1 / 26

Agglomeration Economies and Business Startups on Native American Tribal Areas

Agglomeration Economies and Business Startups on Native American Tribal Areas. Christopher S. Decker, Ph.D. Department of Economics University of Nebraska – Omaha And David T. Flynn Director, Bureau of Business and Economic Research & Department of Economics University of North Dakota

paula-mcknight
Download Presentation

Agglomeration Economies and Business Startups on Native American Tribal Areas

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Agglomeration Economies and Business Startups on Native American Tribal Areas Christopher S. Decker, Ph.D. Department of Economics University of Nebraska – Omaha And David T. Flynn Director, Bureau of Business and Economic Research & Department of Economics University of North Dakota Association for University and Business Research Annual Conference Indianapolis, IN October, 2011

  2. Motivation • Long-term phenomenon: Poverty rates are higher in non-metropolitan than metropolitan regions (Fisher, 2007) • On Native American Indian reservations poverty rates can be triple the national average (Benson, Lies, Okunde, and Wunnava, 2011) • Recent (anecdotal) evidence identifying several instances of successful enterprises on Native American Indian reservations of the Great Plains (Clement, 2006)

  3. Questions • What are the determinants of business startups on Native American Indian reservation areas? • How does this compare with non-Native American rural areas? • Focus: the role “Information Technology” agglomeration (IT agglomeration) plays • Focus: State of South Dakota

  4. Why South Dakota? • Home to many Native American tribes • Cheyenne River, Pine Ridge, Rosebud, Yankton, Lower Brule, Crow Creek, and parts of the Standing Rock and Sesseton • Boundaries (roughly) follow county lines • According to Leichenko (2003) • Much of the available data is county-level • Native American counties in South Dakota historically among the poorest in the nation • Yet, they have experienced substantial improvement in recent years • Example: Shannon County (Pine Ridge Sioux)

  5. Native American Rural Counties: Leichenko (2003)

  6. Annual Growth in Business Starts – County Aggregates (NETS)

  7. Share of Rural Startups Located in Native American Counties (NETS)

  8. Business Startups in Native American Counties: 2000 - 2007 (NETS)

  9. Business Startups and Agglomeration Economies • A common reason for lackluster growth in rural economies has been that they tend to lack agglomeration economies (Gabe, 2003, 2004; Carlino, 1980) • Lack ready access to productive capital • Limited access to educated, skill-relevant and experienced labor force • Limited transportation and communication infrastructure

  10. Recent Research and Agglomeration • Yet, evidence suggests some substantial growth in rural business starts • Recent research (e.g. Decker, Thompson, and Wohar, 2009; Domazlicky and Weber, 2006; Latzko, 2002) suggests that traditional measure of agglomeration (such as population density, etc.) may be playing a less critical role in regional economic development

  11. Perhaps a Refined Measure of Agglomeration Would be Helpful • Clement (2006): examples of new Native American businesses that exploit Computing and Information Technology (IT) to promote consumer outreach and sales growth • Suggests that local economies taking advantage of IT development • Inexpensive computing equipment • IT labor skills more prevalent, easier to acquire • Software written to be more generally accessible and relevant to a broad number of industries • Can lead to greater geographic dispersion of IT-related capital and labor skills

  12. “IT” Agglomeration • Le Bas and Miribel (2005) constructed an IT Agglomeration measure • Identified industries which appear to rely heavily upon, or have increased their usage of IT and IT-related inputs in recent years • Found that IT Agglomeration significantly enhanced labor productivity in existing firms

  13. Le Bas and Miribel’s IT agglomeration • Based on employment data by industry • Comprised of a variety of different sectors • Computer & electronics, wholesale trade, information services, financial services, professional services, educational services • Common concentration measure (used in our paper) : IT “Location Quotient”

  14. Model Variables • Model variables and construction follow Gabe (2003, 2004) • Dependent variable • STARTi,t – new business starts in county i, year t • Independent Variables (one year lag) • IT_LQi,t-1 – IT Location quotient (+) • ESTABi,t-1 – number of establishment in operation (+) • TAX_INCi,t-1 - ratio of tax revenue to personal income (-) • SPEND_POP-,t-1 – government spending per capita (+) • WAGE_WAGESDi,t-1– relative per capita wages in county i to SD (-) • NL_NLSDi,t-1– relative non labor costs to SD (-)

  15. The General Model • Note: independent variables enter estimation in natural log form to facilitate interpretation of coefficients as elasticities

  16. The DATA…. • Covers the period 1990 to 2007 annually • STARTS, ESTAB, all employment data – National Establishment Time-Series database (NETS) – Walls and Associates • Population and income data – Regional Economic Information Service (REIS) – BEA • Tax revenue and government spending data – Census of Governments (various years)

  17. The DATA…. • Two panel data sets • Native American Counties • South Dakota Rural, non-Native American Counties

  18. The DATA…. • Native American Counties • 1990 - 2007 • Average number of Starts: 185 • Average number of Establishments: 2,971 • Non-Native American Counties • 1990 - 2007 • Average number of Starts: 3,421 • Average number of Establishments: 49,280

  19. Estimation Procedure • Following Gabe (2003) – model STARTS using models applicable to count data • Poisson vs. Negative Binomial • Fixed Effects vs. Random Effects • OLS – dependent variable: ln(STARTS/ESTAB) • Not uncommon • Intuitive appeal • Restricts ESTAB’s effect to be unit elastic

  20. Estimation & Specification • Wu-Hausman test favors the Fixed Effects model over the Random Effects model • Count models: • Poisson – conditional mean = conditional variance • Restriction caused by the model • Negative Binomial (NB) – conditional mean > conditional variance • Applicable when data is over-dispersed • Failure to account for over-dispersion can lead to inflated standard errors • Likelihood Ratio tests favor NB

  21. NB model estimation results

  22. OLS Results: ln(STARTS/ESTAB)

  23. Preliminary Research Extensions • Startups don’t necessarily translate into regional success • Survival characteristics of rural businesses versus metropolitan area businesses • Agglomeration economies (as traditionally defined) would favor metropolitan concerns • Survival characteristics of Native American rural businesses versus non-Native American rural businesses • Reasons for difference? Perhaps minority access to financial capital?

  24. Rural vs. Metropolitan Area (NETS) • Rural survival rates higher than metro (reg1 = rural)

  25. Native American versus non-Native American (NETS) • Nat. Am. survival rates higher than non-Nat. Am.

  26. Conclusion • IT Agglomeration seems to stimulate business startups • Marginal impact higher in Native American Indian Counties • Survival characteristics of rural vs. metro businesses in SD • Survival characteristics of Native American vs. non-Native American rural businesses • Full-parametric analysis would be helpful.

More Related