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5. Linking taxonomic, phylogenetic and functional plant diversity with ecosystem services of cliffs and screes in greece

Author

Panitsa, M. Kokkoris, I.P. Kougioumoutzis, K. Kontopanou, A. Bazos, I. Strid, A. Dimopoulos, P.

Abstract

Sparsely vegetated habitats of cliffs and screes act as refugia for many regional and local endemic specialized plant taxa most of which have evolved precisely for that type of habitat. The interplay between taxonomic, phylogenetic, and functional plant diversity on rock and scree habitats of extreme environmental conditions, enlightens the relations of plant communities and ecosystems and facilitates management planning for the conservation of biodiversity and ecosystem services. The identification of biodiversity patterns and hotspots (taxonomic, phylogenetic, and functional) contributes to the integration of the ecosystem services (ES) approach for the mapping and assessment of ecosystems and their services (MAES) implementation in Greece and the creation of thematic maps based on the MAES reporting format. The overlap among the protected areas’ network revealed that almost all areas of cliffs and screes of medium, high, and very high taxonomic and phylogenetic plant endemism are included in the Natura 2000 area network. The results of this study provide the baseline information for ES assessments at sparsely vegetated land of cliffs and screes. Our results contribute to the implementation of certain indicators of the national set of MAES indicators in Greece such as (a) floristic diversity and (b) microrefugia of endemic diversity and support of decision-making. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

Published
2021

6. Plant endemism centres and biodiversity hotspots in Greece

Author

Kougioumoutzis, K. Kokkoris, I.P. Panitsa, M. Kallimanis, A. Strid, A. Dimopoulos, P.

Subjects
humanities
Abstract

Biodiversity hotspots (BH) cover a small fraction of the Earth’s surface, yet host numerous endemics. Human-induced biodiversity loss has been increasing worldwide, despite attempts to halt the extinction crisis. There is thus an urgent need to efficiently allocate the available conservation funds in an optimised conservation prioritization scheme. Identifying BH and endemism centres (EC) is therefore a valuable tool in conservation prioritization and planning. Even though Greece is one of the most plant species-rich European countries, few studies have dealt with the identification of BH or EC and none has ever incorporated phylogenetic information or extended to the national scale. Consequently, we are unaware of the extent that Special Areas of Conservation (SAC) of the Natura 2000 network efficiently protect Greek plant diversity. Here, we located for the first time at a national scale and in a phylogenetic framework, the areas serving as BH and EC, and assessed the effectiveness of the Greek SAC in safeguarding them. BH and EC are mainly located near mountainous areas, and in areas supposedly floristically impoverished, such as the central Aegean islands. A critical re-assessment of the Greek SAC might be needed to minimize the extinction risk of the Greek endemics, by focusing the conservation efforts also on the BH and EC that fall outside the established Greek SAC. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

Published
2021

8. Spatial phylogenetics, biogeographical patterns and conservation implications of the endemic flora of Crete (Aegean, Greece) under climate change scenarios

Author

Kougioumoutzis, K. Kokkoris, I.P. Panitsa, M. Trigas, P. Strid, A. Dimopoulos, P.

Abstract

Human-induced biodiversity loss has been accelerating since the industrial revolution. The climate change impacts will severely alter the biodiversity and biogeographical patterns at all scales, leading to biotic homogenization. Due to underfunding, a climate smart, conservation-prioritization scheme is needed to optimize species protection. Spatial phylogenetics enable the identification of endemism centers and provide valuable insights regarding the eco-evolutionary and conservation value, as well as the biogeographical origin of a given area. Many studies exist regarding the conservation prioritization of mainland areas, yet none has assessed how climate change might alter the biodiversity and biogeographical patterns of an island biodiversity hotspot. Thus, we conducted a phylogenetically informed, conservation prioritization study dealing with the effects of climate change on Crete’s plant diversity and biogeographical patterns. Using several macroecological analyses, we identified the current and future endemism centers and assessed the impact of climate change on the biogeographical patterns in Crete. The highlands of Cretan mountains have served as both diversity cradles and museums, due to their stable climate and high topographical heterogeneity, providing important ecosystem services. Historical processes seem to have driven diversification and endemic species distribution in Crete. Due to the changing climate and the subsequent biotic homogenization, Crete’s unique bioregionalization, which strongly reminiscent the spatial configuration of the Pliocene/Pleistocene Cretan paleo-islands, will drastically change. The emergence of the ‘Anthropocene’ era calls for the prioritization of biodiversity-rich areas, serving as mixed-endemism centers, with high overlaps among protected areas and climatic refugia. © 2020 by the authors. Licensee MDPI, Basel, Switzerland.

Published
2020

9. Plant diversity patterns and conservation implications under climate-change scenarios in the mediterranean: The case of crete (Aegean, Greece)

Author

Kougioumoutzis, K. Kokkoris, I.P. Panitsa, M. Trigas, P. Strid, A. Dimopoulos, P.

