow is already charged, so we thought, why not bring another material with the opposite charge and extract the charge to create electricity?” said El-Kady, assistant researcher of chemistry and biochemistry.

“After testing a large number of materials including aluminum foils and Teflon, we found that silicone produces more charge than any other material,” he said.

Approximately 30 percent of the Earth’s surface is covered by snow each winter, El-Kady noted, during which time solar panels often fail to operate. The accumulation of snow reduces the amount of sunlight that reaches the solar array, limiting their power output and rendering them less effective. The new device could be integrated into solar panels to provide a continuous power supply when it snows.

The device can be used for monitoring winter sports, such as skiing, to more precisely assess and improve an athlete’s performance when running, walking or jumping, Kaner said. It could usher in a new generation of self-powered wearable devices for tracking athletes and their performances. It can also send signals, indicating whether a person is moving.

The research team used 3-D printing to design the device, which has a layer of silicone and an electrode to capture the charge. The team believes the device could be produced at low cost given “the ease of fabrication and the availability of silicone,” Kaner said.

New device can create and store energy

Kaner, El-Kady and colleagues designed a device in 2017 that can use solar energy to inexpensively and efficiently create and store energy, which could be used to power electronic devices, and to create hydrogen fuel for eco-friendly cars.

The device could make hydrogen cars affordable for many more consumers because it produces hydrogen using nickel, iron and cobalt — elements that are much more abundant and less expensive than the platinum and other precious metals that are currently used to produce hydrogen fuel.

“Hydrogen is a great fuel for vehicles: It is the cleanest fuel known, it’s cheap and it puts no pollutants into the air — just water,” Kaner said. “And this could dramatically lower the cost of hydrogen cars.”

The technology could be part of a solution for large cities that need ways to store surplus electricity from their electrical grids. “If you could convert electricity to hydrogen, you could store it indefinitely,” Kaner said.

Kaner is among the world’s most influential and highly cited scientific researchers. He has also been selected as the recipient of the  American Institute of Chemists 2019 Chemical Pioneer Award, which honors chemists and chemical engineers who have made outstanding contributions that advance the science of chemistry or greatly impact the chemical profession.

Co-authors on the snow TENG work include Abdelsalam Ahmed, who conducted the research while completing his Ph.D. at the University of Toronto, and Islam Hassan and Ravi Selvaganapathy at Canada’s McMaster University, as well as James Rusling, who is the Paul Krenicki professor of chemistry at the University of Connecticut, and his research team.

More devices designed to solve pressing problems

Last year, Kaner and El-Kady published research on their design of the first fire-retardant, self-extinguishing motion sensor and power generator, which could be embedded in shoes or clothing worn by firefighters and others who work in harsh environments.

Kaner’s lab produced a separation membrane that separates oil from water and cleans up the debris left by oil fracking. The separation membrane is currently in more than 100 oil installations worldwide. Kaner conducted this work with Eric Hoek, professor of civil and environmental engineering.

Laure Murat roils the #MeToo debate in France

Photo of Laure Murat

Laure Murat. Photo: Courtesy of Laure Murat

In a recent book, Director of the UCLA Center for European and Russian Studies Laure Murat argues that #MeToo is the first serious challenge to patriarchy in modern times, and dismisses the current discussion of #MeToo in France as a polemical misdirection. Instead, she calls for a genuine debate on the issues of sexual harassment and assault that engages French young people, men and women, philosophers and intellectuals.

Born and raised in Paris, Murat is a well-known independent author and intellectual in France, but has lived and worked in the United States for the last 12 years, where she is a UCLA professor of French and Francophone studies. As a result, she has a unique perspective on #MeToo and its divergent receptions in the United States and France.

Focusing on the issues

Her book, Une révolution sexuelle? Réflexions sur l’après-Weinstein [A Sexual Revolution? Reflections on the Weinstein Aftermath], has fueled an ongoing rancorous debate about #MeToo in France, with Muratappearing on leading French television and radio shows to discuss the book, while also being interviewed by multiple French newspapers and online publications.

To give American readers an idea of the nature of the debate in France, some 100 well-known French women — including actress Catherine Deneuve — published an open letter in the left-leaning Le Monde that rejected the #MeToo movement and defended men’s “freedom to pester.”

