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Saturday, March 18, 2023

New study suggests a strong link between social entrepreneurship and language

STRATEGIC MANAGEMENT SOCIETY

The rise in social entrepreneurship over the last 20 years denotes a major global economic and political movement. Social entrepreneurs generate substantial positive outcomes, but while they make up 2% or more of GDP in countries like Canada, Australia and the UK, many other societies have a shortage of them. A recent study from a special issue of the Strategic Entrepreneurship Journal (SEJ) suggests the reason why might depend on language.

“Individuals speaking languages with strong future time references see future rewards and challenges as more distant,” said Diana M. HechavarrÍa, and associate professor of management at Texas Tech University and one of the study’s authors. “That mindset fosters social entrepreneurship because it places a strong value on obtaining immediate results for social issues while discounting long-term costs.”

HechavarrÍa partnered with Steven A. Brieger (University of Sussex), Ludvig Levasseur (Indian Institute of Bangalore), Siri A. Terjesen (Florida Atlantic University), all experts in entrepreneurship and international business, to study the effects of language and institutional uncertainty on social entrepreneurship. Using a sample of 205,792 individuals in 70 countries with 39 languages, they controlled for 13 individual- and country-level characteristics related to social entrepreneurship including gender, age, education, income and start-up skills.

The researchers used multilevel logistic modelling to estimate each dependent variable within and between countries and found that the odds of engaging in early-stage innovative social entrepreneurship almost doubled in futured-language speaking societies (i.e. languages that modify verbs to indicate the future instead of relying on context). The probability that an individual is a social entrepreneur also increased when there was weak rule of law, weak property rights and strong corruption within a future-speaking country.

“Countries where a state arbitrarily applies laws and rules, suppresses individual rights or threatens certain social groups by confiscating their property tend to have greater social problems, and there are just more opportunities for individuals to enhance societal well-being,” said Brieger.

The SEJ study notes that these factors have differing effects on commercial entrepreneurs, who favor more long-term oriented mindsets and more predictable business and social environments with strong institutions.

“Strong future time reference speakers see longstanding social problems as urgent dilemmas rather than long-term goals,” said Terjesen. “They perceive the future as uncertain and may feel more urgency when it comes to engaging in social entrepreneurship to address those dilemmas.”

Though the results seem logical, experts across the field have long debated what specifically drives a social entrepreneurial mindset. Before the onset of their research, the authors had hypothesized that societies with strong social institutions might place a higher value on social value creation, resulting in more social entrepreneurship. They also noted that the idea that language has an impact on shaping thought has faced unpresented vacillation in acceptance.

“The study provides evidence that an individual’s subjective conception of time has an important impact on their social entrepreneurial action,” said Levasseur. “Moreover, a language’s grammatical representation of time affects their conception of it.”

While the social entrepreneurship field certainly merits more research, this particular study suggests that perceptions of time — and specifically the idea of urgency — play a high motivating factor for social entrepreneurship. It also suggests that language has been overlooked as a means of understanding strategic entrepreneurial behaviors.

The Strategic Entrepreneurship Journal (SEJ), published by the Strategic Management Society, is targeted at publishing the most influential managerially oriented entrepreneurship research in the world. It is a research journal that publishes original work recommended by a developmental, double-blind review process conducted by peer scholars. Strategic entrepreneurship involves innovation and subsequent changes which add value to society, and which change societal life in ways that have significant, sustainable, and durable consequences.

JOURNAL

Strategic Entrepreneurship Journal

DOI

10.1002/sej.1450

METHOD OF RESEARCH

Data/statistical analysis

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

Cross-cultural implications of linguistic future time reference and institutional uncertainty on social entrepreneurship

FAU Harbor Branch receives $2.8 million gift to create a queen conch farm in Grand Bahama

Grant and Award Announcement

FLORIDA ATLANTIC UNIVERSITY

Queen Conch Farm in Grand Bahama — IMAGE: (LEFT TO RIGHT, TOP ROW) JOE THOMAS; NAKO BRICE; SHERVIN TATE; MEGAN DAVIS; PH.D., RANDY RECKLEY; AND LEROY GLINTON. (LEFT TO RIGHT, BOTTOM ROW): GAIL WOON, EARTHCARE; CRISTINA ZENATO; TEREHA DAVIS; JEWEL BENEBY, BAHAMAS NATIONAL TRUST IN GRAND BAHAMA. view more
CREDIT: JEWEL BENEBY

Florida Atlantic University Harbor Branch Oceanographic Institute has received $2.8 million to establish a queen conch hatchery in Grand Bahama. This support expands FAU Harbor Branch’s extensive aquaculture and food security program focused on replenishing queen conch populations throughout the Caribbean. It also enables development of a conceptual master plan for a 25-acre innovation hub on Grand Bahama for researchers working to solve issues of island sustainability.

