Short-Term Tree-Ring Series of Pinus hartwegii Lindl. Taken at Ground Level Correlate to Normalized Difference Vegetation Index Series
Author:
Montoya-Jiménez Luis R.1, Gómez-Guerrero Armando1ORCID, Pedraza-Oropeza Felipe J. A.2, González-Martínez Teresa M.1, Correa-Díaz Arian3ORCID
Affiliation:
1. Posgrado en Ciencias Forestales, Colegio de Postgraduados, Texcoco 56230, Mexico 2. Posgrado en Hidrociencias, Colegio de Postgraduados, Texcoco 56230, Mexico 3. Centro Nacional de Investigación Disciplinaria en Conservación y Mejoramiento de Ecosistemas Forestales, Instituto Nacional de Investigaciones Forestales, Agrícolas y Pecuarias, Av. Progreso 5, Barrio de Santa Catarina, Delegacion Coyoacán, Mexico City 04010, Mexico
Abstract
In this work, we propose that small wood core samples (≤10 cm length), taken from 0.3 m above the soil, represent an accurate means of correlating forest growth with remote sensing data. Short-term correlations between the Normalized Difference Vegetation Index (NDVI) and tree-ring components of the last three to four decades were tested, using 210 Pinus hartwegii wood cores collected at two locations, Tláloc (TLA) and Jocotitlán (JOCO) in central Mexico. The NDVI time series were generated with the Google Earth Engine (GEE) using Landsat 8 images. Also, seasonal trends in NDVI (e.g., spring, summer, autumn, winter) were analyzed through longitudinal analysis. The results showed more statistically significant dendrochronological indices in TLA than in JOCO, but both locations consistently showed an NDVI decrease in 2018 and 2020, indicating a reduction in vegetation vigor. At the two locations, the minimum and maximum NDVI occurred in April and October, respectively. Seasonal NDVI changes for spring were mainly seen at TLA with a decreasing trend, which may be related to a less defined dry season. The significant correlations (p < 0.05) between tree-ring components and the NDVI occurred in the dry season, indicating that the productivity of a given year is defined by the tree vigor shown in April and May, in the case of TLA, and between January and March, for JOCO. Although the NDVI values of JOCO were higher than those of TLA, tree growth, expressed by tree-ring indices, was lower. Our proposed field method to correlate tree-ring information and the NDVI is reliable and can be used in other coniferous forests.
Funder
National Council of Humanities, Science and Technology
Reference43 articles.
1. García-Amorena, I., Moreno-Amat, E., Aulló-Maestro, M.E., Mateo-Sánchez, M.C., Merino-De-Miguel, S., Ribalaygua, J., and Marchant, R. (2021). Combining Remote Sensing and Species Distribution Modelling to Assess Pinus hartwegii Response to Climate Change and Land Use from Izta-Popo National Park, Mexico. Land, 10. 2. Farjon, A., de la Rosa, J.A.P., and Styles, B.T. (1997). A Field Guide to the Pines of Mexico and Central America, Royal Botanic Gardens. 3. Marín, L.E., Escolero-Fuentes, O., and Trinidad-Santos, A. (2002). Urban Air Pollution and Forests: Resources at Risk in the Mexico City Air Basin, Springer. 4. Efecto del cambio climático en la distribución potencial de cinco especies arbóreas de bosque templado en México;Trejo;Rev. Mex. Biodivers.,2014 5. The response of forest ecosystems to climate change;Doane;Developments in Soil Science,2018
|
|