The month before Une révolution sexuelle? was released, French journalist Eugénie Bastié of the conservative Le Figaro newspaper published Le Porc Émissaire: Terreur ou contre-révolution? [Blame the Pig: Terror or Counter-Revolution?], which decries the #MeToo movement for its supposed encouragement of victimization. Rightly or wrongly, one sentence in Bastié’s book has become emblematic of the French critique of #MeToo: “Une main aux fesses n’a jamais tué personne, contrairement aux bonnes intentions qui pavent l’enfer des utopies [A hand on someone’s ass never killed anyone, contrary to the good intentions that pave utopian hells].”

In fact, the views of Murat and Bastié were compared by Elisabeth Philippe of Bibliobs in an article titled Où vont les femmes après #MeToo? Le match Eugénie Bastié – Laure Murat [Where are women headed after #MeToo? The Eugénie Bastié – Laure Murat Competition].

Renewed dialogue for the young generation

Murat argues that polemics are preventing a real debate on the issues of sexual harassment and assault in France, as made clear in a translation of En France, #MeToo est réduit à une caricature pour éviter le débat [In France, #MeToo is being reduced to a caricature to avoid debate], a Mediapart.fr interview conducted by Marine Turchi:

Today, one could say that France is the country of the non-debate. I am struck by the intellectual void and the deliberate desire of the media to extinguish the issues by means of false polemics.

Instead of posing good questions, they rekindle the war of the sexes and clichés of “hysterical feminists” and “poor men,” they invoke masculinity and the freedom to pester, they feel sorry for men who sexually harass women on the subway, they discuss the excesses and possible ambiguities of #MeToo while they haven’t begun to discuss the heart of the problem. They oppose X and Y, right and left, for and against. …

Far from reanimating the war of the sexes, the #MeToo movement is, on the contrary, an exciting opportunity to understand and resolve the gulf between men and women, the gaps in consent, the sufferings of misunderstood sexuality, the logic of domination and abuse of power that poison personal and professional relationships. It’s the promise of renewed dialogue for the young generation. I really like the proposal of Gloria Steinem: eroticize equality (in other words, not violence and oppression).

The #MeToo debate is far from over in either the United States or France. Murat’s book offers new perspectives as the conversation continues.

Visit https://ucla.in/2J6rUZy to read this article with links to the letters, interviews and news coverage mentioned.

Professor’s latest book examines the history of cities

Photo of Monica Smith

Monica Smith. Photo credit: Paul Connor

The only thing a person really needs to be an archaeologist is a good sense of observation, UCLA professor of anthropology Monica Smith proclaims in her most recent book, “Cities: The First 6,000 Years.”

Advanced degrees and research experience are useful of course, but successful fieldwork is rooted in “noticing,” she said.

Archaeologists are always looking down noticing traces of what’s been left behind, and the stories detritus can tell, she said. These days at UCLA that might mean traces of glitter bombs launched by graduates during the last several weeks.

“We walk along and there’s all this glitter on the ground, and even though it gets cleaned away, you can never get it all so then you start to see little traces of glitter everywhere, because people are tracking it on their shoes all around campus,” Smith said. “We’re not only walking through an archaeological site, we’re making one.”

Smith is amused at the thought of future archaeologists encountering and interpreting the meaning behind those trace elements of shimmer in the dust around this particular area in one of Earth’s largest cities.

In vivid style, Smith’s latest book examines ways in which human civilization has organized itself into city life during the last 6,000 years, a relatively short time span in the grand scheme of human existence. Today, more than half of the world’s population resides in cities, and that number will continue to grow. But that wasn’t always so.

In “Cities,” Smith tracks the ways metropolitan hubs in different parts of the world emerged unrelated to one another, but in eerily similar forms, revealing the inherent similarities of humans’ needs regardless of what part of the world their civilization evolved.

“I started asking myself, ‘Why do these places all look the same even though they’re different times, different areas, different cultures and different languages?’” she said. “What is it about our human cognitive capacity that leads us to have the same form over and over and over again?”

She imagines how the first Spanish warriors to arrive in Cuzco in Peru, or Tenochtitlan in present day Mexico City, encountered the layout of ancient Inca and A

ztec cities, with shops and open squares and marketplaces resembling what they would see at home — despite the cultures never having had contact before.

