Bilingual school counselors help narrow achievement gap

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The fastest growing group of students in America's K-12 schools are Latino. Evidence-based programs addressing the unique language and cultural needs of that population are successful in narrowing the traditional achievement gap, according to a recent study in Counseling Outcome Research and Evaluation (published by SAGE, on the behalf of the Association for Assessment in Counseling and Education).

Researchers Ana Leon, Elizabeth Villares, Greg Brigman, Linda Webb, and Paul Peluso studied 4th and 5th grade Spanish-speaking students across three separate schools who were enrolled in English for Speakers of Other Languages (ESOL) classes. The students participated, for eight weeks of 45-minute segments, in a Spanish culturally-translated classroom program, led by bilingual/bicultural school counselors, that teaches students critical cognitive, social, and self-management skills necessary for academic achievement.

The study found significant improvements in reading and math scores, as measured by standardized tests, for those students who received the specialized treatment, compared to the control group. These study findings position school counselors to show how their work directly affects student achievement.

"Lack of access to existing culturally appropriate programs can prevent Latina/o students from receiving beneficial educational opportunities and contributes to their drop-out rates and underachievement," conclude the authors. "The current study results provide the first indicators toward establishing an evidence-based program that positively affects the academic achievement of Latina/o students and is an example of how school counselors can advocate for the needs of all students."

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Helping children learn to understand numbers

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It's all in the way we speak to them


Most people know how to count, but the way we master this ability remains something of a puzzle. Numerals were invented only around four to five thousand years ago, meaning it is unlikely that enough time has elapsed for specialized parts of the brain for processing numbers to evolve, which suggests that math is largely a cultural invention. It appears to be based on an interface between vision and reasoning that we share with other animals, allowing us to "see" small numbers—up to around five—without counting. This ability—often called 'the number sense'—lays the foundations of later mathematical knowledge, but its basis is poorly understood. It has been argued that the number sense itself may be innate, but this fails to account for why learning to master the use of small numbers is such a difficult and drawn-out process in children.

Now, a formal model of the cognitive basis of counting has been reported in research published in the open-access, peer-reviewed journal PLoS ONE. The research was led by Michael Ramscar, Melody Dye, Hanna Poppick and Fiona O'Donnell McCarthy from Stanford University, and was funded by the National Science Foundation. Beginning with a model of the way our brains learn, the authors show how our ability to see numbers emerges naturally out of interactions between the problem of distinguishing between the size of the sets numbers describe, and the frequency with which we use different numbers.

While the difficulty of distinguishing numbers increases with set size, the authors show how we talk—and think—about numbers far more often as their size decreases, and they propose that the capacity limit on our number sense arises out of these factors. While this finding challenges the view that the 'number sense' is based on an innate, dedicated system for seeing small sets, it also explains why children struggle to map numbers to words, and crucially, it shows how this process can be improved.

Numbers are never encountered alone in sets—we may see "three bears, but never a set of just "three"—so children must learn to distinguish which part of "three bears" is "three". Since learning is based on expectation—our brains learn by guessing which things lead to what—children are far better at learning to distinguish "three" if "bears" are mentioned first: "look at the bears, there are three!" If sets of "bears" come before numbers, everything the child sees will compete for relevance in her learning to expect numbers, and it soon becomes obvious that while "bear" parts are no use for discriminating between "two" and "three," two and three are. This competition is far less straightforward when "three" acts as the basis for expecting "bears." Indeed, training children using "look, there are three bears" had no effect on their number sense at all, whereas children trained with "look at the bears, there are three!" showed a 30% improvement on their ability to distinguish small sets after just one short training session.

These experimental findings provide the first evidence that the "number sense" can be improved by properly targeted training, while the computational modeling provides a formal account of why the training works, as well as offering the first formal model of how the number sense is learned, and how numerical capacity limits arise. The research team used the Rescorla-Wagner model for simulating learning and predicting the effects of training in children. This is a widely supported model of learning in the behavioral sciences, both in terms of its fit to human and animal behavior, and the amount of neuroscientific support that has been amassed for its basic mechanisms.

The development of number sense in early childhood is the best predictor educationalists have of later mathematical ability. According to the researchers, these findings are of potentially critical importance to the development of mathematical abilities in children, and they may also provide a formal basis for the development of models and interventions to help address developmental disorders, such as dyscalculia.

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Impact of self-esteem and academic achievement on substance use and sexual initiation differs among boys and girls

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A new study focused on adolescent risk-taking shows that high self-esteem, measured during an initial survey of 1,670 students enrolled in grades 7 through 12, was associated with lower odds of substance abuse in the following year among girls, but not among boys. Self-esteem was not significantly correlated with first sexual intercourse (sexual debut) 1 year later among girls or boys, according to Stephanie B. Wheeler, Ph.D., of the University of North Carolina. In addition, higher academic performance in school was associated with less risky activities among young girls. Female students with "A" averages had significantly lower odds of sexual debut 1 year later compared with students with "C" averages and below.

In addition, female students with "A" or "B" averages at baseline had lower odds of illegal substance abuse in the following year, but neither self-esteem nor grades had a significant effect on substance abuse after 1 year for male students. Neither self-esteem nor academic performance at baseline had significant effects on adolescent risk-taking 6 to 7 years later.

Using the National Longitudinal Study of Adolescent Health (Add Health), the study first surveyed students in 1994-1995 and subsequently in 1995-1996 and 2001-2002. The finding that early sexual intercourse was strongly associated with subsequent substance use, and vice-versa, suggests that these activities are mutually reinforcing. As such, a behavioral intervention targeting multiple types of risky behaviors youths encounter may be warranted, suggests Dr. Wheeler. She adds that since results varied sharply by gender, thoughtfully designed, gender-specific interventions to prevent early sexual debut and substance use in adolescence may be appropriate. This research was supported by the Agency for Healthcare Research and Quality (T32 HS00032).

See "Effects of self-esteem and academic performance on adolescent decision-making: An examination of early sexual intercourse and illegal substance use," by Dr. Wheeler, in the Journal of Adolescent Health 47, pp. 582-590, 2010.

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