Abstract

Climate change poses a great challenge for biodiversity conservation. Several studies exist regarding climate change's impacts on European plants, yet none has investigated how climate change will affect the extinction risk of the entire endemic flora of an island biodiversity hotspot, with intense human disturbance. Our aim is to assess climate change's impacts on the biodiversity patterns of the endemic plants of Crete (S Aegean) and provide a case-study upon which a climate-smart conservation planning strategy might be set. We employed a variety of macroecological analyses and estimated the current and future biodiversity, conservation and extinction hotspots in Crete. We evaluated the effectiveness of climatic refugia and the Natura 2000 network of protected areas (PAs) for protecting the most vulnerable species and identified the taxa of conservation priority based on the Evolutionary Distinct and Globally Endangered (EDGE) index. The results revealed that high altitude areas of Cretan mountains constitute biodiversity hotspots and areas of high conservation and evolutionary value. Due to the "escalator to extinction" phenomenon, these areas are projected to become diversity "death-zones" and should thus be prioritised. Conservation efforts should be targeted at areas with overlaps among PAs and climatic refugia, characterised by high diversity and EDGE scores. This conservation-prioritisation planning will allow the preservation of evolutionary heritage, trait diversity and future ecosystem services for human well-being and acts as a pilot for similar regions worldwide. © 2020 by the authors.

Published
2020

10. Taxonomic and phylogenetic diversity patterns in the Northern Sporades islets complex (West Aegean, Greece)

Author

Iliadou, E. Bazos, I. Kougioumoutzis, K. Karadimou, E. Kokkoris, I. Panitsa, M. Raus, T. Strid, A. Dimopoulos, P.

Abstract

The Aegean archipelago has long been the main research area of numerous biogeographers, plant ecologists and taxonomists due to its intricate palaeogeography and high environmental and topographical heterogeneity. Nevertheless, some parts of this archipelago are essentially unexplored and the processes driving spatial variation in species composition remain unaddressed. Aiming to fill these gaps, we investigated the flora and plant diversity patterns of the Northern Sporades island group, as well as its biogeographical relationships. The study area lies in the biogeographical region of the West Aegean islands and comprises 23 islands and islets. The total flora of the study area consists of 1202 infrageneric taxa, belonging to 517 genera and 120 families, reflecting its geographical and bioclimatic characteristics. The endemic element consists of 41 taxa (3.4% of the flora), eight of which are restricted to the West Aegean islands and two are single island endemics. Area emerged as the most important variable in shaping plant species richness, while niche-based processes played a lesser role in driving these patterns. Regarding the taxonomic and phylogenetic beta-diversity patterns, environmental filtering and not dispersal limitation seems to shape the plant assemblages of the Northern Sporades islets. Biogeographically, the Northern Sporades island group seems to be closer connected to the Kiklades rather than to Evvia or the adjacent mainland, due to their longer isolation and separate palaeogeographical history during the Quaternary. © 2020, Springer-Verlag GmbH Austria, part of Springer Nature.

Published
2020

11. Temporal turnover of the flora of lake islands: The island of Lake Pamvotis (Epirus, Greece)

Author

Sarika, M. Papanikolaou, A. Yannitsaros, A. Chitos, T. Panitsa, M.

Abstract

Lake Pamvotis is one of the Balkan "ancient" lakes, a Quaternary refugium of great environmental importance and ecological value, that is under various anthropogenic pressures. It belongs to a Natura 2000 Special Area for Conservation and Special Protection Area. Almost in the middle of the lake, there is an inhabited island - one of the two lake islands in Greece - that also attracts touristic interest. The main objectives of the present study are to provide a floristic inventory of the protected island, combining data of two different sampling periods, within a 25 year interval, in order to estimate temporal beta diversity and species turnover of the island's plant diversity. The value of the absolute and relative turnover rates of the floristic diversity of the island studied are 4.24 and 1.72, respectively and are amongst the higher rates reported for plants. The absolute difference between extinct (E) and immigrant (l) taxa is to a great extent accounted, concerning life forms, by therophytes (1.86), hemicryptophytes (1.56) and geophytes (1.04) and, for habitats, by taxa preferring agricultural and ruderal forms (2.52). © Sarika M et al.

Published
2019

12. Phytodiversity of Limnos (North Aegean, Greece)--an update and evaluation.

Author

Bergmeier, E., Ristow, M., Krause, J., Meyer, S., and Panitsa, M.

Subjects
ISLAND plants, PLANT species, PHYTOGEOGRAPHY, BOTANY, VASCULAR plants, CLOVER, SPECIES
Abstract

The present update to the flora of the island of Limnos in the North Aegean, based on our field studies in 2016 and 2018-2021, raises the currently known number of vascular plant species to 960 native taxa, 63 established neophytes and 27 species of as yet casual status, a total of 1,050 taxa. To substantiate these figures, we provide a catalogue of about 740 annotated records of 264 plant taxa, of which 231 taxa were not previously known to occur in the island. Sixty-eight taxa were found as new to the flora of the North Aegean biogeographic region. Among the biogeographically most significant of the newly recorded native species are Campanula lavrensis, Lactuca aculeata, Leontodon longirostris, Secale strictum subsp. anatolicum and Trifolium pachycalyx. The new finds strengthen the biogeographic affinities of Limnos with the Aegean islands further south. Most of the records were from agricultural landscapes and small-scale habitats. Several richness focus areas of newly recorded plants were identified. As a conclusion, the alleged species poverty of Limnos cannot be confirmed. [ABSTRACT FROM AUTHOR]

Published
2021
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13. European Red List of Habitats Part 2. Terrestrial and freshwater habitats

