Modelo de simulación de producción de materia seca y concentración de proteína bruta de gramíneas creciendo en bosques de Nothofagus antarctica (G. Forster) Oerst. bajo uso silvopastoril

Authors

  • Héctor A. Bahamonde Facultad de Agronomía. Universidad de Buenos Aires
  • Pablo L. Peri
  • Juan P. Mayo

DOI:

https://doi.org/10.25260/EA.14.24.1.0.43

Abstract

Ecología Austral, 24:111-117 (2014)

Nothofagus antarctica (ñire) occupies a significant fraction of the Southern Patagonian forests and are often used as silvopastoral systems. It lacks, however the information to make optimal and sustainable use of these systems. In this work we modeled the production of dry matter (DM) and the variation in the concentration of crude protein (CP) of grasses in silvopastoral systems in ñire forests, considering environmental variables (air and soil temperature, air humidity, soil moisture, site quality, crown cover, including) and applying existing and own information. The model was focused on the scale of stand considering a homogeneous and coeval population of ñire under conditions of southern Patagonia (Santa Cruz and Tierra del Fuego). Model sensitivity analysis showed that the most important parameter were the stand site quality on DM and the soil temperature on the CP. We found a significant lineal correlation for DM (R=0.52; P<0.001, average underestimation 22%) and CP (R=0.47; P<0.001, average overestimation 24%) when real and estimated values from the model were compared. The results of the simulations were coherent with empirical data in regard to the environmental variables and management of the stand affecting DM and CP of the understory, and suggest that the model is acceptable for use as a guiding tool in the management of understory grasses in ñire forests.

References

BAHAMONDE, HA; PL PERI; G MARTÍNEZ PASTUR & V LENCINAS. 2009. Variaciones microclimáticas en bosques primarios y bajo uso silvopastoril de Nothofagus antarctica en dos Clases de Sitio en Patagonia sur. Primer congreso silvopastoril. Posadas, Misiones, Argentina. Pp. 289-296.

BAHAMONDE, HA. 2011. Efecto de variables ambientales sobre la Productividad Primaria Neta Aérea y la concentración de proteína bruta de gramíneas en Sistemas Silvopastoriles de ñire (Nothofagus antarctica): creación de un modelo de simulación. Tesis Maestría en Recursos Naturales Universidad de Buenos Aires (UBA). Pp. 148.

BAHAMONDE, HA; PL PERI; R ÁLVAREZ & A BARNEIX. 2012a. Producción y calidad de gramíneas en un gradiente de calidades de sitio y coberturas en bosques de Nothofagus antárctica (G. Forster) Oerst. en Patagonia. Ecología Austral, 22:62-73.

BAHAMONDE, HA; PL PERI; R ÁLVAREZ; A BARNEIX; A MORETTO; ET AL. 2012b. Litter decomposition and nutrients dynamics in Nothofagus antarctica forests under silvopastoral use in Southern Patagonia. Agroforestry Systems, 84:345-360.

BAHAMONDE, HA; PL PERI; R ÁLVAREZ; A BARNEIX; A MORETTO ; ET AL. 2013. Silvopastoral use of Nothofagus antarctica in Southern Patagonian forests, influence over net nitrogen soil mineralization. Agroforestry Systems, 87:259-271.

BERGEZ, JE; M ETIENNE & P BALANDIER. 1999. ALWAYS: a plot-based silvopastoral system model. Ecological modeling, 115:1-17.

BREIEROVA, L & M CHOUDHARI. 1996. An introduction to sensitivity analysis, MIT System Dynamics in Education Project. Pp. 67. http://ocw.mit.edu/courses/sloan-school-of-management/15-988-system-dynamics-self-study-fall-1998-spring-1999/readings/sensitivityanalysis.pdf

COLLADO, L. 2009. Informe final ordenamiento de bosques Ley 26331. Secretaría de Desarrollo Sustentable y Ambiente, Dirección general de Bosques, Tierra del Fuego. Pp. 13.

ECHEVERRÍA, C; A HUBERT & F TABERLET. 2007. Estudio comparativo de los componentes del balance hídrico en un bosque nativo y una pradera en el sur de Chile. Bosque, 28:271-280.

FERNÁNDEZ, M; J GYENGE; G DALLA SALDA & T SCHLICHTER. 2002. Silvopastoral systems in northwestern Patagonia. I: growth and photosynthesis of Stipa speciosa under different levels of Pinus ponderosa cover. Agroforestry Systems, 55:27-35.

GARGAGLIONE, V. 2011. Dinámica de macronutrientes en bosques de Nothofagus antarctica de Patagonia sur. Tesis Doctorado en Ciencias Agrarias Universidad de Buenos Aires (UBA). Pp. 132.

GILLET, F; O BESSON & JM GOBAT. 2002. PATUMOD: a compartment model of vegetation dynamics in wooded pasture. Ecological Modelling, 187:267-290.

GUSTAVSSON, AM; JF ANGUS & BRW TORSELL. 1995. An integrated model for growth and nutritional value of timothy. Agricultural Systems, 47:73-92.

GYENGE, J; C CARRANZA; ME FERNÁNDEZ; M LEDESMA & T SCHLICHTER. 2006. Desarrollo de un modelo de simulación de sistemas silvopastoriles (MSSP INTA). La Serena: Chile. 2006. Artículo Completo. II Congreso Latinoamericano IUFRO, IUFROLAT 2006.

