Carlos Castillo-Chavez

Castillo-Chavez came to the United States from Mexico in 1974, at the age of 22. He began working at a cheese factory in Wisconsin to support himself. He then returned to his mathematics studies by applying to the University of Wisconsin–Stevens Point, where he graduated in 1976, with dual degrees in Math and Spanish literature.[4] He continued his MS in Mathematics at University of Wisconsin–Milwaukee.[5] He holds a Ph.D. in mathematics from the University of Wisconsin–Madison (1984). Prior to moving to Arizona State University in 2004, he spent 18 years as a professor at Cornell University. He has published scientific articles and books, and served on panels and committees for organizations such as the National Science Foundation, the Alfred P. Sloan Foundation, the National Institutes of Health, Society for Industrial and Applied Mathematics, and the American Mathematical Society.[6]

His research interests, as a mathematical epidemiologist, relate to the mechanisms underlying the spread of disease, and their containment, prevention of spread and elimination. In 2006, Arizona State University described him as one of the most prominent mathematicians in the country, an expert in epidemiological modeling, and among the top research contributors to literature on the progression of diseases.[7]

His 50 PhD students include 20 women, 29 from US underrepresented groups and 7 from Latin America.[8] He has been a research co-mentor to over 500 undergraduates-most though the Mathematical and Theoretical Biology Institute or MTBI^[9] that he founded in 1996. Recognized by his mentoring and motivational skills, Prof. Carlos Castillo-Chavez has inspired hundred of students to become also mentors and dedicate efforts for service to others.[9] He has received recognitions for his work on enhancing prospects for academic success and providing research opportunities for underrepresented groups in mathematics and biology.[10] An inspiring letter mentions Carlos Castillo-Chavez as a rockstar researcher and a selfless mentor.[11]

• Three White House Awards (1992, 1997, and 2011). His program MTBI received the Presidential Awards for Excellence in Science, Mathematics and Engineering Mentoring (PAESMEM)[12][13]
• The 12th American Mathematical Society Distinguished Public Service Award in 2010.[14]
• The 2007 Mentor Award from the American Association for the Advancement of Science (AAAS).[15]
• The 17th recipient of the SIAM Prize for Distinguished Service to the Profession[16]
• He was a member of the Board of Higher Education at the National Academy of Sciences (2009-2015) and served in President Barack Obama Committee on the National Medal of Science (2010-2015).[17][18]
• He is a fellow of the AAAS (American Association for the Advancement of Science); SIAM (Society for Industrial and Applied Mathematics); Founding Fellow of the AMS (American Mathematical Society; and ACE (American College of Epidemiology)[19]
• He has held honorary Professorships at Xi’an Jiatong University in China, the Universidad de Belgrano in Argentina and East Tennessee State University. Past appointments include a Stanislaw M. Ulam Distinguished Scholar at Los Alamos National Laboratory, a Cátedra Patrimonial at UNAM in México, and a Martin Luther King Jr. Professorship at MIT.[20]
• On February 24, 2016, the University Francisco Gavidia inaugurated the Centro de Modelaje Matemático Carlos Castillo-Chavez, in the City of San Salvador, in El Salvador.[21]
• Castillo-Chavez serves in NSF’s Advisory Committee for Education and Human Resources (2016-2019) and in NSF’s Cyber Infrastructure Advisory Boards (2016-2019).[22]
• He is the inaugural recipient of the Dr. William Yslas Velez Outstanding STEM Award, co-sponsored by the Victoria Foundation and the Pasqua Yaqui Tribe of Arizona (2015).[23]
• Elected as a Member-at-Large of the Section on Mathematics of the AAAS (2-16, 2016 through 2-17 2020).[24]
• The mathematics genealogy project list Castillo-Chavez is among the top 200 mentor of PhD students in the history of mathematics. He has 50 students and 54 descendants.[25]
• April 2017, Prof. Castillo-Chavez was invited by Brown University to offer a lecture in the Series "Thinking Out Loud", named The Role of Contagion in the Building and Sustainability of Communities.[26]
• For year 2019, he has been invited as Provost Visiting Professor for the Applied Mathematics Division and also the Data Science Initiative from Brown University.
• The Pete C. Garcia, Victoria Foundation - Higher Education Award. Outstanding Latina/o Faculty: Research in Higher Education Award. Sep 4, 2019.