Author

Janssen, J. A. M., Rodwell, J. S., García Criado, M., Gubbay, S., Haynes, T., Nieto, A., Sanders, N., Landucci, F., Loidi, J., Ssymank, A., Tahvanainen, T., Valderrabano, M., Acosta, A., Aronsson, M., Arts, G., Attorre, F., Bergmeier, E., Bijlsma, R. -. J., Bioret, F., Biţă-nicolae, C., Biurrun, I., Calix, M., Capelo, J., Čarni, A., Chytrý, M., Dengler, J., Dimopoulos, P., Essl, F., Gardfjell, H., Gigante, D., Giusso Del Galdo, G., Hájek, M., Jansen, F., Jansen, J., Kapfer, J., Mickolajczak, A., Molina, J. A., Molnár, Z., Paternoster, D., Piernik, A., Poulin, B., Renaux, B., Schaminée, J. H. J., Šumberová, K., Toivonen, H., Tonteri, T., Tsiripidis, I., Tzonev, R., Valachovič, M., Aarrestad, P. A., Agrillo, E., Alegro, E., Alonso, I., Angus, S., Argagnon, O., Armiraglio, S., Assini, S., Aunina, L., Averis, A. B. G., Averis, A. M., Bagella, S., Barina, Z., Barron, S., Bell, S., Bendiksen, E., Bölöni, J., Brandrud, T. E., Brophy, J., Buffa, G., Campos, J. A., Casella, L., Christodoulou, C., Church, A., Corbett, P., Couvreur, J. -. M., Creer, J., Crowle, A., Dahlgren, J., De Keersmaeker, L., Delarze, R., Delescaille, L. -. M., Denys, L., De Saeger, S., Devany, F., De Vries, D., Diack, I., Dimitrov, M., Eide, W., Espirito Santo, D., Fagaras, M., Fievet, V., Finck, P., Fitzpatrick, U., Fotiadis, G., Framstad, E., Frankard, P., Giancola, C., Gussev, C. H., Hall, R., Hamill, B., Haveman, R., Heinze, S., Hennekens, S., Hobohm, C., Ivanov, P., Jacobson, A., Janauer, G., Janišová, M., Jefferson, R. G., Jones, P., Juvan, N., Kącki, Z., Kallimanis, A., Kazoglou, Y., Keith, D., Keulen, K., Király, G., Kirby, K., Kočí, M., Kontula, T., Leibak, E., Leyssen, A., Lotman, S., Lyngstad, A., Mäemets, H., Mainstone, C., Mäkelä, K., Marceno, C., Martin, J. R., Matevski, V., Mesterházy, A., Milanović, Đ., Millaku, F., Miller, R., Millet, J., Mjelde, M., Moen, A., Nygaard, B., Øien, D. -. I., O’Neill, F., Paal, J., Packet, J., Paelinckx, D., Panaïotis, C., Panitsa, M., Perrin, P., Pezzi, G., Prisco, I., Prosser, M., Provoost, S., Rašomavičius, V., Raths, U., Rees, S., Riecken, U., Roosaluste, E., Rove, I., Reymann, J., Rodriguez, J. P., Rothero, E., Rusakova, V., Rusina, S., Scanlan, C., Schuiling, R., Sciandrello, S., Sell, I., Šibík, J., Simkin, J., Škvorc, Ž., Spray, D., Stešević, D., Strand, G. H., Stupar, V., Thomaes, A., Trajanovska, S., Van Braekel, A., Van Landuyt, W., Vanderkerkhove, K., Vandevoorde, B., Van Uytvanck, J., Varga, A., Velkovski, N., Venanzoni, R., Verté, P., Viciani, D., Vrahnakis, M., Von Wachenfeldt, E., Wallace, H., Watt, S., Weeda, E., Wibail, L., Willner, W., P. W. I. L. S. O., N., and Xystrakis, . F.

Subjects
Habitat, Conservation, IUCN, red list, European Directive
Published
2016

15. Patterns of species richness on very small islands: the plants of the Aegean archipelago

Author

Panitsa, M., Tzanoudakis, D., Triantis, Kostas A., Sfenthourakis, Spyros, and Sfenthourakis, Spyros [0000-0003-3213-2502]

Subjects
Southern Europe, Insular biogeography, Biogeography, Habitat types, plant, Species-area relationship, Poaceae, Small Island Effect, biology.animal, habitat type, grazing, Arrhenius model, species richness, Ecology, Evolution, Behavior and Systematics, Island biogeography, Diversity, geography, geography.geographical_feature_category, Greece, species diversity, Ecology, biology, fungi, Species diversity, Fabaceae, Plants, Aegean archipelago, Europe, Taxon, Habitat, Archipelago, Choros model, Eurasia, regression, Aegean Islands, Species richness, Seabird, small island state
Abstract

Aim: To investigate the species-area relationship (SAR) of plants on very small islands, to examine the effect of other factors on species richness, and to check for a possible Small Island Effect (SIE). Location: The study used data on the floral composition of 86 very small islands (all < 0.050 km 2) of the Aegean archipelago (Greece). Methods: We used standard techniques for linear and nonlinear regression in order to check several models of the SAR, and stepwise multiple regression to check for the effects of factors other than area on species richness ('habitat diversity', elevation, and distance from nearest large island), as well as the performance of the Choros model. We also checked for the SAR of certain taxonomic and ecological plant groups that are of special importance in eastern Mediterranean islands, such as halophytes, therophytes, Leguminosae and Gramineae. We used one-way anova to check for differences in richness between grazed and non-grazed islands, and we explored possible effects of nesting seabirds on the islands' flora. Results: Area explained a small percentage of total species richness variance in all cases. The linearized power model of the SAR provided the best fit for the total species list and several subgroups of species, while the semi-log model provided better fits for grazed islands, grasses and therophytes. None of the nonlinear models explained more variance. The slope of the SAR was very high, mainly due to the contribution of non-grazed islands. No significant SIE could be detected. The Choros model explained more variance than all SARs, although a large amount of variance of species richness still remained unexplained. Elevation was found to be the only important factor, other than area, to influence species richness. Habitat diversity did not seem important, although there were serious methodological problems in properly defining it, especially for plants. Grazing was an important factor influencing the flora of small islands. Grazed islands were richer than non-grazed, but the response of their species richness to area was particularly low, indicating decreased floral heterogeneity among islands. We did not detect any important effects of the presence of nesting seabird colonies. Main conclusions: Species richness on small islands may behave idiosyncratically, but this does not always lead to a typical SIE. Plants of Aegean islets conform to the classical Arrhenius model of the SAR, a result mainly due to the contribution of non-grazed islands. At the same time, the factors examined explain a small portion of total variance in species richness, indicating the possible contribution of other, non-standard factors, or even of stochastic effects. The proper definition of habitat diversity as pertaining to the taxon examined in each case is a recurrent problem in such studies. Nevertheless, the combined effect of area and a proxy for environmental heterogeneity is once again superior to area alone in explaining species richness. © 2006 The Authors. 33 1223 1234 Cited By :58

