by
Alicia Mercadet, J.R. Marquetti, A. Alvarez, M. Pérez, P. Echevarria, Esperanza Hidalgo, Osiris Ortiz, E. Rodríguez, P. Romeu, B. Avila, Denia Parada, L. Yero, P. Sotolongo, E. Martinez, H. Maresma, A. González, Orlidia Hechavarria, A. Hernández and Lizeyda Paredes[12].
INTRODUCTION
Obtaining productive, well-adapted forests to promote sustainable, more profitable forest plantations implies a careful selection of species and provenances, especially where good wood quality and high yields are a target.
Botanical enthusiasts in Cuba first introduced forest species in the nineteenth century, notably Casuarina equisetifolia in 1830 and Eucalyptus species in 1867 (Betancourt, A. 1987). Silviculturalists then launched a more production-oriented and organized series of introductions in 1929, establishing observation plots and small production lots in the province of Pinar del Río with 54 Eucalyptus species from Australia (Fors, A., 1957). They later moved on to establish arboreta in Itabo (Matanzas) and Camaguey, as well as plots with various species in Tope de Collantes (Sancti Spiritus) and other areas of the country.
In 1971 the Centro de Investigación y Capacitación Forestales (now the Instituto de Investigaciones Forestales) launched a programme of species and provenance introductions to increase wood production. A summary of this programme was presented in Forest Genetic Resouces No. 27 (1999) (see Alvarez, 1999). More details are provided below.
MATERIALS AND METHODS
The working methods adopted conform to Burley and Wood (1979), mostly fully randomized experimental designs in the species trials, and completely randomized blocks for the provenance trials. The Eucalyptus seeds were supplied by CSIRO (Australia), the Gmelina arborea and Tectona grandis seeds by DANIDA and the pine and broadleaf seeds for dry zones by the Oxford Forest Institute of England.
RESULTS
A) Species trials.
Species trials were run on 72 genera in 31 environments (Table 1). All environments showed a positive response for at least some of the species tested. The results of the best-adapted species are found in Mercadet et al, 1990 and 1995.
Table No. 1: Taxonomic composition of the material evaluated and best-adapted species.
|
Genus |
No. of species |
Best-adapted species |
|
Eucalyptus |
64 |
E. pellita, E. alba, E. terticornis, E. brassii, E.
grandis, E. citriodora, E. maculata, E. resinifera, E. saligna, E. torrelliana,
E. botryoides, E. deglupta, E. deanei, E. camaldulensis, E. globulus and
E. urophylla |
|
Pinus |
25 |
P. caribaea var. caribaea, P. caribaea var.
hondurensis and P. caribaea var. bahamensis |
|
Terminalia |
13 |
T. arjuna and T. paniculata |
|
Casuarina |
10 |
C. glauca, C. cunninghamiana, C. junghuhniana, C.
equisetifolia and C. fraseriana |
|
Albizzia |
8 |
A. procera |
|
Acacia |
7 |
A. mangium and A. auriculiformis |
|
Pterocarpus and Swietenia |
5 |
P. indicus and S. macrophylla |
|
Leucaena |
4 |
L. leucocephala |
|
Caesalpinea, Cordia, Cupresus, Khaya, Lysiloma, Melia,
Pithecellobium and Zanthoxyllum |
2 |
Melia azadirachta |
|
Aleurites, Alvaradoa, Anacardium, Andira, Apoplanesia,
Ateleia, Barixylum, Bauhinia, Borsistum, Bursera, Calophyllum, Calycophyllum,
Carapa, Cassia, Cedrela, Colubrina, Couropita, Dalbergia, Enterolobium,
Crescentia, Cunninghamia, Fraxinus, Genipa, Gliricidia, Gmelina, Grevillea,
Guaiacum, Guazuma, Haematoxylum, Hebestigma, Hibiscus, Hura, Hymenea, Juniperus,
Largestroemia, Luchea, Mastichodendron, Melaleuca, Milletia, Mimosa,
Mycrosperma, Ochroma, Paraserianthes, Parkinsonia, Picodendron, Pouteria,
Prosopis, Samanea, Schizolobium, Senna, Simaruba, Spatodea, Tamarindus, Tectona,
Toona and Trichilia |
1 |
Cedrela odorata, Enterolobium cyclocarpum, Grevillea
robusta, Gliricidia sepium, Paraserianthes falcataria, Prosopis juliflora
and Tectona grandis |
Table 2 summarizes the results from 13 species of the 16 tested in 13 environments.