Primary

• School of Human Evolution and Social Change.[27]
• Global Institute of Sustainability, Distinguished Sustainability Scientist[28]
• Founding Director Simon A. Levin Mathematical, Computational & Modeling Sciences Center[29]
• ASU-SFI Center for Biosocial Complex Systems.[30]
• School of Life Sciences[31]
• School of Transborder Studies [32]
• Institute for Social Science Research[33]
• Center for Gender Equity in Science and Technology[34]

External

• Santa Fe Institute, External Faculty Member[35]
• Biological Statistics and Computational Biology, Cornell University - Adjunct Faculty[36]

Books (selected)

• Carlos Castillo-Chavez, Fred Brauer, Zhilan Feng (2019). Mathematical Models in Epidemiology. New York: Springer. ISBN 9781493998265
• Carlos Castillo-Chavez, Fred Brauer (2013). Mathematical Models for Communicable Diseases. SIAM. ISBN 9781611972412
• Clemence, Dominic; Gumel, Abba; Castillo-Chávez, Carlos; Mickens, Ronald E. (2006). Mathematical studies on human disease dynamics: emerging paradigms and challenges: AMS-IMS-SIAM Joint Summer Research Conference, competitive mathematical models of disease dynamics: emerging paradigms and challenges, July 17–21, 2005, Snowbird, Utah. Providence, Rhode Island: American Mathematical Society. ISBN 0-8218-3775-3.
• Castillo-Chávez, Carlos (2003). Bioterrorism: mathematical modeling applications in homeland security. Philadelphia: Society for Industrial and Applied Mathematics. ISBN 0-89871-549-0.
• Blower, Sally; Castillo-Chávez, Carlos (Ed) (2002). Mathematical approaches for emerging and reemerging infectious diseases: an introduction. Berlin: Springer. ISBN 0-387-95354-X.
• Castillo-Chávez, Carlos; Brauer, Fred (2001). Mathematical models in population biology and epidemiology. Berlin: Springer. ISBN 0-387-98902-1.
• Carlos Castillo-Chavez (editor) (1989). Mathematical and Statistical Approaches to AIDS Epidemiology. Springer-Verlag Berlin Heidelberg. ISBN 978-3-540-52174-7

Scientific articles (selected/most cited out of more than 250 publications)

• Castillo-Chavez Carlos, Derdei Bichara, and Benjamin R Morin. Perspectives on the role of mobility, behavior, and time scales in the spread of diseases. Proceedings of the National Academy of Sciences, 113(51):14582–14588, 2016.
• Chowell, D., C. Castillo-Chavez, S Krishna, X Qiu, Modelling the effect of early detection of Ebola- The Lancet Infectious Diseases, 15(2): 148--149, 2015
• Carlos Castillo-Chavez, Roy Curtiss, Peter Daszak, Simon A. Levin, Oscar Patterson-Lomba, Charles Perrings, George Poste, and Sherry Towers. Beyond Ebola: lessons to mitigate future pandemics. The Lancet Global Health 3 (7), e354-e355. 2015
• Eli P. Fenichel, Carlos Castillo-Chavez, M. G. Ceddia, Gerardo Chowell, Paula A. Gonzalez Parra, Graham J. Hickling, Garth Holloway, Richard Horan, Benjamin Morin, Charles Perrings, Michael Springborn, Leticia Velazquez, and Cristina Villalobos, “Adaptive human behavior in epidemiological models,” Proceedings of the National Academy of Sciences PNAS, USA 2011; 108:6306-11
• Castillo-Chavez, C. and B. Song: “Dynamical Models of Tuberculosis and applications,” Journal of Mathematical Biosciences and Engineering, 1(2): 361-404, 2004.
• Castillo-Chavez C., Z. Feng and W. Huang. “On the computation Ro and its role on global stability,” In: Mathematical Approaches for Emerging and Reemerging Infectious Diseases: An Introduction, IMA Volume 125, 229-250, Springer-Verlag, Berlin-Heidelberg-New York. Edited by Carlos Castillo-Chavez with Pauline van den Driessche, Denise Kirschner and Abdul-Aziz Yakubu, 2002.
• Chowell, G., Hengartner, N.W., Castillo-Chavez, C., Fenimore, P.W., Hyman, J.M. “The Basic Reproductive Number of Ebola and the Effects of Public Health Measures:  The Cases of Congo and Uganda.”  Journal of Theoretical Biology, 229(1): 119-126 (July 2004)

Carlos Castillo-Chavez' research program lives at the interface of the mathematical and natural and social sciences[37] with emphasis on

• the role of dynamic social landscapes on disease dispersal, evolution and control;
• the study of environmental risk, social structures and human behavior on disease dynamics including addiction.

