Plant communities and reproductive phenology in mountainous regions of northern Libya

Ahmad K. Hegazy; Hanan F. Kabiel; Saud L. Al-Rowaily; Lesley Lovett-Doust; Abd El-Nasser S. Al Borki

doi:10.1007/s11676-016-0345-8

Journal of Forestry Research ›› 2016, Vol. 28 ›› Issue (4) : 741 -761. DOI: 10.1007/s11676-016-0345-8

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Plant communities and reproductive phenology in mountainous regions of northern Libya

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Abstract

Within the semi-desert landscape of northern Libya, two sub-humid escarpments occur: Al-Akhdar in the east and Nafusa (Jabal Al-Gharbi) in the west. This study compares plant communities in the two regions, which are along an elevation gradient, in terms of species composition and diversity, frequency of different Raunkiaer life forms, and reproductive phenology. The two regions differed in species composition and life-form frequency between regions and between elevation zones within each region. Patterns were associated with the lower rainfall and lower moisture-holding capacity of soils at Nafusa, resulting in more xeric conditions. Only 13% of species were shared between the two regional landscapes. Species diversity, life-form frequency, and duration of the flowering–fruiting phenophase were all affected by elevation above sea level. The duration of flowering and fruiting in spring and fall was associated with environmental conditions, although there were different thresholds in the two regions. There was both a spring and fall episode of flowering at Nafusa, but only spring flowering at Al-Akhdar. It is anticipated that there will be a gradual shift of plant communities to higher elevations and loss of certain sensitive species in response to ongoing climate change.

Keywords

Altitudinal gradient / Raunkiaer life forms / Reproductive phenology / Southern Mediterranean

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Ahmad K. Hegazy, Hanan F. Kabiel, Saud L. Al-Rowaily, Lesley Lovett-Doust, Abd El-Nasser S. Al Borki. Plant communities and reproductive phenology in mountainous regions of northern Libya. Journal of Forestry Research, 2016, 28(4): 741-761 DOI:10.1007/s11676-016-0345-8

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References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Al-Idrissi M, Sbeita A, Jebriel A, Zintani A, Shreidi A, Ghawawi H, Tazi M (1996) Libya: Country report to the FAO international technical conference on plant genetic resources. Tripoli, Libya

[2]	Allen S, Grimshaw H, Parkinson J, Quarmby C, Roberts J. Chemical analysis of ecological materials, 1974, Oxford: Blackwell.

[3]	Arnold JF. Plant life-form classification and its use in evaluating range conditions and trends. J Range Manag, 1955, 8: 176-181.

[4]	Bellard C, Bertelsmeier C, Leadley P, Thuiller W, Courchamp F. Impacts of climate change on the future of biodiversity. Ecol Lett, 2012, 15: 365-377.

[5]	Ben-Mahmoud R, Mansur S, Al-Gomati A. Land degradation and desertification in Libya, 2000, Tripoli: Land Degradation and Desertification Research Unit, Libyan Center for Remote Sensing and Space Science.

[6]	Boulos L (1999-2005) Flora of Egypt, vol 4. Al Hadara Publishing, Cairo

[7]	Boulos L (2009) Flora of Egypt checklist, Revised Annotated Edition. Al Hadara Publishing, Cairo

[8]	Bradley NL, Leopold AG, Ross J, Huffaker W. Phenological changes reflect climate change in Wisconsin. Proc Natl Acad Sci USA, 1999, 96: 9701-9704.

[9]	Brady NC, Weil RR. Elements of the nature and properties of soils, 2010 3 Boston: Prentice-Hall.

[10]	Brullo S, Furnari F. Phytogeographical considerations on the coastal vegetation of Cyrenaica. Anales Jardín Botánico De Madrid, 1981, 37: 765-772.

[11]	Cleland EE, Chuine I, Menzel A, Mooney HA, Schwartz MD. Shifting plant phenology in response to global change. Trends Ecol Evol, 2007, 22: 357-364.

[12]	Díaz S, Cabido M. Vive la différence: plant functional diversity matters to ecosystem processes. Trends Ecol Evol, 2001, 16: 646-655.

[13]	Díaz S, Cabido M, Zak M, Carretero EM, Araníbar J. Plant functional traits, ecosystem structure and land-use history along a climatic gradient in central-western Argentina. J Veg Sci, 1999, 10: 651-660.

[14]	Feng Y, Lei JQ, Xu XW, Pan BR. Composition and characteristics of Libyan flora. Arch Biol Sci Belgrad, 2013, 65: 651-657.

[15]	Fitter AH, Fitter RS, Harris ITB, Williamson MH. Relationships between first flowering date and temperature in the flora of a locality in central England. Funct Ecol, 1995, 9: 55-60.

