Orizaba 5 - MXOZ5001 Yocom, Larissa L.; Fulé, Peter Z. Dating method: crossdated Sample storage location: Northern Arizona University, Flagstaff, AZ Reference: Yocom, L.L., P.Z. Fulé. 2012. Human and climate influences on frequent fire in a high-elevation tropical forest. Journal of Applied Ecology 49:1356-1364. Abstract: 1. Surface fire has increasingly been regarded as a critical threat to tropical forests, but much of the research documenting degradation of tropical forests by fire comes from the low-elevation humid tropics. Fire in high-elevation tropical forests has received less research attention, but these forests are of high conservation value because they support unique ecosystems, which are often isolated due to their restriction to widely separated peaks. 2. We investigated the frequency and ecological impact of fire on a high-elevation tropical forest of Pinus hartwegii in Pico de Orizaba National Park in central Mexico. This forest was previously thought to have been degraded by excessive human-caused fires. We assessed human-caused changes to the fire regime as well as the impact of climate on fire occurrence, both previously undocumented in this region. 3. We found no increase in fire frequency or evidence of degradation of the forest. We found that the forest was uneven-aged and contained many large and old trees (maximum age 483 years). In the twentieth century, the forest experienced a frequent surface fire regime, with fires scarring trees in 90 of 100 years. However, most fires were small and asynchronous among sites. Inter-annual climatic variability was not an influential driver of fire, and El Niño–Southern Oscillation was not significantly related to the occurrence of widespread fire. 4. Synthesis and applications. Our results show that this high-elevation tropical forest has not been degraded but has existed with frequent fires for at least a century. A trend in the 21st century towards less-frequent fire could be cause for concern, as a decrease in fire frequency could lead to an increase in tree density and a loss of resilience in the face of climate change and other future disturbance. We recommend that managers take into account historical fire regimes in their local areas: frequent surface fires in the case of Pico de Orizaba. It is important to recognize that although fire can be detrimental in many low-elevation tropical forests, it is an integral part of this high-elevation tropical forest ecosystem, and other high-elevation forests may show similar patterns. Related ITRDB chronology: MEXI103 NOAA/IMPD web landing page for this fire history site is available at: https://ncdc.noaa.gov/paleo/study/21585 NOAA/IMPD DIF and JSON metadata records for this fire history site are available at: https://www1.ncdc.noaa.gov/pub/data/metadata/published/paleo/dif/xml/noaa-fire-21585.xml and https://www1.ncdc.noaa.gov/pub/data/metadata/published/paleo/json/noaa-fire-21585.json FHX filename: mxoz5001.fhx IMPD code: MXOZ5001 Name of site: Orizaba 5 Site code: OZ5 Contributors: Yocom, Larissa L.; Fulé, Peter Z. Latitude: 18.99 (WGS84) Longitude: -97.29 (WGS84) Mean elevation: 4045 (meters) Country: Mexico State: Puebla Region: eastern Transvolcanic Belt First year: 1655 AD Last year: 2009 AD Species name: Pinus hartwegii [PIHR] Funding agency names and grant numbers: National Science Foundation DEB-0640351 and National Science Foundation Doctoral Dissertation Enhancement Project grant OISE-1003845 Comments: This site was sampled as part of a project to reconstruct historical fire regimes in east-central Mexico. Ring-boundary fire scars were assigned to the subsequent calendar year. Yocom fire data from Orizaba 5, eastern Transvolcanic Belt, Puebla, Mexico - IMPD MXOZ5001 https://www.ncdc.noaa.gov/paelo/study/21585 Fire History Graphs: Fire History Graphs illustrate specific years when fires occurred and how many trees were scarred. They are available in both PDF and PNG formats. The graphs consist of 2 parts, both of which show the X axis (time line) at the bottom with the earliest year of information on the left and the latest on the right. The Fire Index Plot is the topmost plot, and shows two variables: sample depth (the number of recording trees in each year) as a blue line along the left Y axis, compared with the percent trees scarred shown as gray bars along the right Y axis. Below, the Fire Chronology Plot consists of horizontal lines representing injuries by year on individual sampled trees. Symbols are overlain that denote the years containing the dendrochronologically-dated fire scars or injuries. The sample ID of each tree is displayed to the right of each line. The Composite Axis below represents the composite information from all individual series. The symbols used to represent the fire scars or injuries, and the filters used to determine the composite information, are shown in the legend. These graphs were created using the Fire History Analysis and Exploration System (FHAES). See http://www.fhaes.org for more information.