The project is built on a network of collaborations to secure local support and participation. FAU Harbor Branch will partner with the Bahamian community of Grand Bahama on a pilot-scale queen conch aquaculture farm led by Megan Davis, Ph.D., a research professor, FAU Harbor Branch Aquaculture and Stock Enhancement, and the world’s leading expert on queen conch aquaculture with 40 years of research in the field. Prized for its iconic spiral shell and meat, the species is considered the cornerstone of the Bahamian culture and economy. Through partnerships, the project leads envision developing new economic and environmental opportunities for the community, along with helping to replenish queen conch populations.

“We’re extremely grateful to Builders Initiative for their generous support of our queen conch restoration efforts,” said FAU President Stacy Volnick. “FAU Harbor Branch’s work in aquaculture is helping to meet the growing global demand for food, thanks to partners like Builders Initiative who share our belief in sustainable solutions to environmental challenges.”

This summer, the project will begin with a mobile queen conch lab where scientists, with assistance from Bahamian staff and interns, will grow queen conch from their egg stage to juveniles. It will be located at Coral Vita, a commercial coral farm working to restore coral reefs, which will share resources with FAU Harbor Branch.

Blue Action Lab is a key strategic partner, assisting with permits, negotiations, and other collaborator relationships. Other partners include the Bahamas National Trust, the University of The Bahamas, the Perry Institute of Marine Science, and The Nature Conservancy, which will provide expertise on habitat mapping for conch breeding sites in seagrass beds.

“Having a hatchery operating in the community with full participation from the community will be a great way to not only increase knowledge and awareness of the life cycle of the conch, but it will also allow the opportunity to build relationships, technical skills and solutions together,” said Catherine Booker, program coordinator with the Bahamas National Trust.

The project also will provide research internships for students at the University of The Bahamas and ecotourism opportunities.

Megan Davis, Ph.D., shows queen conch at various developmental stages in The Bahamas

CREDIT

H. Forrest Thomas

Similar opportunities would come about through the 25-acre innovation hub. Known as Conservation Cove, it will be located on 25 acres on Grand Bahama, and it is envisioned to include a tropical aquaculture park, an aquarium, research and education hub, co-working spaces, and a hospitality center. FAU’s MetroLAB Design Collaborative, comprising FAU’s School of Architecture and Harbor Branch, will work with Blue Action Lab on the master plan.

The Grand Bahama queen conch hatchery is the fifth such FAU partnership project to restore the queen conch throughout the Caribbean. FAU Harbor Branch has been working on restoration efforts since 2016 and has established other queen conch farms in Puerto Rico, Curacao, and Great Exuma, Bahamas.

“Our FAU Harbor Branch Queen Conch Lab team together with our partners are making strides to fulfill the vision of a conch farm in every Caribbean nation,” said Davis. “There has never been a more important time to help communities grow queen conch for the sake of the species, ecosystem, and the people who depend on the fishery.”

This support from Builders Initiative, the philanthropic team of Builders Vision, is the largest gift from a private funder to FAU Harbor Branch’s queen conch program. Builders Initiative invests and collaborates with people and organizations working toward sustainable solutions in the areas of food and agriculture, climate and energy, oceans, and community.

“Builders Initiative is thrilled to be an anchor funder of Florida Atlantic University’s innovative program to establish conch aquaculture hatchery facilities across the Caribbean,” said Peter Bryant, oceans program director at Builders Initiative. “We’re committed to accelerating restorative aquaculture solutions in The Bahamas, and this project is a cornerstone of our program, one that will restore conch populations in The Bahamas while also providing benefits to local communities.”

- FAU -

About Florida Atlantic University:
Florida Atlantic University, established in 1961, officially opened its doors in 1964 as the fifth public university in Florida. Today, the University serves more than 30,000 undergraduate and graduate students across six campuses located along the southeast Florida coast. In recent years, the University has doubled its research expenditures and outpaced its peers in student achievement rates. Through the coexistence of access and excellence, FAU embodies an innovative model where traditional achievement gaps vanish. FAU is designated a Hispanic-serving institution, ranked as a top public university by U.S. News & World Report and a High Research Activity institution by the Carnegie Foundation for the Advancement of Teaching. For more information, visit www.fau.edu.

About Builders Initiative
Builders Initiative is the philanthropic team for Builders Vision, an impact platform dedicated to supporting people and organizations building a more humane and healthy planet through philanthropy, investment, and advocacy. Builders Initiative, through the Builders Initiative Foundation, DAFs, and an impact LLC, invests in and collaborates with non-profits, businesses, and others working toward sustainable solutions to societal and environmental problems across four primary impact areas: Food and Agriculture, Climate and Energy, Oceans, and Community. Learn more at buildersinitiative.org.