“The similarities suggest that humans developed cities because it was the only way for a large number of people to live together in a single place where they could all get something new they wanted, whether that was a job, entertainment, medical care or education,” Smith said.

For the purposes of her analysis, Smith defines a city as a place with a dense population of multiple ethnicities; a diverse economy with an abundant variety of readily available goods; buildings and spaces of religion or ritual; a vertical building landscape that encompasses residential homes, courts, schools and government offices; formal entertainment venues; open grounds and multipurpose spaces; broad avenues and thoroughfares for movement.

Before cities, the human population was scattered across larger agrarian swaths, with families having everything they needed to survive in their own homes. People would come together for trading festivals or sacred ceremonies. These most likely began to last longer and longer, Smith said, creating a permanent collective settlement around places conducive to providing food, water, shelter and entertainment. Humans essentially took the bold step of living away from their immediate food supply to live in cities among larger groups of other humans.

Takeout food vendors have been a staple of cities stretching about as far back as you can get, with evidence of takeout food in ancient cities like Pompeii and Angkor, Smith notes in her book.

And cities allowed for the evolution of all kinds of new jobs and enterprises — bookkeeping, the service industry and managers — constituting a newly emergent middle class that found new opportunities to thrive in dense populations.

Some aspects of city life accelerated long-standing tendencies. Humans are a unique species in the animal kingdom due to our deep dependence on objects, a fact that aids archeologists in their work of noticing. Ancient cities also struggled with some of the same things we do in modern times — trash for example, Smith said.

“We think of ourselves as bad modern people because we have all this trash,” Smith said. “But everyone everywhere has trash. Ancient cities are full of trash. Modern cities are full of trash because people want more stuff.”

Archaeologists are obsessed with trash, Smith said. They learn much and encounter new questions from what was considered disposable to our ancestors.

Smith’s book also offers a descriptive window into day-to-day life on an archaeological dig, sharing challenges and the excitement of new technologies that help identify potential dig sites. People working to excavate subway tunnels and building foundations in modern Athens, Rome, Mexico City, Istanbul, Paris and other places are constantly finding new evidence of these metropolises’ earliest incarnations.

Much like current generations of young adults and children who cannot imagine a world without the internet, cities are here to stay, Smith said.

“From this point forward, there is no way that humans can live without urbanism, there is no ‘going back to the land,’” she said. “We can take a sort of comfort in the fact that the challenges we face like infrastructure, transportation, water sourcing, pollution and trash have essentially been a part of city life from the very beginning.”

Smith said one of the goals of her writing is to inspire people to think of cities as dynamic and adaptable.

“We can work to make cities not only more efficient, but more equitable, in the sense of social justice and greater opportunities for larger numbers of people, along with greater diversity,” she said. “Cities are not just inherited configurations, but are places with potential for growing into the better societies that we wish for ourselves and others.”

This article originally appeared in the UCLA Newsroom.

The stone faces and human problems on Easter Island

Photo of Jo Anne Van Tilburg, right, and Cristián Arévalo Pakarati.

Jo Anne Van Tilburg, right, and Cristián Arévalo Pakarati. Photo credit: Easter Island Statue Project

In 1981, archaeology graduate student Jo Anne Van Tilburg first set foot on the island of Rapa Nui, commonly called Easter Island, eager to further her interest in rock art by studying the iconic stone heads that enigmatically survey the landscape.

At the time, Van Tilburg was one of just a few thousand people who would visit Rapa Nui each year. Although the island remains one of the most remote inhabited islands in the world, a surge in visitors has placed its delicate ecosystem and archaeological treasures in jeopardy.

“When I went to Easter Island for the first time in ’81, the number of people who visited per year was about 2,500,” said Van Tilburg, director of the Easter Island Statue Project, the longest collaborative artifact inventory ever conducted on the Polynesian island that’s part of Chile. “As of last year the number of tourists who arrived was 150,000.”

Journalist Anderson Cooper interviewed Van Tilburg on the island for a segment that aired Easter Sunday on CBS’ 60 Minutes. Cooper spoke with Van Tilburg about efforts to preserve the moai (pronounced MO-eye) — the monolithic stone statues that were carved and placed on the island from around 1100 to 1400 and whose stoic faces have fascinated the world for decades. In 1995, UNESCO named Easter Island a World Heritage Site, with much of the island protected within Rapa Nui National Park.

