Does the phenotypic selection affect the genetic structure and diversity? A study case on Walnut in eastern central Italy (the region of Marche)

Fulvio Ducci; Maria Emilia Malvolti; Roberta Proietti; Lorella Brandoni

doi:10.12899/asr-880

Authors

Fulvio Ducci Consiglio per la Ricerca e la sperimentazione in Agricoltura, Forestry Research Centre (CRA-SEL), Arezzo, Italy
Maria Emilia Malvolti Centro Nazionale delle Ricerche, Istituto di Biologia Agroambientale e Forestale, Porano, Italy
Roberta Proietti Consiglio per la Ricerca e la sperimentazione in Agricoltura, Forestry Research Centre (CRA-SEL), Arezzo, Italy
Lorella Brandoni Regione Marche, Italy

DOI:

https://doi.org/10.12899/asr-880

Keywords:

Juglans regia, selection index, genetic variability, isozymes

Abstract

The Persian walnut (Juglans regia L.) is widely planted in western Europe, either for fruit either for high quality timber production. This tree is generally considered non authoctonous, probably introduced from East some 7000 years ago and spread by several ancient civilisations. The possible artificial origin seems confirmed by the low intra-specific variation and the higher individual variability recorded by several Authors as well as by the lack of natural populations. Indeed, only wider fruit cultivation areas or small groups, lines or isolated walnut trees can be recorded in Italy. The occurrence of walnuts in forest, escaped from cultivation areas, is very rare. Due to the increased interest of planters, walnut plantations have been extended several ten thousands hectares throughout all western Europe. As a consequence of that it was evident the necessity of selected suitable basic populations in order to supply high quality reproductive materials. The conventional method based on the organisation of a wide and exhaustive seed procurement from the native range to establish provenance tests is at the present impossible. Thus it is necessary to study methods of selection which consider basic materials growing within the western European range. This study is aimed to test the efficiency of the multi-trait Selection Index method, in preserving levels of genetic diversity and structures compatible with the standards observed within a reference system of extended Italian populations. As a consequence of the relatively recent introduction, the genetic structure of the species shows individual variation higher than inter-population diversity. Those genetic structure characteristics were revealed also during a survey of walnut resources in the region of Marche, central Italy. The survey was the starting point for selecting and preserving basic materials for high quality woody production, possibly interesting for forest nurseries in the region. The genetic variation of Marche’s population, compared to a reference system of 7 other Italian provenances, was used as a base to establish a possible improvement strategy together with basic guidelines to manage those genetic resources. Indeed, the very important individual component of the genetic variation suggested to select directly superior phenotypes in view of establishing a comparative multisite progeny test network. No substantial differences were detected concerning the genetic structure of the Italian population, neither within the Marche population, neither in the phenotypically selected material. Homozygosity was always high, probably due to genetic erosion, isolation and adaptation to extreme conditions. Given this general situation in the Marche area, a special care should be payed in the management of walnut reproductive materials, in order to maintain sufficient levels of variation in plantations.

References

Aletà N., Rovira M., Ninot A., Arùs P., 1993 - Inheritance of four isozymes in walnut. Acta Horticulturae 311: 62–67.

Ashton G. C., Braden W. H., 1961 - Serum globulin polymorphism in mice. J. Biol. Sci. 14: 248–253.

Arulsekar S., Parfitt D. E., McGranahan G., 1985 - Isozyme gene markers in Juglans species. Inheritance of GPI and AAT in Juglans regia L. and Juglans hindsii. J. of Heredity 76: 103–106.

Arulsekar S., Parfitt D. E., McGranahan G., 1986 – Inheritance of phosphoglucomutase and esterase isozymes in Persian walnut. J. of Heredity 77: 220–221.

Cavalli – Sforza L. L., Menozzi P., Piazza A., 1994 - Storia e geografia dei geni umani. Adelphi edizioni: 791 p.

Colinvaux P., 1986 - Ecology. New York. John Wiley & Sons.: 134 p.

Colletti L., 2001. Risultati dell’applicazione del regolamento CEE 2080/92 in Italia. Sherwood, Foreste ed Alberi Oggi, 70: 23–31.