Visually navigating on foot uses unique brain region

Occipital place area supports visually guided navigation, but only when walking; not crawling

Peer-Reviewed Publication

NIH/NATIONAL EYE INSTITUTE

Views from walking, crawling, or flying. — IMAGE: WATCHING VIDEOS FROM THE PERSPECTIVE OF WALKING (TOP LEFT) ELICITED ACTIVITY IN THE OCCIPITAL PLACE AREA, WHILE WATCHING VIDEOS FROM THE PERSPECTIVE OF CRAWLING (TOP RIGHT), FLYING (BOTTOM LEFT), OR SCRAMBLED (BOTTOM RIGHT) DID NOT. view more
CREDIT: IMAGES COURTESY OF DILKS, JONES, AND BYLAND.

Using vision to efficiently move through an area by foot uses a unique region of the brain’s cortex, according to a small study funded by the National Eye Institute (NEI). The region, called the occipital place area (OPA), fails to activate during other modes of moving, such as crawling. The finding may help explain developmental milestones as children learn to interact with and navigate their near environments. The study published in the journal Cerebral Cortex. NEI is part of the National Institutes of Health.

Navigating through a physical environment – anything from a small room to a city -- requires the brain to process several classes of information. Each class of information is processed in its own region of the brain’s cortex, which then work together to support navigation behavior, such as walking. Loss of any one of these regions can affect how or whether someone can successfully navigate.

Two main areas of the cortex are activated as people navigate through an environment: the OPA and the retrosplenial complex (RSC). Daniel Dilks, Ph.D., Emory University, Atlanta, theorizes that each of these areas supports a different kind of navigation. The RSC supports map-based navigation, which involves finding our way from a specific place to some distant, out-of-sight place (for example, finding our way from your house to your favorite restaurant). By contrast, he believes the OPA supports visually guided navigation, which involves finding our way through near environment, avoiding boundaries and obstacles (for example, moving through your kitchen without bumping into things).

However, his theory has been controversial, in part because the OPA doesn’t appear to support visually guided navigation until around 8 years of age. Yet children somehow manage to get around their homes and schools long before that time – even from the earliest ages, when they crawl rather than walk.

“We asked ourselves, does the OPA come on early but just mature slowly?” Dilks said. “Or does crawling use an entirely different system?”

While most adults and older children primarily navigate environments by walking, we retain the ability to crawl as we did in infancy. If OPA just matured slowly, then it should be activated by both modes of movement, Dilks reasoned. So, he and students Christopher Jones and Joshua Byland set out to discover whether the OPA would activate in adults when crawling.

To test this, the scientists recorded videos from the perspective of someone walking through an environment, and then similar videos from the perspective of someone crawling through that same environment. They also patched together random shots of the videos (scrambled) and took videos from a flying-over-the-environment perspective, to include a mode of navigation not accessible to humans.

When viewing videos, our brains often activate as if we were performing the activity ourselves – a sympathetic response that made Dilks’ experiment possible. Using functional magnetic resonance imaging (fMRI), the researchers were able to monitor the activation of brain regions in 15 adult study participants as they were viewing each video and imagining themselves moving through the environment.

When the participants viewed the walking video, the region of the brain corresponding to the OPA was activated. But when they viewed the other videos – crawling, flying, or scrambled, OPA was not activated. In contrast, the RSC was activated when viewing all the videos, suggesting that only OPA is specific for walking, as opposed to other modes of visual navigation.

In addition, several other brain areas were activated when the participants viewed the crawling videos, suggesting additional regions that may be involved in navigation early in life.

“Not only does this study suggest that there’s a completely different brain system managing navigation in early versus late childhood, but it suggests that each of these pieces of the navigation system come on at different stages of development,” Dilks said. “Based on our study, we think OPA is specifically tied to mature, efficient walking.”

The study was funded by the National Eye Institute (R01 EY29724).

Reference: Jones CM, Byland J, and Dilks DD. “The occipital place area represents visual information about walking, not crawling.” Cerebral Cortex, March 15, 2023.

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This press release describes a basic research finding. Basic research increases our understanding of human behavior and biology, which is foundational to advancing new and better ways to prevent, diagnose, and treat disease. Science is an unpredictable and incremental process— each research advance builds on past discoveries, often in unexpected ways. Most clinical advances would not be possible without the knowledge of fundamental basic research. To learn more about basic research, visit https://www.nih.gov/news-events/basic-research-digital-media-kit.

NEI leads the federal government’s research on the visual system and eye diseases. NEI supports basic and clinical science programs to develop sight-saving treatments and address special needs of people with vision loss. For more information, visit https://www.nei.nih.gov.

About the National Institutes of Health (NIH): NIH, the nation’s medical research agency, includes 27 Institutes and Centers and is a component of the U.S. Department of Health and Human Services. NIH is the primary federal agency conducting and supporting basic, clinical, and translational medical research, and is investigating the causes, treatments, and cures for both common and rare diseases. For more information about NIH and its programs, visit https://www.nih.gov/.

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