Van Tilburg, who is research associate at the UCLA Cotsen Institute of Archaeology and director of UCLA’s Rock Art Archive since 1997, was the first archaeologist since the 1950s to obtain permission to excavate the moai, granted from Chile’s National Council of Monuments and the Rapa Nui National Park, with the Rapa Nui community and in collaboration with the National Center of Conservation and Restoration, Santiago de Chile.

She has spent nearly four decades listening, learning, establishing connections, making covenants with the elders of Rapanui society and reporting extensively on her findings. Major funding has been provided by the Archaeological Institute of America Site Preservation Fund.

“I think my patience and diligence were rewarded,” she said. “They saw me all those years getting really dirty doing the work.”

Photo of Anderson Cooper of 60 Minutes interviews Van Tilburg.

Anderson Cooper of 60 Minutes interviews Van Tilburg. Photo credit: Keith Sharman.

Bringing together research and teaching

Van Tilburg credits the sustained support of UCLA’s Cotsen Institute as critical to her work on the island. She regularly includes both UCLA undergraduates from a variety of academic disciplines and passionate volunteers in the hands-on work on Rapa Nui.

Van Tilburg, who received her doctorate in archaeology from UCLA in 1989, is working on a book project that will harness her massive archive as an academic atlas of the island. She used the proceeds of a previous book to invest in local businesses, the Mana Gallery and Mana Gallery Press, both of which highlight indigenous artists. She also helped the local community rediscover their canoe-making history through the 1995 creation of the Rapa Nui Outrigger Club.

Her co-director on the Easter Island Statue Project, Cristián Arévalo Pakarati, is Rapanui and a graphic artist by trade. Van Tilburg exclusively employs islanders for her excavation work. She’s traveled the world helping catalog items from the island that are now housed in museums like the Smithsonian in Washington, D.C., and the British Museum in London. Van Tilburg does this to assist repatriation efforts.

Culture and environment at risk

Her work is important to the 5,700 residents of the island, who also are coping with increasing waves of tourists into their fragile ecosystem, Van Tilburg said. Only in the last decade or so have they been given governance of the national park where the moai are located.

“But by Rapa Nui standards, on an island where electricity is provided by a generator, water is precious and depleted, and all the infrastructure is stressed, 150,000 annual visitors is a mob,” she said.

What’s more disheartening are travelers who ignore the rules and climb on the moai, trample preserved spaces and sit on top of graves, all in service of getting a photo of themselves picking the nose of an ancient artifact, Van Tilburg said.

Hierarchy and inequity in Rapanui society

Van Tilburg’s original impetus behind studying the moai is rooted in her curiosity about migration, marginalized people and how societies rise and fall.

Rapanui society was traditionally hierarchical, led by a class of people who believed themselves God-appointed elites. These leaders dictated where the lower classes could live and how they would work to provide food for the elites and the population at large.

The ruling class also determined how and when the moai – used as the backdrop for exchange and ceremony – would be built.

“This inherently institutionalized religious hierarchy produced an inequitable society,” Van Tilburg said. “They were very successful in the sense that their population grew. But they were unsuccessful at understanding that unless they managed what they had better, and more fairly, that there was no future.”

Population growth and rampant inequity in a fragile environment eventually led to wrenching societal changes, she said. Internal collapse (as outlined in UCLA professor Jared Diamond’s book Collapse), along with colonization and slave-trading in the 1800s, caused the population of Rapa Nui to drop to just 111 in the 1870s.

As an anthropologist, Van Tilburg is concerned with equity.

“I’m interested in asking why we keep replicating societies in which people are not equal, because in doing so, we initiate a crisis,” she said. “Inequity is at the heart of our human problems.”

4d graphic rendering of iron-platinum nanoparticle

Atomic motion is captured in 4D for the first time

4d graphic rendering of iron-platinum nanoparticle

The image shows 4D atomic motion captured in an iron-platinum nanoparticle at three different times.
Credit: Alexander Tokarev

Results of UCLA-led study contradict a long-held classical theory

Everyday transitions from one state of matter to another — such as freezing, melting or evaporation — start with a process called “nucleation,” in which tiny clusters of atoms or molecules (called “nuclei”) begin to coalesce. Nucleation plays a critical role in circumstances as diverse as the formation of clouds and the onset of neurodegenerative disease.

