2021
Paredes-García, S.; Moreno-Casasola, P.; de la Barrera, E.; García-Oliva, F.; Lindig-Cisneros, R.
Biomasa y carbono almacenado en un humedal continental en Cuitzeo, Michoacán, México Journal Article
In: Tecnología y Ciencias del Agua, vol. 12, pp. 416-441, 2021, ISSN: 2007-2422.
Abstract | Links | BibTeX | Tags: carbon, carbon sequestration, ecosystem services, fire, hydrophyte, wetland
@article{Paredes-García2020,
title = {Biomasa y carbono almacenado en un humedal continental en Cuitzeo, Michoacán, México},
author = {S. Paredes-García and P. Moreno-Casasola and E. de la Barrera and F. García-Oliva and R. Lindig-Cisneros},
url = {http://revistatyca.org.mx/index.php/tyca/article/view/2582/2307},
doi = {10.24850/j-tyca-2021-02-09},
issn = {2007-2422},
year = {2021},
date = {2021-03-02},
journal = {Tecnología y Ciencias del Agua},
volume = {12},
pages = {416-441},
abstract = {Wetlands provide multiple ecosystem services, such as carbon sequestration both in living biomass and in the soil. In México, most studies have been done in coastal wetlands, and for this reason
information on continental wetlands is scarce. Two research questions were answered: how much carbon is stored in the biomass and in the soil of a continental wetland?; and, which is the spatial structure and distribution of the dominant plant species? The study site is a floating wetland in the eastern part of lake Cuitzeo where field work was carried out during 2’17 and 2018. Following a
transect six points were selected and aerial biomass was harvested in one square meter plots, and a soil profile was excavated. Carbon content was analyzed from samples of the dominant species and
aparent density and carbon stored in the soil determined. Satellite imagery was analized to obtain the total area of the wetland in the period 2003- 2017 and the area damaged by fires was calculated.
Aerial biomass was 173.1 ± 61.1 kg/ha -1 , with a carbon storage of 70.4 ± 25.4 kg-C ha -1 . The wetland substrate contains 168 ± 10 Mg C ha -1 . It was detected that the invasive species Phragmites australis has increased its cover in 10 % of the toal wetland area from 2010 a 2017. Two major fires were detected, the largest in 2016 that covered 242 ha of a total of 535 ha.},
keywords = {carbon, carbon sequestration, ecosystem services, fire, hydrophyte, wetland},
pubstate = {published},
tppubtype = {article}
}
Wetlands provide multiple ecosystem services, such as carbon sequestration both in living biomass and in the soil. In México, most studies have been done in coastal wetlands, and for this reason
information on continental wetlands is scarce. Two research questions were answered: how much carbon is stored in the biomass and in the soil of a continental wetland?; and, which is the spatial structure and distribution of the dominant plant species? The study site is a floating wetland in the eastern part of lake Cuitzeo where field work was carried out during 2’17 and 2018. Following a
transect six points were selected and aerial biomass was harvested in one square meter plots, and a soil profile was excavated. Carbon content was analyzed from samples of the dominant species and
aparent density and carbon stored in the soil determined. Satellite imagery was analized to obtain the total area of the wetland in the period 2003- 2017 and the area damaged by fires was calculated.
Aerial biomass was 173.1 ± 61.1 kg/ha -1 , with a carbon storage of 70.4 ± 25.4 kg-C ha -1 . The wetland substrate contains 168 ± 10 Mg C ha -1 . It was detected that the invasive species Phragmites australis has increased its cover in 10 % of the toal wetland area from 2010 a 2017. Two major fires were detected, the largest in 2016 that covered 242 ha of a total of 535 ha.
information on continental wetlands is scarce. Two research questions were answered: how much carbon is stored in the biomass and in the soil of a continental wetland?; and, which is the spatial structure and distribution of the dominant plant species? The study site is a floating wetland in the eastern part of lake Cuitzeo where field work was carried out during 2’17 and 2018. Following a
transect six points were selected and aerial biomass was harvested in one square meter plots, and a soil profile was excavated. Carbon content was analyzed from samples of the dominant species and
aparent density and carbon stored in the soil determined. Satellite imagery was analized to obtain the total area of the wetland in the period 2003- 2017 and the area damaged by fires was calculated.
Aerial biomass was 173.1 ± 61.1 kg/ha -1 , with a carbon storage of 70.4 ± 25.4 kg-C ha -1 . The wetland substrate contains 168 ± 10 Mg C ha -1 . It was detected that the invasive species Phragmites australis has increased its cover in 10 % of the toal wetland area from 2010 a 2017. Two major fires were detected, the largest in 2016 that covered 242 ha of a total of 535 ha.