Conkle M. T., Hodgkiss P. D., Nunnally L. B., Hunter S. C., 1982 - Starch gel electrophoresis of Conifer seeds: a laboratory manual. Pacif. SW Forest and Range Experiment Station, Berkley USDA – FS Gen. Techn. Rep. PSW 64: 18 p.

Ducci F., 1989 - Noce e ciliegio da legno: esame della produzione vivaistica nell’Appennino centro settentrionale. Ann. Ist. Sperim. Selvic., Arezzo XVIII (1987): 177–213.

Ducci, F., De Rogatis A., Proietti R., 1997 - Protezione delle risorse genetiche di Juglans regia L. Ann. Ist. Sperim. Selvic., Arezzo XXV and XXVI (1994-1995): 35–55.

Ducci F., Proietti R., Calvo E., Correale F., 2005. 2.5 La valutazione di cloni e provenienze. In: Monografia sul ciliegio selvatico (Prunus avium L.), a cura di F. Ducci, CRA - Ist. Sper. Selv., Arezzo (ISBN 88-901923-0-5): 45 – 52.

Ducci F., Veracini A., 1992 - Criteri di scelta e sistema di valutazione di fenotipi superiori nel miglioramento genetico di latifoglie a legname pregiato. Ann. Ist. Sperim. Selv., Arezzo XXI (1990): 57–80.

Ducci F., Germani A., Janin G., Proietti R., Signorini G.– 2006 – Clone selection for wild cherry (Prunus avium L.) with special reference to some traits used. Bozzano M., Rusanen M., Rotach P., Koskela J. (compilers). Euforgen – Noble Hardwoods Network, Report of VI (9-11 June 2002, Alter do Chao, Portugal) and VII Meeting (22-24 April 2004, Arezzo, Italy). International Plant Genetic Resources Institute, Rome, Italy: 53-60.

El Kassaby Y. A.,1991 - Genetic variation within and among conifer population: review and evaluation of methods. In: Biochemical markers in the population genetics of forest trees, Fineschi S., Malvolti M. E., Cannata F., Hattemer H. H. Ed., SPB Academic Publishing, The Hague, The Netherlands: 61–65.

Esopus, 1978 - Favole. Ed., Rizzoli, Bibl. Universale Rizzoli, Milano: 179 p.

Farris J. S., 1972 - Estimating phylogenetic trees from distance matrices. Am. Nat., 106: 645-688.

Fornari B., Cannata F., Spada M., Malvolti M. E., 1999 – Allozyme analysis of genetic diversity and differentiation in European and Asiatic walnut (Juglans regia L.) populations. Forest Genetics 6 (2): 115-127.

Futuyma D. J., 1979. Evolutonary Biology. Sunderland, Mass. Sinauer Associates, Inc.: 156 p.

Goudet J., 2001 - FSTAT, a program to estimate and test gene diversities and fixation indices (version 2.9.3)

Hartl D.L., Clark A.G., 1989 - Principles of population genetics.Sinauer, Sunderland, MA.

Hemery G. E., 2000 - Juglans regia L.: genetic variation and provenance performance. Dep. of Plant Science, Univ. of Oxford: 176 p. (Unpublished D Phil. Thesis).

Huntley B., Birks H. J. B., 1983 - An Atlas of past and present pollen maps for europe: 0-3000 years ago. Cambridge University Press. N. Y.: 238 – 242.

Kim Z.S., 1979 - Inheritance of leucine aminopeptidase and acid phosphatase in beech (Fagus sylvatica L.). Silvae genetica 28: 68–71.

Kim Z.S., 1980 - Veränderung der genetischen struktur von buchenpopulationen durch viabilitätsselektion in keimlingstadium. Göttingen Res. Notes in For. Genetics, 3 (Phd thesis).

Leslie C. A., McGranahan G., 1988 - Native populations of Juglans regia L.. A draft. In: Proceedings of the International Conference on Walnut, Yalova, Turkey, September, 19 – 23, 111–124.