A UCLA-led team has gained a never-before-seen view of nucleation — capturing how the atoms rearrange at 4D atomic resolution (that is, in three dimensions of space and across time). The findings, published in the journal Nature, differ from predictions based on the classical theory of nucleation that has long appeared in textbooks.

“This is truly a groundbreaking experiment — we not only locate and identify individual atoms with high precision, but also monitor their motion in 4D for the first time,” said senior author Jianwei “John” Miao, a UCLA professor of physics and astronomy, who is the deputy director of the STROBE National Science Foundation Science and Technology Center and a member of the California NanoSystems Institute at UCLA.

Research by the team, which includes collaborators from Lawrence Berkeley National Laboratory, University of Colorado at Boulder, University of Buffalo and the University of Nevada, Reno, builds upon a powerful imaging techniquepreviously developed by Miao’s research group. That method, called “atomic electron tomography,” uses a state-of-the-art electron microscope located at Berkeley Lab’s Molecular Foundry, which images a sample using electrons. The sample is rotated, and in much the same way a CAT scan generates a three-dimensional X-ray of the human body, atomic electron tomography creates stunning 3D images of atoms within a material.

Miao and his colleagues examined an iron-platinum alloy formed into nanoparticles so small that it takes more than 10,000 laid side by side to span the width of a human hair. To investigate nucleation, the scientists heated the nanoparticles to 520 degrees Celsius, or 968 degrees Fahrenheit, and took images after 9 minutes, 16 minutes and 26 minutes. At that temperature, the alloy undergoes a transition between two different solid phases.

Although the alloy looks the same to the naked eye in both phases, closer inspection shows that the 3D atomic arrangements are different from one another. After heating, the structure changes from a jumbled chemical state to a more ordered one, with alternating layers of iron and platinum atoms. The change in the alloy can be compared to solving a Rubik’s Cube — the jumbled phase has all the colors randomly mixed, while the ordered phase has all the colors aligned.

In a painstaking process led by co-first authors and UCLA postdoctoral scholars Jihan Zhou and Yongsoo Yang, the team tracked the same 33 nuclei — some as small as 13 atoms — within one nanoparticle.

“People think it’s difficult to find a needle in a haystack,” Miao said. “How difficult would it be to find the same atom in more than a trillion atoms at three different times?”

The results were surprising, as they contradict the classical theory of nucleation. That theory holds that nuclei are perfectly round. In the study, by contrast, nuclei formed irregular shapes. The theory also suggests that nuclei have a sharp boundary. Instead, the researchers observed that each nucleus contained a core of atoms that had changed to the new, ordered phase, but that the arrangement became more and more jumbled closer to the surface of the nucleus.

Classical nucleation theory also states that once a nucleus reaches a specific size, it only grows larger from there. But the process seems to be far more complicated than that: In addition to growing, nuclei in the study shrunk, divided and merged; some dissolved completely.

“Nucleation is basically an unsolved problem in many fields,” said co-author Peter Ercius, a staff scientist at the Molecular Foundry, a nanoscience facility that offers users leading-edge instrumentation and expertise for collaborative research. “Once you can image something, you can start to think about how to control it.”

The findings offer direct evidence that classical nucleation theory does not accurately describe phenomena at the atomic level. The discoveries about nucleation may influence research in a wide range of areas, including physics, chemistry, materials science, environmental science and neuroscience.

“By capturing atomic motion over time, this study opens new avenues for studying a broad range of material, chemical and biological phenomena,” said National Science Foundation program officer Charles Ying, who oversees funding for the STROBE center. “This transformative result required groundbreaking advances in experimentation, data analysis and modeling, an outcome that demanded the broad expertise of the center’s researchers and their collaborators.”

Other authors were Yao Yang, Dennis Kim, Andrew Yuan and Xuezeng Tian, all of UCLA; Colin Ophus and Andreas Schmid of Berkeley Lab; Fan Sun and Hao Zeng of the University at Buffalo in New York; Michael Nathanson and Hendrik Heinz of the University of Colorado at Boulder; and Qi An of the University of Nevada, Reno.

The research was primarily supported by the STROBE National Science Foundation Science and Technology Center, and also supported by the U.S. Department of Energy.

This story originally appeared in the UCLA Newsroom.