[16]	Fitzjarrald DR, Acevedo OC, Moore KE. Climatic consequences of leaf presence in the Eastern United States. J Clim, 2001, 14: 598-614.

[17]	Gritti ES, Smith B, Sykes MT. Vulnerability of Mediterranean Basin ecosystems to climate change and invasion by exotic plant species. J Biogeogr, 2006, 33: 145-157.

[18]	Hadar L, Noy-Meir I, Perevolotsky A. The effect of shrub clearing and grazing on the composition of a Mediterranean plant community: functional groups versus species. J Veg Sci, 1999, 10: 673-682.

[19]	Hegazy AK. Trade-off between sexual and vegetative reproduction of the weedy Heliotropium curassavicum L. J Arid Environ, 1994, 27: 209-220.

[20]	Hegazy AK. Reproductive diversity and survival of the potential annual Diplotaxis harra (Forssk.) Boiss. (Brassicaceae) in Egypt. Ecography, 2001, 24: 403-412.

[21]	Hegazy AK, Lovett-Doust J. Plant ecology in the Middle East, 2016, Oxford: Oxford University Press

[22]	Hegazy AK, Fahmy GM, Ali MI, Gomaa NH. Vegetation diversity in natural and agro-ecosystems of arid lands. Community Ecol, 2004, 5: 163-176.

[23]	Hegazy AK, Lovett-Doust J, Hammouda O, Gomaa NH. Vegetation distribution along the altitudinal gradient in the northwestern Red Sea region. Community Ecol, 2007, 8: 151-162.

[24]	Hegazy AK, Medany MA, Kabiel HF, Maez MM. Spatial and temporal projected distribution of four crop plants in Egypt. Nat Resour Forum, 2008, 32: 316-324.

[25]	Hegazy AK, Boulos L, Kabiel HF, Sharashy OS. Vegetation and species altitudinal distribution in Al-Jabal Al-Akhdar landscape. Pak J Bot, 2011, 43: 1885-1898.

[26]	Hegazy AK, Alatar AA, Lovett-Doust J, El-Adawy HA. Spatial and temporal plant phenological niche differentiation at the Wadi Degla ecosystem (Egypt). Acta Bot Croat, 2012, 71: 261-277.

[27]	Hooper DU, Vitousek PM. Effects of plant composition and diversity on nutrient cycling. Ecol Monogr, 1997, 68: 121-149.

[28]	IPCC (2001) Climate change: the scientific basis. Third assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge

[29]	Jackson M. Soil chemical analysis, 1973, Englewood Cliffs: Prentice-Hall.

[30]	Jafri SM, El-Gadi A (1977-1993) Flora of Libya. Al Fatteh University, Tripoli

[31]	Johnson KH, Vogt KA, Clark HJ, Schmitz OJ, Vogt DJ. Biodiversity and the productivity and stability of ecosystems. Trends Ecol Evol, 1996, 11: 372-377.

[32]	Kabiel HF, Hegazy AK, Lovett-Doust L, Al-Rowaily SL, Al-Borki AE. Demography of the threatened endemic shrub, Arbutus pavarii, in the Al-Akhdar Mountainous Landscape of Libya. J For Res, 2016

[33]	Kabiel HF, Hegazy AK, Lovett-Doust L, Al-Rowaily SL, Al-Borki AE. Ecological assessment of populations of Juniperus phoenicea L. in the Al-Akhdar Mountains of Libya. Arid Land Res Manag, 2016, 30: 269-289.

[34]	Kessler M, Kluge J, Hemp A, Ohlemüller R. A global comparative analysis of elevational species richness patterns of ferns. Glob Ecol Biogeogr, 2011, 20: 868-880.

[35]	Kichenin E, Wardle DA, Peltzer DA, Morse CW, Freschet GT. Contrasting effects of plant inter- and intraspecific variation on community-level trait measures along an environmental gradient. Funct Ecol, 2013, 27: 1254-1261.

[36]	Lavorel S, Garnier E. Predicting changes in community composition and ecosystem functioning from plant traits: revisiting the Holy Grail. Funct Ecol, 2002, 16: 545-556.

[37]	Lavorel S, McIntyre S, Landsberg J, Forbes TDA. Plant functional classifications: from general functional groups to specific groups of response to disturbance. Trends Ecol Evol, 1997, 12: 474-478.

[38]	Lavorel S, McIntyre S, Grigulis K. Plant response to disturbance in a Mediterranean grassland: how many functional groups?. J Veg Sci, 1999, 10: 661-672.

[39]	Liu J, Tan YH, Slik JWF. Topography related habitat associations of tree species traits, composition and diversity in a Chinese tropical forest. For Ecol Manag, 2014, 330: 75-81.

[40]	Llorens L, Peñuelas J. Experimental evidence of future drier and warmer conditions affecting flowering of two co-occurring Mediterranean shrubs. Int J Plant Sci, 2005, 166: 235-245.

