CICYTTP   12500
CENTRO DE INVESTIGACION CIENTIFICA Y DE TRANSFERENCIA TECNOLOGICA A LA PRODUCCION
Unidad Ejecutora - UE
artículos
Título:
Temporal evolution of litterfall and potential bio-element return in a successional forest sequence of the Espinal Ecorregion, Argentina
Autor/es:
PABLO G. ACEÑOLAZA; CARLOS A. MENDOZA, JUAN F. GALLARDO, PABLO G. ACEÑOLAZA, MARÍA B. TURRIÓN NIEVES, VALENTÍN PANDO; JUAN F. GALLARDO-LANCHO; MARIA-BELEN TURRION Y VALENTIN PANDO
Revista:
Forest Systems
Editorial:
Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA)
Referencias:
Año: 2014 vol. 23 p. 411 - 424
ISSN:
2171-5068
Resumen:
Aim of study: The aim of this work was to assess the litterfall contribution and the return of bioelements of a successional forest sequence from the Mesopotamian Espinal (Argentina) which was associated with livestock production. Area of study: Mesopotamian Espinal, Argentina. Material and methods: Litterfall samples were taken and a chemical characterization of their fractions was determined in three stages: a) in the initial successional stage (IF); b) in an intermediate secondary forest (SF); and c) in a mature forest (MF). Main results: The litterfall contribution of the three forests was 1,140 ± 98, 2,947 ± 154, and 2,911 ± 57 kg DM ha?1 yr?1; respectively. The IF showed a seasonal pattern of contribution with a peak occurring during summer (528 ± 85 kg DM ha?1 yr?1), then decreasing during autumn, winter, and spring (241 ± 30, 165 ± 27, and 207 ± 29 kg DM ha?1 season?1, respectively). The SF showed a rather constant seasonal pattern (about 750 kg DM season?1). The MF showed significant differences among seasons, the maximum and minimum contributions ranging between 846 ± 29 and 598 ± 33 kg DM ha?1 season?1 in summer and spring, respectively. The litterfall leaves/branch ratio decreased as ecological succession advanced, being lower as the forest gets more mature. As a consequence, this ratio can be used as an indicator of maturity in the sequence. The potential return of bio-elements of the successional forest sequence was proportional to the litterfall input, with a maximum amount of N in the Fabaceae species. Research highlights: The litterfall assessment and the leaves/branch ratio allowed the characterization of the successional stages in Xerophytic forest used for livestock production.