After fire regeneration in a Mediterranean serpentine mountain

Noelia Hidalgo Triana, Andrés V. Pérez Latorre

Article ID: 671
Vol 2, Issue 1, 2019

VIEWS - 499 (Abstract) 555 (PDF)

Abstract


The management of Mediterranean mountains need to know whether or not the flora is adapted to respond to fire and, if so, through what mechanisms. Serpentine outcrops constitute particular ecosystems in the Mediterranean Basin, and plants need to make an additional adaptive effort. The objective of this study is to know the response to fire of the main members of the group of serpentine plants, which habit the Spanish Mediterranean ultramafic mountain, to help in their management. For this purpose, monitoring plots were established on a burned ultramafic outcrop, which was affected by fire in August 2012.They were located in the Mediterranean south of the Iberian Peninsula, Andalusia region. The dominant vegetation of this serpentine ecosystem had been studied previously to fire; it was a shrubland composed of endemic serpentinophytes (small shrubs and perennial herbs) included in Digitali laciniatae-Halimietum atriplicifolii plant association (Cisto-Lavanduletea class) in an opened pine forest. The post-fire response of the plants was studied in the stablished burned plots by field works through permanent 200 x 10 m transect methods, consisting on checking whether they were resprouters, seeders, both of them or if they showed no survival response. Additional information about fire related functional traits is provided for the studied taxa from other studies. Of the total of plants studied (23 taxa), 74% acted as resprouters, 30% as seeders, some of which also had the capacity to resprout (13%), and only 9% of the plants did not show any survival strategy. The presence of a resprouting burl was not high (17%), although serpentine small shrubs such as Bupleurum acutifolium and the generalist Teucrium haenseleri had this kind of organ. The herbaceous taxa Sanguisorba verrucosa, Galium boissieranum and Linum carratracense were seen to be resprouters and seeders. The serpentine obligated Ni-accumulator, Alyssum serpyllifolium subsp. malacitanum, did not show any survival strategy in the face of fire and therefore their populations need monitoring after fires. In the studied ecosystems no species had traits that would protect the aerial part of the plant against fire, although most of the species are capable of post-fire generation by below ground buds. Our results show that the ecosystem studied, composed of taxa with a high degree of endemism and some of them threatened, is predominantly adapted to survival after a fire, although their response capacity may be decreased by environmental factors.


Keywords


Post-fire Regeneration; Ecosystem Management; Functional Trait; Shrubland Serpentine Endemics; Mediterranean Ranges

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References


1. Asensi A, Rodríguez N, Díez-Garretas B, et al.Nickel hyperaccumulation of some subspecies of Alyssum serpyllifolium (Brassicaceae) from ultramafic soils of Iberian Peninsula. In: Boyd RS, Baker AJM and Proctor J. (eds.). Ultramafic rocks: their soils, vegetation and fauna, Proceedings of the IV International Conference on Serpentine, Ecology. Science Reviews, 2004; 263-265.DOI: http://dx.doi.org/10.1071/BT14245

2. Bañares A, Blanca G, Güemes J, et al. Atlas y Libro Rojo de la Flora Vascular Amenazada de España, Dirección General de Conservación de la Naturaleza y Sociedad, Madrid 2003.

3. Barbour MG, Major J. Terrestrial vegetation of California. In: O’Geen AT, Dahlgren RA, Sanchez-Mata D (eds.) Chapter three: California soils and examples of Ultramafic Vegetation, Wiley Interscience, New York 1977.

4. Blanca G, Cabezudo B, Cueto M, et al. (Eds), Flora Vascular de Andalucía Oriental (2ª edición corregida y aumentada), Consejería de Medio Ambiente, Junta de Andalucía, Sevilla. 2011; 1751.

5. Bradstock R. Effects of large fires on biodiversity in southeastern Australia: disaster or template for diversity? International Journal of Wildland Fire 2008; 17: 809-822.DOI: https://doi.org/10.1071/WF07153

6. Burrows GE.An anatomical study of epicormic bud strand structure in Eucalyptus cladocalyx (Myrtaceae). Aust J Bot 2000; 48: 233-245.DOI: 10.1071/BT98075

7. Burrows GE.Epicormic strand structure in Angophora, Eucalyptus and Lophostemon (Myrtaceae) - implications for fire resistance and recovery. New Phytologist 2002; 153: 111-131.DOI: 10.1046/j.0028-646X.2001.00299.x

8. Cabezudo B, Pérez Latorre AV, Nieto JM. Regeneración de un alcornocal incendiado en el Sur de España (Istán, Málaga). Acta Botanica Malacitana1995; 20: 143-151.