Models for the spread of scientific concepts, ideas, or media driven information have been introduced. Research on gun dynamics and their relationship with recurrent “mass” shootings is being conducted primarily under the leadership of Sherry Towers.[38]

Castillo-Chavez has co-authored over 250 publications and a dozen books, textbooks, research monographs and edited volumes. ^[26] Castillo-Chavez and collaborators carry out research on the role of behavior and mobility on the dynamics of emergent and re-emergent diseases including Ebola, Influenza, Tuberculosis, and Zika. Finally, the dynamics of collaborative and active learning inspired and supported by the deep mentoring efforts carried out via the Mathematical Biology Institute or MTBI, founded in 1996, have resulted in publications that highlight models and frameworks for collaborative learning through user-inspired research.[39]

MTBI was originally established in 1996 at Cornell University by Dr. Carlos Castillo-Chavez, before it was moved to Arizona State University in the spring of 2004. MTBI funding was provided by Cornell University and Los Alamos National Laboratory (T-Division) from 1996-2004. Currently, MTBI is funded in part by the National Science Foundation (NSF), the National Security Agency (NSA), Arizona State University and the Office of the Executive Vice-President and Provost of the University. The high level of financial and administrative support provided by ASU to MTBI is a reflection of the serious commitment to recruitment and retention efforts within the fields of mathematics and science.[41]

https://mtbi.asu.edu/summerprogram

MTBI is an intensive summer research experience that prepares undergraduate students for the rigors of graduate level research at the interface of mathematics, statistics, and the natural and social sciences. Select students are invited to Arizona State University for eight weeks, where their time is split between classroom instruction on research methods and hands-on research projects.[42]

MTBI has recruited and enrolled a total of 507 regular first-time undergraduate students and 78 advanced (returning) students. Of these regular students 420 are U.S. citizens or permanent residents; 290 (69%) are underrepresented minorities and/or members of the Sloan Pipeline Program (URMs include Hispanic, African American and Native American students). have been provided mentoring (many of these teaching and grad assistants returned to MTBI for multiple years). Through July 2017, 281 out of 420 (67%) of U.S. MTBI student participants had enrolled in graduate or professional school programs (this number includes teaching/graduate assistants who were involved with MTBI over the course of multiple years). Two hundred five (205) are underrepresented minorities (66% of all MTBI US participants who entered graduate or professional schools were URMs). To date 129 US MTBI student participants have completed their Ph.Ds, 97 of whom are URMs; 75% of US MTBI Ph.D. recipients are URMs.[41]

Further, taking into consideration gender (as US women are an underrepresented group in the mathematical and life sciences at the doctoral level) the results are even more dramatic. Of the 129 US MTBI student participants who have earned Ph.Ds. 117 (or 90%) belong to an underrepresented minority and/or underrepresented group (including Asian and White/mixed females).[41]

The Joaquin Bustoz Jr. Math-Science Honors Program (JBMSHP) is a summer residential mathematics program intended for mature and motivated students who are interested in academic careers requiring mathematics, science, or engineering-based coursework and who are typically underrepresented in those fields of study. Selected participants include first-generation college bound students and students representing diverse backgrounds from high schools throughout the State of Arizona, including rural communities and the Navajo Nation.[44]

Participants live on the Arizona State University (ASU) Tempe campus while enrolled in a university level mathematics course for college credit such as College Algebra, Pre-Calculus, Calculus I, Calculus II, or Applied Mathematics in the Life and Social Sciences. In addition to the coursework, students work in groups to conduct applied mathematics research involving real-life mathematics problems to help deepen their understanding of the class material. Students present their findings in an oral presentation to their class peers and JBMSHP staff as well as at a poster symposium for faculty, staff, and family members. Tutoring and problem-solving sessions are provided as well as a variety of academic presentations and activities. Tuition, room and board, textbooks, and classroom expenses are provided at no cost to the student.[45]

Since 1985, 2,820 students have participated in the JBMSHP. 58% of the participants have been female. 50% are Hispanic, 16% are Native American, 13% are Asian, 13% are Caucasian, and 8% are African American. 35% of the students who attend the JBMSHP attend for multiple summers, earning as many as 11 university credits before enrolling at a university as a first-time freshman.[46]

Prof Carlos Castillo-Chavez with student in poster session https://jbmshp.asu.edu/summer_program

Since 1985, 59% of all JBMSHP alumni students have attended ASU after their high school graduation. 71% of all JBMSHP alumni currently attending ASU are majoring in a Science, Technology, Engineering, or Mathematics (STEM) field. JBMSHP alumni consistently earn higher grade point averages when compared to non-JBMSHP students at Arizona State University within the College of Liberal Arts and Sciences, the Ira A. School of Engineering, and the W.P. Carey School of Business. As of fall 2018, JBMSHP alumni grade point average compared to those non-JBMSHP alumni currently at Arizona State University is 13% higher within the College of Liberal Arts, 11% higher within the Ira A. School of Engineering, and 14% higher within the Mary Lou Fulton Teachers College. As of the fall of 2018, JBMSHP alumni have earned 1,244 degrees from ASU, with 1,079 undergraduate degrees and 165 graduate degrees earned from ASU. 59% of JBMSHP alumni who have earned a degree from ASU are female, 52% are Hispanic, 18% are Asian, 11% are Native American, 12% are Caucasian, and 7% are African American. 159 JBMSHP students have graduated from ASU as part of Barrett, The Honors College. Since 1985, 73% of all JBMSHP alumni who attended ASU earned a degree from ASU.[47][48]

