Este documento ofrecerá una gran cantidad de datos que la investigación ha proporcionado acerca de cómo el ambiente de aprendizaje puede mejorar el rendimiento estudiantil. Más de una década de la investigación ha confirmado que el entorno físico afecta el ambiente de aprendizaje y rendimiento de los estudiantes. En una época de la toma de decisiones basadas en datos, no se puede ignorar la evidencia de que se cuantifica y específicos. Algunos factores que requieren una inversión mínima, sino proporcionar una rentabilidad significativa. Los autores, que vienen a la universidad después de la carrera extendida en la educación pública K-12, se han beneficiado de sus propias respuestas a los hallazgos. Sus experiencias y la investigación compartida en este trabajo se armará el lector con los datos para realizar cambios en el entorno construido que pueden producir una mejoría significativa en moral de los profesores, clima escolar, los padres y la confianza de la comunidad, y resultados de los estudiantes.

It’s January 2009, the economic outlook is formidable, school divisions are being forced to make drastic cuts in their budgets, the state of school buildings is deteriorating yet school divisions are forced to defer maintenance or new construction, and the cry for improved educational outcomes is rising. The pressure for improved student achievement as a result of the No Child Left Behind legislation and state accountability models has placed school leaders in a quandary. Do they address critical facility needs or do they focus on the staffing of school classrooms? With this set of circumstances, school divisions are seeking cost effective ways of addressing building concerns and optimizing student outcomes.

In 1998, according to the National Center for Educational Statistics (NCES, 1999), the average age of school buildings in the United States was over 42 years. At the time of construction, the buildings were projected for a useful life of 30 years (NCES, 1999). The useful life of the school facility can be extended to approximately 50 years if major renovations take place after approximately 25 years. What some school leaders do not realize is that there is a direct and quantifiable connection between the condition of the school facility and the student achievement. This paper will provide background on the state of school budgets, the state of school buildings, the student achievement accountability standards, and ten cost effective ways to affect positive student outcomes.

The economy is suffering at a level not felt since the World War II era. School budgets, reflecting this reality have been cut significantly. The impact of those cuts has varied. The estimated school infrastructure need for all of the states in the United States is estimated at approximately $254.6 billion. State by state funding needs range from Vermont’s $326 million to California’s $25.4 billion, with the average state need around $5.1 billion (Crampton & Thompson, 2008). In the 2008-09 school year, schools reported spending on that year’s construction to renovate or replace deteriorating buildings in the Commonwealth of Virginia at $611 million (Virginia Department Of Education, 2008). The Virginia Department of Education (VDOE) indicated that the construction cost per square foot remained steady, ranging from $176 to $195 for new construction, and approximately $106 for additions and renovations. Willson (2008) contends that “even though about $50 billion is spent annually on facility acquisition and construction, many of our nation’s 97,000 public elementary and secondary schools need everything from minor upgrades to major overhauls.” ( p. 24)

Adam Koob, in an article in the Natchez Democrat published January 17, 2009, shared the dire straits of many states as they face trimming their budgets. He indicated Governor Schwarzenegger projected cuts of more than $2 billion for schools in California. He further reported that North Carolina schools were required to return $58 million to the state coffers, and in California, some proposals indicated cuts of up to $10 billion (Koob, 2009).

Slashed budgets have targeted everything from personnel to maintenance. Deferred maintenance, an ongoing concern for those who consider the state of this nation’s school buildings, could receive additional extensions as the fight for dollars pits classroom teaching staff against aging roofs and heating, ventilation, and air conditioning (HVAC) systems. Campbell (2008) recently reported larger class sizes and delayed maintenance on schools as possible side effects of slashed budgets.

If buildings played no role in the educating of future generations, then ignoring their further deterioration could be tolerated provided issues of structural integrity, efficiency, and safety were addressed. However, over sixty years of research continue to support the positive relationship between building quality and student achievement. Researchers within the United States have been joined by international researchers in confirming the link between the building and achievement. Cash (1993) reported that the condition of facilities can account for as many as 11 percentile points on student accountability assessments.

