Effect of heavy metals and environmental variables on the assimilation of CO2 and stomatal conductance of Ligustrum lucidum, an urban tree from Mexico City

Irma Estefanía García-Sánchez, Víctor L. Barradas, Claudia A. Ponce de León Hill, Manuel Esperón-Rodríguez, Irma Rosas Pérez, Mónica Ballinas

Research output: Contribution to journalArticlepeer-review

Abstract

Urban trees reduce CO2 and pollutants that represent a risk for human health in cities. In this work, we assessed the potential effect of heavy metals and environmental variables on the CO2 assimilation (A) and the stomatal conductace (gS) of Ligustrum lucidum, a common urban tree in Mexico City. We compared two sites with contrasting pollution levels: 1) city centre (PPI-C, high pollution level); and 2) south of the city (CU-SW; low pollution level). At each site, we measured 1) phsysiological traits (A and gS); 2) environmental variables (photosynthetically active radiation, PAR; air temperature, TA; vapor pressure deficit, VPD; concentration of atmospheric CO2); and 3) morphological leaf characteristics (stomatal size and density). Concentration of the heavy metals Pb, Cd, Cr, Cu, Mn, Fe, and Zn was determined in washed (internal metals) and unwashed (external plus internal metal) leaves at both sites. CO2 assimilation at CU-SW was higher than at PPI-C. PAR had the greatest effect on A; whereas TA and VPD had the greatest effect on gS. Regarding heavy metals, although we found no significant differences in internal concentrations between sites, we found a lower stomatal density at PPI-C, which may indicate a response of the species to the local pollution conditions. This characteristic might be benefitial for the species, allowing it to maintain optimal physiological conditions by reducing the assimilation of pollutants. Our results suggest that L. lucidum is a well adapted species for the urban environment.
Original languageEnglish
Pages (from-to)72-81
Number of pages10
JournalUrban Forestry and Urban Greening
Volume42
DOIs
Publication statusPublished - 2019

Keywords

  • Mexico
  • atmospheric carbon dioxide
  • pollutants
  • upper air temperature
  • urban plants

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