Carbon storage in the plant biomass of the Villavicencio nature reserve (Mendoza-Argentina).

Authors

  • Liliana Zivkovic
  • Eduardo Martínez Carretero
  • A. Dalmasso
  • M. Almirón

DOI:

https://doi.org/10.31055/1851.2372.v48.n3-4.7608

Keywords:

Carbono, formas de vida, área protegida.

Abstract

Carbon storage in the plant biomass of the Villavicencio Nature Reserve (Mendoza-Argentina). Nature reserves play a relevant role in carbon storage in arid lands. The vegetation of theNature Reserve of Villavicencio stores 98798 Mg (2.1 Mg/ha) of carbon in total; considering the Punaand unburned Monte vegetation, 91.2% of carbon occurs in aboveground parts (leaves and stems)and 8.8% in the root system. Monte vegetation, characterized by Larrea cuneifolia shrubland, stores77905 Mg C (3.9 Mg/ha), 78.8% of the total carbon in the area. Nanophanerophytes store 28.8% in theunburned shrubland, and 50.4% in the area burned in 2000, while chamaephytes store 95.5% in thearea burned in 2005. In the Puna belt, with 20893 Mg C (0.78 Mg/ha) stored, Jarava vaginata grasslanddominates and stores 88% of carbon, aboveground parts (leaves of grasses and leaves and stems ofchamaephytes) store 90% of carbon. In general, and taking into account both vegetation belts, 19.8% ofthe carbon present in the Reserve is stored in nanophanerophytes, 32.8% in hemicryptophytes, 28.8% inchamaephytes and 18.4% in succulents (cactaceae). Assessment of carbon storage, taking into accountthe different phytogeographic units, is necessary for management of the protected area and for a betterunderstanding of the role of these environments in the mitigation of atmospheric carbon.

Downloads

Issue

Section

Original Articles

How to Cite

“Carbon Storage in the Plant Biomass of the Villavicencio Nature Reserve (Mendoza-Argentina)”. 2014. Boletín De La Sociedad Argentina De Botánica (Journal of the Argentine Botanical Society 48 (3-4): 543-51. https://doi.org/10.31055/1851.2372.v48.n3-4.7608.

Similar Articles

1-10 of 571

You may also start an advanced similarity search for this article.

Most read articles by the same author(s)