Published
2006
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16. Comparison of Land Cover/Land Use and Habitat classification systems for Habitat mapping from space: strengths and weaknesses evidenced in Mediterranean sites of Natura 2000 network

Author

Tomaselli V., Dimopoulos P., Marangi C., Kallimanis A.S., Adamo M., Tarantino C., Panitsa M., Terzi M., Veronico G., Lovergine F., Nagendra H., Lucas R., Mairota P., Mücher C.A., and Blonda P.

Subjects
Geography, Jaccard index, geography.geographical_feature_category, Land use, Habitat, habitat mapping, Biodiversity, Wetland, Land cover, Natura 2000, Temporal scales, Environmental planning
Abstract

At a global level, protected sites have been established for the primary purpose of conserving biodiversity, with survey and monitoring of habitats undertaken largely within their boundaries. However, because of increasing human populations with greater access to resources, there is a need to now consider monitoring anthropic activities in the surrounding landscapes as pressures and disturbances are impacting on the functioning and biodiversity values of many protected sites. Earth Observation (EO) data acquired across a range of spatial and temporal scales offer new opportunities for monitoring biodiversity over varying time-scales, either through direct or indirect mapping of species or habitats. However, Land Cover (LC) and/or Land Use (LU), rather than habitat maps are generated in many national and international programs and, whilst the translation from one classification to the other is desirable, differences in definitions and criteria have so far limited the establishment of a unified approach. Focusing on both natural and non-natural environments associated with Natura 2000 sites in the Mediterranean, this paper considers the extent to which three common LC/LU taxonomies (CORINE, the Food and Agricultural Organisation (FAO) Land Cover Classification System (FAO-LCCS) and the IGBP) can be translated to habitat taxonomies with minimum use of additional environmental attributes and/or in situ data. A qualitative and quantitative analysis based on the Jaccard’s index established the FAOLCCS as being the most useful taxonomy for harmonizing LC/LU maps with different legends and dealing with the complexity of habitat description and as a framework for translating EO-derived LC/LU to habitat categories. As demonstration, a habitat map of a wetland site is obtained through translation of the LCCS taxonomy.

Published
2013

18. From plots to islands: Species diversity at different scales

Author

Sfenthourakis, Spyros, Panitsa, M., and Sfenthourakis, Spyros [0000-0003-3213-2502]

Subjects
Beta diversity, sampling, Aegean islands, Greece, species diversity, island biogeography, plant community, Species-area relationship, respiratory system, Plants, Species-accumulation curves, Diversity partitioning, diversity index, ecological modeling, Alpha diversity, species richness, community composition, human activities
Abstract

Aim To investigate how plant diversity of whole islands ('gamma') is related to alpha and beta diversity patterns among sampling plots within each island, thus exploring aspects of diversity patterns across scales. Location Nineteen islands of the Aegean Sea, Greece. Methods Plant species were recorded at both the whole-island scale and in small 100m 2 plots on each island. Mean plot species richness was considered as a measure of alpha diversity, and six indices of the 'variation'-type beta diversity were also applied. In addition, we partitioned beta diversity into a 'nestedness' and a 'replacement' component, using the total species richness recorded in all plots of each island as a measure of 'gamma' diversity. We also applied 10 species-area models to predict the total observed richness of each island from accumulated plot species richness. Results Mean alpha diversity was not significantly correlated with the overall island species richness or island area. The range of plot species richness for each island was significantly correlated with both overall species richness and area. Alpha diversity was not correlated with most indices of beta diversity. The majority of beta diversity indices were correlated with whole-island species richness, and this was also true for the 'replacement' component of beta diversity. The rational function model provided the best prediction of observed island species richness, with Monod's and the exponential models following closely. Inaccuracy of predictions was positively correlated with the number of plots and with most indices of beta diversity. Main conclusions Diversity at the broader scale (whole islands) is shaped mainly by variation among small local samples (beta diversity), while local alpha diversity is not a good predictor of species diversity at broader scales. In this system, all results support the crucial role of habitat diversity in determining the species-area relationship. © 2011 Blackwell Publishing Ltd. 39 750 759 Cited By :9

Published
2012

19. Factors affecting plant species richness and endemism on land-bridge islands - An example from the East Aegean archipelago

Author

Panitsa, M., Trigas, P., Iatrou, G., Sfenthourakis, Spyros, and Sfenthourakis, Spyros [0000-0003-3213-2502]