The American Federation of Teacher’s (AFT) publication, Building Minds, Minding Buildings: Turning Crumbling Schools into Environments for Learning, was commissioned in response to Section 5414 of the No Child Left Behind Act on the “health and learning impacts of environmentally unhealthy public school buildings on students and teachers.” (Building Minds, 2006, p. 1). The commissioned report found “poor environments in schools, …, adversely influence the health, performance, and attendance of students.”(Building Minds, 2006, p. 1) Factors such as poor lighting, inadequate ventilation, crumbling walls, damaged ceiling tiles, and inoperative heating and air conditioning systems were reported in AFT’s 2006 research results. The results also included the factors of noise, overcrowding, and air quality, recognizing their link to student learning (Building Minds, 2006).

Many researchers have categorized building factors as either cosmetic or structural. The cosmetic factors, those that can be seen, consistently are linked with improved student performance. Structural factors, including heating and air-conditioning, also are linked to student achievement. Factors that have been noted repeatedly o influence student achievement include natural lighting, paint colors and paint cycles, general cleanliness, air quality, temperature control, acoustical enhancements, safety features, absence of graffiti, and air conditioning.

Cash (1993), in a study of small rural high schools in Virginia found a connection between building condition and student achievement as measured by standardized tests. The factors that were major contributors to the identified relationship included windows in classrooms, cleanliness, absence of graffiti, and presence of air conditioning. This study was replicated in large high schools in Virginia (Hines, 1996) with similar findings. The same methodology was employed in a study of high schools in North Dakota (Earthman, Cash, & Van Berkum, 1995) and the results were consistent with those from the earlier studies. O’Sullivan (2006) found similar results in his study of student achievement in Pennsylvania high schools. Crook (2006) examined the relationship between the condition of the physical environment and number of students who passed the Virginia Standards of Learning (SOL) examinations, and found building condition to be a predictor of student success. Lanham (1999) studied the performance of elementary school students.

Each of these studies utilized the same instrument, the Commonwealth Assessment of Physical Environment (CAPE), to determine the building physical condition. While student achievement measures varied, the connection between the building’s condition and the student’s academic performance was similar. In each case, windows and natural lighting, air-conditioning, cleanliness, freedom from graffiti, and wall color and paint freshness were building elements that showed a positive correlation with student achievement. Other researchers have found similar connections between student learning, behavior and buildings. (Cervantes, 1999; Earthman & Lemasters, 1996).

Duran-Narucki’s 2008 study of school building condition, attendance, and academic achievement in New York City, found building conditions to be a predictor of student attendance and student achievement on standardized tests. These results were reported after controlling for other possible factors, including socioeconomic status, ethnicity, and teacher quality. (Duran-Narucki, 2008) That poorer building condition negatively impacts student attendance and that coming to school is necessary to learning are both logical arguments that continue to be supported by research.

The National Summit on School Design (NSSD) reported eight recommendations for school design excellence. These included designs to support a variety of learning styles, and the creation of healthy, comfortable, and flexible learning spaces. These recommendations have several implications for changes in the learning environment (NSSD, 2005).

While the cumulative effect of the school facility’s condition has been related to student outcomes, further research has been done to pinpoint several specific factors that contribute to this overall phenomenon. These specific factors include lighting, building cleanliness, health and safety, painting, and student and teacher morale.

As the economy continues to show signs of weakness, and recent stimulus efforts by Congress emerge without attention to school construction and school energy efficiency needs, the nation’s school division leaders are struggling to find funds for physical environments. Having reminded readers of the state of the economy, the state of school buildings, and the state of research that relates buildings to student performance, this section will provide ten opportunities to invest minimally and reap rewards in student performance.

Many researchers have confirmed that student achievement is impacted by specific building characteristics and an effective learning environment. Armed with these recommendations and environmental awareness, decision makers can improve student achievement by enhancing the instructional setting, even when budgets are tight.

American Federation of Teachers. (2006). Building minds, minding buildings: Turning crumbling schools into environments for learning. Washington, DC: Author.

Campbell, S. (2008, December 3). School budget cuts may delay maintenance, increase classes. Huntsville Times. Retrieved January 16, 2009, from http://www.al.com/news/huntsvilletimes/local

Cash, C. S. (1993). Building condition and student achievement and behavior. DissertationAbstracts International. (UMI No. 9319761)

Cervantes, R. (1999). The condition of school facilities as related to student academic achievement and behavior. Dissertation Abstracts International. (UMI No. 9956728)

Conway, S., Epps, K., & Plympton, P. (2000, June 16). Daylighting in schools: Improving student performance and health at a price schools can afford. Paper presented at the American Solar Energy Society Conference, Madison, WI. (Document ID # NREL/CP-550-28049).