Lynne Corn M.. 1992. The Listing of a of Species: Legal Definition and Biological Realities, 92-944 ENR, CRS Report for the Congress. National Library for the Environment, USA, (http://www.cnie.org/NLE/CRSreports/biodiversity/biodv-10.cfm#1).

Malvolti M. E., Paciucci M., Fineschi S., Cannata F., 1993 – Genetic variation in Italian populations of Juglans regia L.. Acta Horticulturae 311: 86–94.

Malvolti M. E., Fineschi S., Pigliucci M., 1994 - Morphological Integration and Genetic Variability in Juglans regia L.. Journal of Heredity 85: 389–394.

Malvolti M. E., Fineschi S., Morgante M., Vendramin G., 1995a - Mating system of a naturalized Juglans regia L. population in Italy. Population genetics and genetic conservation of forest trees. Baradat Ph., Adams W. T. & Müller–Starch G. Ed., SPB Academic Publishing, Amsterdam, The Netherlands, 305–308.

Malvolti M. E., Spada M., Beritognolo I., Cannata F., 1995b - Differentiation of Juglans regia L. european stands and italian cultivars. In: Proc. Workshop of E. U. Air/Walnut Project: European development of walnut trees for wood and fruit production as an alternative and extensive system to agricultural crops. Groups C and D. Thessaloniki, Greece, March 27-30 , 1995: 34–51.

Malvolti M. E., Beritognolo I., Spada M., 1996 - Diversità genetica in Juglans regia L.: valutazione delle risorse genetiche in Europa per uno sviluppo agricolo e forestale sostenibile. Sherwood – Foreste e Alberi Oggi 15: 11–17.

Malvolti M. E., Beritognolo I., Spada M., Cannata F, 1997 - Ricerche sulle risorse genetiche e sulla biologia riproduttiva di Juglans regia L. in Italia mediante marcatori molecolari. Ann. Ist. Sperim. Selv. Arezzo XXV – XXVI (1994-1995): 9–34.

Nei M., 1978 - Estimation of average heterozygosity and genetic distance from a small number of individuals. Genetics 89: 583–590.

Nei M., 1987 - Molecular evolutionary genetics. Columbia University Press, NY, USA

Raymond M., Rousset F., 1995 - An exact test for population differentiation. Evolution 49: 1280–1283.

Rholf F. J., 1994 - NTSYS-pc. Numerical taxonomy and Multivariate Analys System, vers. 1.80. Exeter Software–Applied Biostatistic Inc., N. Y.

Sneath P.H.A., Sokal R. R., 1973 - Numerical Taxonomy. Freeman, S. Francisco (USA): 573 p.

Swofford D.L., Selander R.B., 1989 - Biosys-1. Illinois Natural History Survey: 43 p.

Vallejos C. E., 1983 - Enzyme activity staining. S. D. Tanksley andT. J. Orton Ed., Isozymes in Plant Genetics and Breeding , part A. Elsevier Science Publishers B. V. Amsterdam: 469–516.

Vendramin G. G., Morgante M., 2005 - Genetic diversity in forest tree populations and conservation: analysis of neutral and adaptive variation. Proc. Workshop on: “The role of biotechnology”, Villa Gualino, Turin, Italy. 5-7 March, 2005: 129-130.

Villani F., Benedettelli S., Paciucci M., Cherubini M., Pigliucci M., 1991 - Genetic variation and differentiation between natural populations of chestnut. Biochemical markers in the population

genetics of forest trees. Edited by Fineschi S., Malvolti M.E., Cannata F., Hattemer H. H., SPB Acad. Publishing, bv, the Hague, the Netherlands: 91–103.

Weir B. S., Cockerham C. C., 1984 - Estimating F-statistic for the analys of population structure. Evolution 38: 1358–1370.

Wright, S. 1978 Evolution and genetics of populations. Vol. 4. Variability within and among natural populations. University of Chicago Press, Chicago.

Zobel B., Talbert, J., 1984 - Applied Forest Tree Improvement. J. Wiley and Sons Ed., N.Y.: 505 p.