Subjects
plant community, Introduced species, Species-area relationship, Subspecies, habitat quality, environmental factor, species richness, Endemism, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, geography, geography.geographical_feature_category, Greece, Ecology, native species, Species diversity, Habitat diversity, East Aegean archipelago, Habitat, Flora, endemism, Archipelago, Elevation, Choros model, Mantel test, Species richness, Aegean Islands, floristics
Abstract

The native flora and a number of environmental factors were recorded for twenty islands in the eastern Aegean archipelago (Greece) in order to study the patterns of native and endemic plant species diversity as well as the effects of environmental factors in shaping these patterns at different levels of endemism. Stepwise regressions were used to test the effects of these factors on species richness of native and especially of endemic plants, at local scales. The performance of the Choros model was also compared with the separate effects of area and habitat diversity using simple linear regressions. The residuals from the species-area functions of native and endemic species were used as indices of relative island richness. Out of the 2238 species and subspecies recorded in total, 302 taxa (13.4%) are endemics (either single island endemics or endemic at a broader scale, namely Aegean, Greek-Aegean, or Anatolian-Aegean). All native, all endemic and Aegean endemic species similarities among islands were assessed and the three matrices were compared with the matrices of among-island geographical distances and island similarities based on components of habitat diversity using Mantel test. Among the factors tested, habitat diversity, of which elevation is another dimension, is the main factor affecting floral richness on east Aegean islands. The patterns exhibited by local endemics, though, are of a more idiosyncratic nature since this factor is the major predictor of species richness of most of the endemics levels (including single island endemics) except the Aegean endemics which are better predicted by elevation. The Choros model does not provide a better prediction of richness than habitat diversity alone. There is a positive correlation between native species similarities and geographical distances among islands, but no correlation between environmental and floral similarities. © 2010 Elsevier Masson SAS. 36 431 437 Cited By :18

Published
2010

20. Biogeographical determinants for total and endemic species richness in a continental archipelago

Author

Kallimanis, A.S. Bergmeier, E. Panitsa, M. Georghiou, K. Delipetrou, P. Dimopoulos, P.

Abstract

We examined the relationship between plant species richness and biogeographical variables (island area, island maximum elevation, distance from nearest inhabited island, distance from nearest mainland) using a data set comprising 201 islands of the Aegean archipelago. We found that endemic species richness was strongly correlated to total species richness. Single-island endemic species richness was most strongly correlated to island maximum elevation, and then to island area, with an apparent small island effect for islands smaller than 47 km2. Total species richness was most strongly correlated to island area (with no apparent small island effect), and less strongly correlated to island maximum elevation. Distance from the mainland or other inhabited islands displayed limited predictive value in our data set. The slope of the relationship between species richness and geographical factors (island area, elevation, distance from island/mainland) was steeper for endemic species richness than for total richness. Finally, the different scales of endemicity (single-island endemics, island group endemics and Aegean regional endemics) displayed similar qualitative trends and only differed quantitatively. Thus, we conclude that different biogeographical factors act as drivers for total species richness than for endemic species richness. © Springer Science+Business Media B.V. 2009.

Published
2010

21. Turnover of plants on small islets of the eastern Aegean Sea within two decades

Author

Panitsa, M., Tzanoudakis, D., Sfenthourakis, Spyros, and Sfenthourakis, Spyros [0000-0003-3213-2502]

Subjects
seabird, Greece, Species turnover, plant community, immigrant, Extinction, Nestedness, Aegean Sea, colony, Immigrants, Co-occurrence, Mediterranean Sea, Aegean, grazing, community composition, species occurrence, Community dynamics, Island biogeography, Species richness
Abstract

Aim: To estimate species turnover of plants on 32 small islands within a 20-year period and to assess possible changes in community composition and properties, such as species richness and factors affecting it, nestedness, species co-occurrence and overall community similarity. Additionally, to assess the possible effects of grazing, gull colonies and fire on turnover values. Location: Thirty-two islets in the eastern Aegean Sea (Greece). Methods: Complete sampling of plants was performed in 1974 and in 1990-94 (mostly in 1994, which was used as the reference year). Species turnover rates were estimated using both per island and per species approaches. Multiple regression was used to evaluate factors affecting species richness. Chi-square tests were applied to compare community composition among sampling periods. The effects of various factors on turnover rates and species richness were examined using one-way anova and ancova. Mann-Whitney tests were applied in order to check for differences between frequencies of occurrence of extinct, immigrant and persisting species. Community nestedness was calculated using bitmatnest and the C-score index for co-occurrence was estimated using EcoSim7. Species similarities among islands in each of the 1974 and 1994 data sets were assessed using Jaccard's index and the two similarity matrices were compared using a Mantel test. Results: Of 391 species recorded on the islets, 334 were present in 1974, 301 in 1994 and 244 were common to both these periods. Species richness in the 1974 and 1994 data sets was significantly correlated with elevation and area, but not with distance from the nearest large island. Richness was positively affected by grazing, but not by fire or gull colonies. The slopes of species-area and species-elevation regressions were almost identical in 1974 and 1994. Mean relative turnover was 2.06 (species per islet) and 3.26 (islets per species). Turnover was not correlated with area, elevation or distance from the nearest large island. Nestedness and co-occurrence levels were very similar. Tables of islet by islet floral similarity (Jaccard's index) did not differ between the 1974 and 1994 data sets. Main conclusions: The turnover rates found are among the highest recorded for plants at the same time the islet communities exhibit notable stability in overall properties. Our results provide evidence for rapid shifts in species number that may nonetheless be considered as equilibrial dynamics, as these islets are able to respond rapidly to environmental change and disturbance. Human activities, notably the application of grazing, have a significant complicating effect on community dynamics, enhancing observed turnover rates. © 2007 The Authors. 35 1049 1061 Cited By :19

Published
2008

22. Towards the Hellenic National Vegetation Database: VegHellas

Author

Dimopoulos, P., Tsiripidis, I., Bergmeier, Erwin, Fotiadis, G., Theodoropoulos, K., Raus, T., Panitsa, M., Kallimanis, A., Sykora, K., Mucina, L., Dimopoulos, P., Tsiripidis, I., Bergmeier, Erwin, Fotiadis, G., Theodoropoulos, K., Raus, T., Panitsa, M., Kallimanis, A., Sykora, K., and Mucina, L.