9. Castro J, Leverkus AB, Marañón-Jiménez S, et al. Efecto del manejo de la madera quemada sobre la restauración y regeneración post-incendio: implicaciones para la gestión y para el conjunto del ecosistema. In: Actas del 6º Congreso Forestal Español, Sociedad Española de Ciencias Forestales, 6CFE 01-242,2013.

10. Cruz A, Pérez B, Quintana JR, et al. Resprouting in the Mediterranean-type shrub Erica australis affected by soil resource availability. Journal of Vegetation Science2002; 13: 641-650.DOI: 10.1111/j.1654-1103.2002.tb02092.x

11. Driscoll DonA, Lindenmayer DB, Bennett AF, et al.Fire management for biodiversity conservation: Key research questions and our capacity to answer them. Biological Conservation 2010; 143 (9): 1928-1939.DOI: https://doi.org/10.1016/j.biocon.2010.05.026

12. Hidalgo-Triana N. Tipos funcionales (fenomorfología y ecomorfología) de la flora y vegetación serpentinícola mediterránea en Andalucía y California. PhD thesis, University of Málaga, Spain. (In Spanish)2016

13. Hidalgo-Triana, N, Pérez Latorre, AV, et al. Plant functional traits and groups in a Californian serpentine chaparral2017Ecol Reshttps://doi.org/10.1007/s11284-017-1532-6

14. IGME Piles ME, González EC, Martín BA (1978) Coin (Hoja 1066). Magna 50. 2ª Serie, 1978.

15. IUCN (2012) Categorías y Criterios de la Lista Roja de la UICN: Versión 3.1. Segunda edición. Gland, Suiza y Cambridge, Reino Unido: UICN. vi + 34pp. Previously published as IUCN Red List Categories and Criteria: Version 3.1. Second edition. (Gland, Switzerland and Cambridge, UK). http://www.iucnredlist.org/ (Accessed on December 2015).

16. Keeley JE. Resilience of Mediterranean shrub communities to fire. In: Dell B, Hopkins AJM and Lamonts BB (eds.) Resilience in Mediterranean-type Ecosystems. Dr. W. Junk, Dordrecht, 1986; 95-112.

17.

18. Keeley JE, Aplet GH, Christensen NL, et al.Ecological Foundations for Fire Management in North American Forest and Shrubland Ecosystems, USDA Forest Service, Pacific Northwest Research Station.,2009.

19. Keeley JE, Pausas JG, Rundel PW, et al.Fire as an evolutionary pressure shaping plant traits. Trends in Plant Science 2011; 16(8): 406-411.

20. Keeley JE, Bond WJ, Bradstock RA, et al. Fire in Mediterranean Ecosystem: Ecology, Evolution and Management. Cambridge: Cambridge University Press,2012DOI: https://doi.org/10.1016/j.tplants.2011.04.002

21. Kruckeberg A (2002) Geology and plant life. University Press. Washington.

22. Lloret F, López-Soria L.Resprouting of Erica multiflora after experimental fire treatments. Journal of Vegetation Science 1993; 4: 367-374.DOI: 10.2307/3235595

23. Lloret F, Verdú M, Flores-Hernández N, et al. Fire and resprouting in Mediterranean ecosystems: insights from an external biogeographical region, the Mexican shrubland. American Journal of Botany 1999; 86:1655-1661.DOI: 10.2307/2656663

24. Lloret F.Régimen de incendios y regeneración. In: Valladares, F. (ed.) Ecología del bosque mediterráneo en un mundo cambiante, Ministerio de Medio Ambiente, EGRAF, Madrid, 2004; 101-126.

25. López-Soria L, Castell C. Comparative genet survival after fire in woody Mediterranean species. Oecologia 1992; 91: 493-499.DOI: 10.1007/BF00650321

26. Meira-Neto JAA, Clemente A, Oliveira G, et al.Post-fire and post-quarry rehabilitation successions in Mediterranean-like ecosystems: Implications for ecological restoration. Ecological Engineering 2011; 37: 1132-1139.DOI: https://doi.org/10.1016/j.ecoleng.2011.02.008

27. Muñoz Garmendia F, Navarro Aranda C ,Quintanar Sánchez A (eds.) Flora Iberica 9. Real Jardín Botánico, CSIC. Madrid,2015.