The Mathematics Genealogy Project (MGP)^[30] is an initiative to compile all possible information about the mathematicians in the world, who receive a doctorate degree in mathematics. The project also intends to keep track of the intellectual history of individual and record advisors, universities and areas of study. MGP started in 1996 by Harry Coonce, a mathematician at Mankato State University in Minnesota. The data base considers mathematicians in the most inclusive manner, including people with degrees in mathematics education, statistics, computer science, operations research. The project currently has 239,144 records of mathematicians as of Feb, 2019.[49] The distribution of the number of students is presented in figure below. According to the MGP, 172,959 mathematicians do not have students under their supervision, corresponding to 75,7% of the entire list. 23.5% of mathematicians have had less up to 20 students under their supervision. The page under the name of “Extrema” ^[31] lists up to the Top 250 Advisors. Prof. Carlos Castillo-Chavez has currently 50 PhD students, being the only Latino-heritage mathematician listed in the top 250 positions.[50] The probability of having 48 students or more under supervision is just 0,08%, that is, less that 1 per 1.000 mathematicians. Professor Castillo-Chavez’s name is included in this top 250 list which, includes names like Ronold Wyeth Percival, Rudiger W. Dornbusch, Andrei Kolmogorov, Daron Acemoglu, Robert Solow, Simon A. Levin, Marvin Fisher, C. R. Rao, Jerome Arthur Feldman, Edward Prescott, among others.[50]

Applied Mathematics for the Life and Social Sciences (AMLSS) investigates and integrates complex areas of the physical, life and social sciences while preparing a new generation of students in mathematics. The objective of these programs is to develop critical thinking skills and purposeful competencies in mathematics, as well as an appreciation for the contributions of mathematics to the fields of science, engineering, business, government and economics.[51] The Levin Center members have a history of stimulating synergistic cross-disciplinary activities, and initiating biological, environmental and sociological research that involves a significant use of quantitative methods—mathematics, modeling, statistics and simulations. The center's name was motivated by the work conducted by Simon A. Levin, Distinguished University Professor in the Department of Ecology and Evolution and the Director of the Center for BioComplexity at Princeton University. Research areas include:

• Public Health
• Infectious Diseases
• Social Dynamics
• Human-Environmental Interactions
• Theoretical Biology
• Applied Mathematics
• Statistics and Simulations

The Ph.D. program at the Applied Mathematics in the Life and Social Sciences at Arizona State University produces a new generation of scientists with an understanding of global issues and vigorous training in quantitative theory and methods. The graduates come from a wide range of backgrounds and will be able to quickly adapt to the changing employment demands we are already seeing in areas such as homeland security, sustainability and conservation biology, urban system dynamics, public health, disease evolution and addiction, infrastructure and technological research.”[54]

The Applied Mathematics for the Life and Social Sciences (AMLSS) doctoral degree is designed especially for students who want to make innovative and far-reaching scientific contributions to the global challenges of our time. The program's faculty includes mathematicians, statisticians, theoretical biologists and social scientists from five different schools at Arizona State University. The curriculum—with dynamic and statistical approaches as critical and unifying components— is aimed at producing first-rate scientists whose skills will always be in high demand both within and outside of academia. AMLSS graduate students are supported in their work by the members of the MCMSC.[55]

AMLSS was established in 2008 and is supported by the Simon A. Levin Mathematical, Computational and Modeling Sciences Center. Its notable accomplishments include graduating 38 doctoral students since its inception (25, or 66%, are underrepresented minorities). Additionally, ASU’s first ever PhD degree in mathematics to an African American student, Edme Soho, was realized in 2012; the second, to Kehinde Salau, was awarded in 2013. The first to a Native American, Adrian Smith, all were AMLSS students. Within the AMLSS program alone, we have awarded 38 Ph.Ds. since 2008, 25 (66%) to URM students, and anticipate an additional three graduates this year. Of these 38 doctorates, 19 were awarded to Hispanic/Latino students (10 male, nine female), five to African American (Black) males, and one to a Native American male. Two were awarded to White females, and two to international females. Finally, five international males and three white males have attained their doctoral degrees within AMLSS.[56]

• Mathematical and Theoretical Biology Institute and Institute for Strengthening the Understanding of Mathematics and Science
• Carlos Castillo-Chavez at the SACNAS Biography Project
• Interview with Carlos Castillo-Chavez at AAAS