Abstract

Recently a new initiative was launched aimed at building a central database to hold all so far published and unpublished relevés available in Greece – the Hellenic National Vegetation Database (VegHellas). All literature sources, widely dispersed and often poorly accessible, containing vegetation relevés from Greece have been compiled and stored in a bibliographical database. To date this database houses more than 200 references. Between 1944 and 2011, more than 30,000 phytosociological relevés were made in Greece, and these are stored either as hard copies or electronically. Currently, data on more than 22,000 vegetation plots, entered in the TURBOVEG database system are georeferenced to a certain level of precision (e.g. mountain range, mountain peak, specific locality, island, phytogeographical region, grid cell 10 x 10 km etc.). Plant nomenclatural problems, such as the use of different synonyms for the same taxon by different researchers in different years will be solved using the standardized Hellenic Vascular Plant Checklist (HVPC), currently close to completion.This checklist will offer a scientific basis for consistent nomenclatural reference. A database with chorological, life-form and other plant-trait information for each taxon, will also be linked to the vegetation-plot records. This will allow using VegHellas not only as a tool for the formulation of a national system of vegetation classification, but also in multiple applications in ecological, biogeographical and applied environmental research. The preparation of a syntaxonomic overview of the vegetation of Greece is currently in progress. Following the basic principles of the checklist of high-rank syntaxa of the Enropean vegetation, the Hellenic syntaxa checklist will be produced down to the syntaxonomic level of alliance to serve as a precursor of a full syntaxonomic checklist including all associations.

Published
2012

28. A FLORISTIC INVESTIGATION OF THE ISLET GROUPS ARKI AND LIPSI (EAST AEGEAN AREA, GREECE).

Author

Panitsa, M. and Tzanoudakis, D.

Subjects
*BIOTIC communities, *BOTANY, *PLANT species
Abstract

Arki and Lipsi are two islet groups situated in the NNW part of the prefecture of Dodecannisos (E Aegean area, Greece), which consist of 37 islets in total, of which three (Lipsos, Arki and Marathi) are permanently inhabited. From the area studied 557 taxa of Tracheophytes have been registered and the chorological and life-form analyses of the flora have shown the predominance of the Mediterranean elements and the therophytes, respectively, confirming the Mediterranean character of the flora. However, significant fluctuations have been observed regarding the representation of both, chorological and life-form types, from islet to islet. A comparison of the individual flora of the 37 islets studied, revealed very low floristic similarity even between neighbouring islets (b-diversity). Not one of the taxa registered was present on all 37 islets; yet, 199 taxa were present on only one islet. Eight of the taxa registered in the studied area fall under a protection status according to international lists. The floristic data were statistically evaluated with respect to species-area relationship and other geographical factors such as altitude, minimum distance from a larger inhabited island and sea depth. [ABSTRACT FROM AUTHOR]

Published
2001
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29. The future of plant diversity within a Mediterranean endemism centre: Modelling the synergistic effects of climate and land-use change in Peloponnese, Greece.

Author

Braz Pires M, Kougioumoutzis K, Norder S, Dimopoulos P, Strid A, and Panitsa M

Subjects
Greece, Ecosystem, Plants, Climate Change, Biodiversity, Conservation of Natural Resources
Abstract

Climate- and land-use change stand as primary threats to terrestrial biodiversity. Yet, their synergistic impacts on species distributions remain poorly understood. To address this knowledge gap, we conducted the first-ever comprehensive species distribution analysis on an entire regional endemism centre within an eastern Mediterranean country, incorporating dynamic land-use/land-cover change data together with climate change scenarios. Specifically, we apply species distribution modelling and spatial data analysis techniques to compare the individual and synergistic effects of these environmental drivers on the endemic vascular flora of Peloponnese, focusing on potential range contractions, altitudinal shifts, and habitat fragmentation levels. Moreover, we identify fine-scale present and potential future endemism hotspots within our study area, incorporating taxonomic and phylogenetic information. Overall, we aim to enhance our current understanding of endemism patterns and contribute to the development of future-proof conservation strategies for safeguarding Greece's endangered endemic flora. The integration of land-use change projections with climate change yielded less severe impacts compared to the effects anticipated when considering climatic variables alone. Most taxa are expected to undergo significant range declines and nearly half might experience increased habitat fragmentation, due to the synergistic effects of climate- and land-use change. We identified endemism hotspots, which are concentrated in or along the main Peloponnesian mountain massifs. However, our predictions indicate that areas presently recognized as endemism hotspots will undergo a concerning area decline, across all future scenarios considered in this study. Our findings highlight the importance of including dynamic land-use variables alongside climatic predictors when projecting species distributions under global change. Moreover, we showed that endemism hotspots are not static and considering their potential geographic shifts is paramount to delineate effective forward-looking conservation strategies., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2024
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30. Rising Temperatures, Falling Leaves: Predicting the Fate of Cyprus's Endemic Oak under Climate and Land Use Change.