[41]	LNMC (2012) Libyan National Meteorological Center, Climate Research Unit, Tripoli (source for data on temperature and rainfall representing means for years 2006-2013)

[42]	Loreau M, Naeem S, Inchausti P, Bengtsson J, Grime JP, Hector A, Hooper DU, Huston MA, Raffaelli D, Schmid B, Tilman D, Wardle DA. Biodiversity and ecosystem functioning: current knowledge and future challenges. Science, 2001, 294: 804-808.

[43]	Lovett-Doust L. Population dynamics and local specialization in a clonal perennial (Ranunculus repens). I. The dynamics of ramets in contrasting habitats. J Ecol, 1981, 69: 743-755.

[44]	Lovett-Doust L. b. Population dynamics and local specialization in a clonal perennial (Ranunculus repens). II. The dynamics of leaves and reciprocal transplant–replant experiment. J Ecol, 1981, 69: 757-768.

[45]	Matesanz S, Gianoli E, Valladares F. Global change and the evolution of phenotypic plasticity in plants. Ann N Y Acad Sci, 2010, 126: 35-55.

[46]	Mauseth JD. Botany: an introduction to plant biology, 2003 3 Sudbury: Jones and Bartlett 422 427

[47]	McCain CM, Colwell RK. Assessing the threat to montane biodiversity from discordant shifts in temperature and precipitation in a changing climate. Ecol Lett, 2011, 14: 1236-1245.

[48]	McIntyre S, Lavorel S, Tremont RM. Plant life-history attributes: their relationship to disturbance response in herbaceous vegetation. J Ecol, 1995, 83: 31-44.

[49]	Posé D, Verhage L, Ott F, Yant L, Mathieu J, Angenent GC, Immink RGH, Schmid M. Temperature-dependent regulation of flowering by antagonistic FLM variants. Nature, 2013, 503: 414-417.

[50]	Rahbek C. The role of spatial scale and the perception of large-scale species-richness patterns. Ecol Lett, 2005, 8: 224-239.

[51]	Rathcke B, Lacey EP. Phenological patterns of terrestrial plants. Annu Rev Ecol Syst, 1985, 16: 179-214.

[52]	Raunkiaer C (1934) Plant life forms (trans: Gilbert-Cater H). Clarendon Press, Oxford

[53]	Read QD, Moorhead LC, Swenson NG, Bailey JK, Sanders NJ. Climate convergent effects of elevation on functional leaf traits within and among species. Funct Ecol, 2014, 28: 37-45.

[54]	Rodríguez-Loinaz G, Onaindia M, Amezaga I, Mijangos I, Garbisu C. Relationship between vegetation diversity and soil functional diversity in native mixed-oak forests. Soil Biol Biochem, 2008, 40: 49-60.

[55]	Spano D, Cesaraccio C, Duce P, Snyder RL. Phenological stages of natural species and their use as climate indicators. Int J Biometeorol, 1999, 42: 124-133.

[56]	Spehn EM, Joshi J, Schmid B, Alphei J, Körner C. Plant diversity effects on soil heterotrophic activity in experimental grassland ecosystems. Plant Soil, 2000, 224: 217-230.

[57]	Sternberg M, Shoshany M. Influence of slope aspect on Mediterranean woody formations: comparison of a semiarid and an arid site in Israel. Ecol Res, 2001, 16: 335-345.

[58]	Sundqvist MK, Giesler R, Graae BJ, Wallander H, Fogelberg E, Wardle DA. Interactive effects of vegetation type and elevation on aboveground and belowground properties in a subarctic tundra. Oikos, 2011, 120: 128-142.

[59]	Sundqvist MK, Sanders NJ, Wardle DA. Community and ecosystem responses to elevational gradients: processes, mechanisms, and insights for global change. Annu Rev Ecol Evol Syst, 2013, 44: 261-280.

[60]	Troeh FR, Thompson LM. Soils and Soil Fertility, 2005 6 Ames: Blackwell.

[61]	Tyler G. Relationships between climate and flowering of eight herbs in a Swedish deciduous forest. Ann Bot, 2001, 87: 623-630.

[62]	Valladares F, Gianoli E, Gómez JM. Ecological limits to plant phenotypic plasticity. New Phytol, 2007, 176: 749-763.

[63]	Walkovszky A. Changes in phenology of the locust tree (Robinia pseudoacacia L.) in Hungary. Int J Biometeorol, 1998, 41: 155-160.

[64]	Wang G, Zhou G, Yang L, Li Z. Distribution, species diversity and life-form spectra of plant communities along an altitudinal gradient in the northern slopes of Qilianshan Mountains, Gansu, China. Plant Ecol, 2002, 165: 169-181.