28. Ojeda F, Marañón T, Arroyo J. Postfire Regeneration of a Mediterranean Heathland in southern Spain. International Journal of Wildland Fire1996; 6(4): 191-198.DOI: 10.1071/WF9960191

29. Ojeda F. Respuesta de las plantas al fuego. In: Herrera CM (coord) El monte mediterráneo en Andalucía, Consejería de Medio Ambiente, Junta de Andalucía, Sevilla, 2004; 153-159.

30. Orshan G. Plant form as describing vegetation and expressing adaptation to environment. Annals of Botany 1986 ; 54: 7-37.

31. Paula S, Arianoutsou M, Kazanis D, et al. [dataset] BROT: Fire-related traits for plant species of the Mediterranean

32. Basin. Ecology 2009; 90: (5), 1420.

33. Paula S, Naulin PI, Arce C, et al. Lignotubers in Mediterranean basin plants. Plant Ecology 2016; 217: 661-676.DOI: doi:10.1007/s11258-015-0538-9

34. Pausas JG, Bradstock RA, Keith DA, et al.Plant functional traits in relation to fire in crown-fire ecosystems. Ecology 2004; 85: 1085-1100.

35. Pausas JG, Bradstock, RA Fire persistence traits of plants along a productivity and disturbance gradient in Mediterranean shrublands of SE Australia. Global Ecology and Biogeography 2007; 16: 330-340.DOI: 10.1111/j.1466-8238.2006.00283.x

36. Pausas JG, Keeley JE. Evolutionary ecology of resprouting and seeding in fire-prone ecosystems. New Phytologist2014; 204: 55-65. DOI: 10.1111/nph.12921

37. Pérez Latorre AV, Cabezudo B, Navarro T, et al.Caracterización fenológica y ecomorfológica de alcornocales andaluces (Málaga, España). Anales del Jardín Botánico de Madrid 1996; 54: 554-560.DOI: http://editaefa.com/aefa/PDF/Perez_Latorre/Alcornocales_Andaluces.pdf

38. Pérez Latorre AV, Cabezudo B.Use of monocharacteristic growth forms and phenological phases to describe and differentiate plant communities in Mediterranean-type ecosystems. Plant Ecology 2002 ; 161: 231-249.DOI: doi.org/10.1023/A:1020327522487

39. Pérez Latorre AV, Gavira O, Cabezudo B. Ecomorphology and phenomorphology of Mediterranean heathlands (SW Iberian Peninsula). Phytocoenologia2007;37: 239-268.DOI: 10.1127/0340-269X/2007/0037-0239

40. Pérez Latorre AV, Hidalgo Triana N, Casimiro-Soriguer F, et al. Flora y vegetación serpentinícola Ibérica: Sierras de Alpujata y La Robla (Málaga, España).Lagascalia2013;33:43-74.DOI: http://institucional.us.es/revistas/lagascalia/33/art_4.pdf

41. Pérez Latorre AV, Hidalgo-Triana N, Cabezudo B. Composition, ecology and conservation of the south-Iberian serpentine flora in the context of the Mediterranean basin. Anales del Jardin Botanico de Madrid 2013; 70(1): 62-71.doi: http://dx.doi.org/10.3989/ajbm.2334

42. Riba M. Effects of cutting recurrence and rainfall pattern on resprouting vigour and growth of Erica arborea L. Journal of Vegetation Science 1997; 8: 401-404.DOI: 10.2307/3237330

43. Safford H, Harrison S.Fire effects on plant diversity in serpentine versus sandstone chaparral. Ecology2004; 85: 539-548.DOI: 10.1890/03-0039

44. Souto C, Monteiro A. Ecological fire influences on Q. suber forest ecosystems. Journal of Mediterranean Ecology 1987; 13(4): 69-77.DOI: http://agris.fao.org/agris-search

45. Zedler PH. Are some plants born to burn? Trends in Ecology & Evolution1995; 10 (10): 393-394.DOI: https://doi.org/10.1016/S0169-5347(00)89153-3




DOI: https://doi.org/10.24294/sf.v1i4.671

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