Author

Kougioumoutzis K, Constantinou I, and Panitsa M

Abstract

Endemic island species face heightened extinction risk from climate-driven shifts, yet standard models often underestimate threat levels for those like Quercus alnifolia , an iconic Cypriot oak with pre-adaptations to aridity. Through species distribution modelling, we investigated the potential shifts in its distribution under future climate and land-use change scenarios. Our approach uniquely combines dispersal constraints, detailed soil characteristics, hydrological factors, and anticipated soil erosion data, offering a comprehensive assessment of environmental suitability. We quantified the species' sensitivity, exposure, and vulnerability to projected changes, conducting a preliminary IUCN extinction risk assessment according to Criteria A and B. Our projections uniformly predict range reductions, with a median decrease of 67.8% by the 2070s under the most extreme scenarios. Additionally, our research indicates Quercus alnifolia 's resilience to diverse erosion conditions and preference for relatively dry climates within a specific annual temperature range. The preliminary IUCN risk assessment designates Quercus alnifolia as Critically Endangered in the future, highlighting the need for focused conservation efforts. Climate and land-use changes are critical threats to the species' survival, emphasising the importance of comprehensive modelling techniques and the urgent requirement for dedicated conservation measures to safeguard this iconic species.

Published
2024
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31. Climate and Land-Cover Change Impacts and Extinction Risk Assessment of Rare and Threatened Endemic Taxa of Chelmos-Vouraikos National Park (Peloponnese, Greece).

Author

Kougioumoutzis K, Trigas P, Tsakiri M, Kokkoris IP, Koumoutsou E, Dimopoulos P, Tzanoudakis D, Iatrou G, and Panitsa M

Abstract

Chelmos-Vouraikos National Park is a floristic diversity and endemism hotspot in Greece and one of the main areas where Greek endemic taxa, preliminary assessed as critically endangered and threatened under the IUCN Criteria A and B, are mainly concentrated. The climate and land-cover change impacts on rare and endemic species distributions is more prominent in regional biodiversity hotspots. The main aims of the current study were: (a) to investigate how climate and land-cover change may alter the distribution of four single mountain endemics and three very rare Peloponnesian endemic taxa of the National Park via a species distribution modelling approach, and (b) to estimate the current and future extinction risk of the aforementioned taxa based on the IUCN Criteria A and B, in order to investigate the need for designing an effective plant micro-reserve network and to support decision making on spatial planning efforts and conservation research for a sustainable, integrated management. Most of the taxa analyzed are expected to continue to be considered as critically endangered based on both Criteria A and B under all land-cover/land-use scenarios, GCM/RCP and time-period combinations, while two, namely Alchemilla aroanica and Silene conglomeratica, are projected to become extinct in most future climate change scenarios. When land-cover/land-use data were included in the analyses, these negative effects were less pronounced. However, Silene conglomeratica , the rarest mountain endemic found in the study area, is still expected to face substantial range decline. Our results highlight the urgent need for the establishment of micro-reserves for these taxa., Competing Interests: The authors declare no conflicts of interest.

Published
2022
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32. Farming practices and biodiversity: Evidence from a Mediterranean semi-extensive system on the island of Lemnos (North Aegean, Greece).

Author

Georgiadis NM, Dimitropoulos G, Avanidou K, Bebeli P, Bergmeier E, Dervisoglou S, Dimopoulos T, Grigoropoulou D, Hadjigeorgiou I, Kairis O, Kakalis E, Kosmas K, Meyer S, Panitsa M, Perdikis D, Sfakianou D, Tsiopelas N, and Kizos T

Subjects
Animals, Ecosystem, Farms, Greece, Agriculture, Biodiversity
Abstract

The management of agroecosystems affects biodiversity at all levels from genetic to food-web complexity. Low-input farming systems support higher levels of genetic, species and habitat diversity than high-input, industrial ones. In Greece, as in other Mediterranean countries, the role of traditional farming practices has been underlined in studies concerning conservation in agricultural landscapes. With this study, we aim to provide evidence for the potential of semi-extensive farming for biodiversity conservation at landscape-scale, focusing on Lemnos, a medium-sized island in the North Aegean. Evidence was gathered by species- and community-level local-scale surveys on various trophic levels (vascular plants, arthropods, birds). The surveys took place in 2018 and 2019 in 25 sampling areas comprising 106 plots of 100 m 2 (vascular plants, arthropods) and 57 points where bird species were recorded. The plots were classified into three landscape types: mosaic agriculture, mixed rangelands and uniform rangelands. The relevés of Lemnos farmlands were assigned to plant communities of 18 phytosociological alliances, grouped into 12 classes. The most abundant arthropods were Coleoptera, Chilopoda, and Hymenoptera, followed by Opiliones and Isopoda, while 133 different bird species were recorded in total, including the recording for the first time on the island of five species. Farming on Lemnos is rather extensive compared to most agricultural landscapes of Europe. Our approach has demonstrated that, given the geographic characteristics of the area, the measured data reveal very high biodiversity. Our explorative findings suggest that moderate seasonal grazing, the mixed habitat mosaic with ecotones, fallow and stubble fields at the landscape scale, and the small size of fields, the kinds of crop, and farm-scale crop diversification, like mixed cultivation and crop rotation, are key practices supporting this diversity. These explorative findings are considered as a first step providing the baseline for future assessments. A wider effort, for systematic evaluation of the impacts of farming practices to biodiversity, is required, as part of a subsidized agri-environmental scheme and/or through a market-oriented product certification system for the area., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2022
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33. Linking Taxonomic, Phylogenetic and Functional Plant Diversity with Ecosystem Services of Cliffs and Screes in Greece.