Crampton, F. & Thompson, D. (2008, December). Building minds, minding buildings: School Infrastructure Funding Need, A state-by-state assessment and an analysis of recent courtCase. American Federation of Teachers, Washington, DC.

Crook, J. R. (2006). The relationship between the percentage of students passing the standards of learning examinations and the condition of the educational facilities in the high schools of the State of Virginia. Dissertation Abstracts International. (UMI No. 3231036)

Duran-Narucki, V. (2008). School building condition, school attendance, and academic achievement in New York City public schools: A mediation model. Journal of Environmental Psychology, 28(3), 278-286.

Earthman, G. (1998). The impact of school building condition and student achievement and behavior.

Earthman, G., Cash, C. S., & Van Berkum, D. (1995). A statewide study of student achievement and behavior and building condition.

Earthman, G., & Lemasters, L. K. (1996). Review of research on the relationship between schoolbuildings, student achievement, and student behavior. Council of Educational Facilities Planners, International.

Engelbrecht, K. (2003, June 18). The Impact of color on learning. Paper presented to NeoCon. Retrieved from http://www.coe.uga.edu/sdpl/articleoftheweek/colorPW.pdf

Fielding, R. (2006). Learning, lighting and color. Retrieved from http://www.designshare.com/articles/1/133/fielding_light-learn-color.pdf

Heschong-Mahone Group. (1999). Daylighting in schools: An investigation into the relationship between daylighting and human performance. Fair Oaks, CA: Author.

Heschong-Mahone Group. (2003). Windows and classrooms: A study of student performance and the indoor environment (Technical Report P500-03-082-A-7). Sacramento, CA: California Energy Commission.

Hines, E. (1996). Building condition and student achievement and behavior. Unpublished doctoral dissertation, Virginia Polytechnic Institute and State University, Blacksburg.

Jensen, E.(2003). Environments for learning. San Diego: CA: Brain Store.

Kennedy, M. (2007, September). Greener Pastures. American School & University, 40-43.

Kennedy, M (2008, April). The Right Light. American School & University, 39-41.

Koob, A. (2009, January 17). Public schools across the state will lose $90.9 million of the $200 million to be trimmed from the state’s budget. School budget to lose $90.9M statewide. The Natchez Democrat. Retrieved on January 18, 2009 from http://www.natchezdemocrat.com/news/2009/jan/17/school-budget-lose-909m- statewide/, 2009.

Lanham, J. W. (1999). Relating building and classroom conditions to student achievement in Virginia’s elementary schools. Unpublished doctoral dissertation, Virginia Polytechnic Institute and State University, Blacksburg.

Marzano, R. (2007). The art and science of teaching. Alexandria, VA: ASCD.

National Center for Educational Statistics (1999). How old are America’s public schools? Retrieved March 24, 2009, from http://nces.ed.gov/surveys/frss/publications/1999048/

O’Sullivan, S. (2006). A study of the relationship between building conditions and student academic achievement in Pennsylvania’s high schools.

National Summit on School Design. (2005). A resource for educators and designers. American Architectural Foundation and KnowledgeWorks Foundation. Retrieved from http://www.archfoundation.org/aaf/gsbd/Events.Summit.htm

Planty, M., & DeVoe, J.F. (2005). An examination of the condition of school facilities attended by 10th grade students in 2002. (NCES 2006-302). Washington, D.C.: U.S. Department of Education.

Ruszala, J. (2008). The condition of the high school facilities in the Commonwealth of Virginia's metropolitan school divisions and the relationship to teacher satisfaction. Unpublished doctoral dissertation, The George Washington University, Washington, D.C.

United States Environmental Protection Agency & United States Department of Energy, Buy products that make a difference. Retrieved on March 10, 2009, from http://www.energystar.gov/index.cfm?c=cfls.pr_cfls

Virginia Department of Education (2008). Summary for 2007-2008: Public School facilities costdata. Retrieved from http://www.doe.virginia.gov/support/facilities/resource s/docs/cost2008.pdf

Willson, A. (2008, October). Fix or Flatten? Chances are that a school in your district is underperforming. American School Board Journal, 24 - 25.

Woodside, D. (2008, October). Teaching Green. American School Board Journal, 26 - 27.