HARALDSSON, HV. 2000. Introduction to systems and causal loop diagrams. System Dynamic course. Lumes. Lund University. http://goo.gl/g3kX4b.

HIJMANS, RJ; SE CAMERON; JL PARRA; PG JONES & A JARVIS. 2005. Very high resolution interpolated climate surfaces for global land areas. International Journal of Climatology, 25:1965-1978.

IVANCICH, H; G MARTÍNEZ PASTUR & PL PERI. 2011. Modelos forzados y no forzados para el cálculo de índice de sitio en bosques de Nothofagus antarctica en Patagonia sur. Bosque, 32:135-145.

KNOWLES, RL; GC HORVATH; MA CARTER & MF HAWKE. 1999. Developing a canopy closure model to predict overstorey/understorey relationships in Pinus radiate silvopastoral systems. Agroforestry Systems, 43:109-119.

LETORNEAU, FJ. 2006. Estudio de las interacciones positivas y negativas sobre el crecimiento de Austrocedrus chilensis durante una etapa inicial de desarrollo, en un matorral sucecional mésico. Tesis Doctoral Universidad Nacional del Comahue, Argentina. Pp. 182.

MARTÍNEZ PASTUR, G; MV LENCINAS; P PERI; A MORETTO; JM CELLINI; ET AL. 2007. Harvesting adaptation to Biodiversity Conservation in Sawmill Industry: Technology Innovation and Monitoring Program. Journal of Technology Management & Innovation, 2:58-70.

MCCALL, DG & GJ BISHOP-HURLEY. 2003. A pasture growth model for use in a whole-farm dairy production model. Agricultural Systems, 76:1183-1205.

MEAD, DJ. 2009. Biophysical interactions in silvopastoral systems: a New Zealand perspective. Pp. 3-9 en: Actas del 1º Congreso Nacional de Sistemas Silvopastoriles. 14-16 Mayo, Misiones, Argentina.

ORMAECHEA, SG; PL PERI; R MOLINA & JP MAYO. 2009. Situación y manejo actual del sector ganadero en establecimientos con bosque de ñire (Nothofagus antarctica) de Patagonia sur. Pp 385-393 en: Actas del 1º Congreso Nacional de Sistemas Silvopastoriles. 14-16 Mayo, Misiones, Argentina.

PERI, PL; MV STURZENBAUM; L MONELOS; E LIVRAGHI; R CHRISTIANSEN; ET AL. 2005. Productividad de sistemas silvopastoriles en bosques nativos de ñire (Nothofagus antarctica) de Patagonia Austral. Actas III Congreso Forestal Argentino y Latinoamericano. Corrientes, Argentina.Pp. 10.

PERI, P. 2009. Evaluación de Pastizales en bosques de Nothofagus antarctica – Método Ñirantal sur. Pp. 335-342 en: Actas Primer Congreso Nacional Sistemas Silvopastoriles. Posadas, Misiones, Argentina.

PERI, PL; N HANSEN; V RUSCH; L TEJERA; L MONELOS; ET AL. 2009. Pautas de manejo de sistemas silvopastoriles en bosques nativos de Nothofagus antarctica (ñire) en Patagonia. Pp. 151-155 en: Actas Primer Congreso Nacional Sistemas Silvopastoriles. Posadas, Misiones, Argentina.

PERI, P & RG LASAGNO. 2010. Biomass, carbon and nutrient storage for dominant grasses of cold temperate steppe grasslands in southern Patagonia, Argentina. Journal of Arid Environments, 74:23-34.

PERI, PL & SG ORMAECHEA. 2013. Relevamiento de los bosques nativos de ñire (Nothofagus antarctica) en Santa Cruz: base para su conservación y manejo. Ediciones INTA. Pp. 88. ISBN 978-987-679-219-6.

ROMERA, AJ; DG MCCALL; JM LEE & MG AGNUSDEI. 2009. Improving the McCall herbage growth model. New Zealand Journal of Agricultural Research, 52:s477-494.

SCHROTH, G. 1999. A review of belowground interactions in agroforestry, focusing on mechanisms and management options. Agroforestry Systems, 43:5-34.

SKOVSGAARD, JP & JK VANKLAY. 2008. Forest site productivity: a review of the evolution of dendrometric concepts for even-aged stands. Forestry, 81:13-31.

SVERDRUP, HU & HV HARALDSSON.2001. Finding simplicity in complexity in biogeochemical modelling. Pp. 430 en: Wainwright & Mulligan (eds.). Environmental Modelling. John Wiley & sons.

TAIZ, L & E ZEIGER. 2006. Mineral nutrition. Pp 74-84 en: Plant physiology, 4th ed. Sinauer Associates Inc, Sunderland.

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Published

2014-04-01

How to Cite

Bahamonde, H. A., Peri, P. L., & Mayo, J. P. (2014). Modelo de simulación de producción de materia seca y concentración de proteína bruta de gramíneas creciendo en bosques de Nothofagus antarctica (G. Forster) Oerst. bajo uso silvopastoril. Ecología Austral, 24(1), 111–117. https://doi.org/10.25260/EA.14.24.1.0.43

Issue

Vol. 24 No. 1 (2014): April 2014, Pages 1-132

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Articles

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Copyright (c) 2014 Héctor A. Bahamonde, Pablo L. Peri, Juan P. Mayo

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