Table No 2: Results of provenance trials for 13 species
|
Province |
Location |
Species and recommended provenance |
|
Pinar del Río
|
Santa Bárbara |
Pinus caribaea: Marbajita, Cuba |
|
Bartolo |
Pinus caribaea: Marbajita, Cuba |
|
|
Viñales |
Pinus tropicalis: Viñales |
|
|
Sierra del Rosario |
Gmelina arborea: Khao Yai, Thailand; Camaguey and Tope de Collantes,
Cuba |
|
|
Matanzas
|
Itabo |
Tectona grandis: Ranchuelo, Cienfuegos, Cuba |
|
Alameda |
Melaleuca leucadendron: Alameda, Itabo, Motembo, Ciénaga
de Zapata, Tope de Collantes and Camaguey, Cuba |
|
|
Sancti Spíritus |
Tope de Collantes |
Pinus caribaea: Marbajita, Cuba |
|
Villa Clara |
Motembo |
Pinus caribaea: Marbajita, Cuba |
|
Camagüey |
San Felipe |
Pinus caribaea: Marbajita, Cuba |
|
Holguín |
Meseta de Mayarí |
Pinus cubensis: Pinalito, Cuba |
|
Granma
|
Central Sierra Maestra |
Eucalyptus saligna: Macurije, Cuba |
|
Northern foothills of the Central Sierra Maestra l |
Cordia gerascanthus: El Francisco and Rio Guarabo, Cuba |
|
|
Guantánamo |
Cagüeybaje |
Pinus cubensis: Palma Clara, Cuba |
CONCLUSIONS AND PROJECTIONS
The species and provenances reported as promising proved to be potentially widely adaptable, surviving and growing in different soil types, even the poorest, and deserve consideration for reforestation plans.
The most ecologically flexible genera in the species introduction trials were: Eucalyptus, Pinus, Casuarina, Acacia and Terminalia. Of these the best-performing were: Pinus caribaea var. caribaea, Eucalyptus pellita, Eucalyptus grandis, Eucalyptus maculata, Eucalyptus tereticornis, Eucalyptus resinifera, Eucalyptus camaldulensis and Eucalyptus brassii.
Further research should focus on:
Provenance studies on the best-adapted species in the species elimination trials: Eucalyptus citriodora, E. camaldulensis, E. grandis, E. tereticornis, Pareserianthes falcataria, Prosopis juliflora, Acacia mangium, Acacia auriculiformis and Melaleuca leucadendron.REFERENCESReplication of provenance trials in other locations with some species now under study: Casuarina equisetifolia, Swietenia macrophylla, Casuarina junghuhniana, Eucalyptus pellita, Tectona grandis, Gmelina arborea and Cordia gerascanthus.
Launching new species introductions for wood production, but only for environments for which there has been no response with tested species, painstakingly evaluating the introduction of certain exceptionally productive species which therefore deserve to be tested.
Launching species introduction trials for other Ministry of Agriculture Programme priority objectives, first evaluating existing species.
Combining the new species introduction trials with provenance trials and the new provenance trials with progeny trials, as a means of saving time, work and money.
Alvarez, A. 1999. Forest genetics in Cuba. Progress in the 20th Century and Challenges in the 21st Century. Forest Genetic Resources No. 27, pp. 16-25. FAO, Rome.
Burley, J. and P.J. Wood, 1979. Manual sobre investigaciones de especies y procedencias con referencia especial a los trópicos. Oxford University, Oxford, 297 pp.
Betancourt, A.1987. Silvicultura especial de Arboles Maderables Tropicales. Editorial Científico Técnica. Havana, Cuba. p78-79, 128-130.
Fors, A.1957. El eucalipto en la economía del agricultor. Agrotecnia. Havana, Cuba. Nov-Dec. p 34-38.
Mac Dicken, K.G; Wolf, G.V.; Briscoe, C.B., 1991. Standard Research Methods for Multipurpose Trees and Shrubs. Winrock International Institute for Agricultural Development. USA.
Mercadet, A. et al. 1990. Final report of Stage 509-03-01. (unpublished). Instituto de Investigaciones Forestales, Cuba.
Mercadet, A. et al. 1995. Final report of Stage 004.36-03. (unpublished). Instituto de Investigaciones Forestales,Cuba.