Author

Panitsa M, Kokkoris IP, Kougioumoutzis K, Kontopanou A, Bazos I, Strid A, and Dimopoulos P

Abstract

Sparsely vegetated habitats of cliffs and screes act as refugia for many regional and local endemic specialized plant taxa most of which have evolved precisely for that type of habitat. The interplay between taxonomic, phylogenetic, and functional plant diversity on rock and scree habitats of extreme environmental conditions, enlightens the relations of plant communities and ecosystems and facilitates management planning for the conservation of biodiversity and ecosystem services. The identification of biodiversity patterns and hotspots (taxonomic, phylogenetic, and functional) contributes to the integration of the ecosystem services (ES) approach for the mapping and assessment of ecosystems and their services (MAES) implementation in Greece and the creation of thematic maps based on the MAES reporting format. The overlap among the protected areas' network revealed that almost all areas of cliffs and screes of medium, high, and very high taxonomic and phylogenetic plant endemism are included in the Natura 2000 area network. The results of this study provide the baseline information for ES assessments at sparsely vegetated land of cliffs and screes. Our results contribute to the implementation of certain indicators of the national set of MAES indicators in Greece such as (a) floristic diversity and (b) microrefugia of endemic diversity and support of decision-making.

Published
2021
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34. Extinction Risk Assessment of the Greek Endemic Flora.

Author

Kougioumoutzis K, Kokkoris IP, Panitsa M, Strid A, and Dimopoulos P

Abstract

Human-induced biodiversity decline has been on the rise for the past 250 years, due to various causes. What is equally troubling, is that we are unaware which plants are threatened and where they occur. Thus, we are far from reaching Aichi Biodiversity Target 2, i.e., assessing the extinction risk of most species. To that end, based on an extensive occurrence dataset, we performed an extinction risk assessment according to the IUCN Criteria A and B for all the endemic plant taxa occurring in Greece, one of the most biodiverse countries in Europe, in a phylogenetically-informed framework and identified the areas needing conservation prioritization. Several of the Greek endemics are threatened with extinction and fourteen endemics need to be prioritized, as they are evolutionary distinct and globally endangered. Mt. Gramos is identified as the most important conservation hotspot in Greece. However, a significant portion of the identified conservation hotspots is not included in any designated Greek protected area, meaning that the Greek protected areas network might need to be at least partially redesigned. In the Anthropocene era, where climate and land-use change are projected to alter biodiversity patterns and may force many species to extinction, our assessment provides the baseline for future conservation research, ecosystem services maintenance, and might prove crucial for the timely, systematic and effective aversion of plant extinctions in Greece.

Published
2021
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35. Plant Endemism Centres and Biodiversity Hotspots in Greece.

Author

Kougioumoutzis K, Kokkoris IP, Panitsa M, Kallimanis A, Strid A, and Dimopoulos P

Abstract

Biodiversity hotspots (BH) cover a small fraction of the Earth's surface, yet host numerous endemics. Human-induced biodiversity loss has been increasing worldwide, despite attempts to halt the extinction crisis. There is thus an urgent need to efficiently allocate the available conservation funds in an optimised conservation prioritization scheme. Identifying BH and endemism centres (EC) is therefore a valuable tool in conservation prioritization and planning. Even though Greece is one of the most plant species-rich European countries, few studies have dealt with the identification of BH or EC and none has ever incorporated phylogenetic information or extended to the national scale. Consequently, we are unaware of the extent that Special Areas of Conservation (SAC) of the Natura 2000 network efficiently protect Greek plant diversity. Here, we located for the first time at a national scale and in a phylogenetic framework, the areas serving as BH and EC, and assessed the effectiveness of the Greek SAC in safeguarding them. BH and EC are mainly located near mountainous areas, and in areas supposedly floristically impoverished, such as the central Aegean islands. A critical re-assessment of the Greek SAC might be needed to minimize the extinction risk of the Greek endemics, by focusing the conservation efforts also on the BH and EC that fall outside the established Greek SAC.

Published
2021
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36. Spatial Phylogenetics, Biogeographical Patterns and Conservation Implications of the Endemic Flora of Crete (Aegean, Greece) under Climate Change Scenarios.

Author

Kougioumoutzis K, Kokkoris IP, Panitsa M, Trigas P, Strid A, and Dimopoulos P

Abstract

Human-induced biodiversity loss has been accelerating since the industrial revolution. The climate change impacts will severely alter the biodiversity and biogeographical patterns at all scales, leading to biotic homogenization. Due to underfunding, a climate smart, conservation-prioritization scheme is needed to optimize species protection. Spatial phylogenetics enable the identification of endemism centers and provide valuable insights regarding the eco-evolutionary and conservation value, as well as the biogeographical origin of a given area. Many studies exist regarding the conservation prioritization of mainland areas, yet none has assessed how climate change might alter the biodiversity and biogeographical patterns of an island biodiversity hotspot. Thus, we conducted a phylogenetically informed, conservation prioritization study dealing with the effects of climate change on Crete's plant diversity and biogeographical patterns. Using several macroecological analyses, we identified the current and future endemism centers and assessed the impact of climate change on the biogeographical patterns in Crete. The highlands of Cretan mountains have served as both diversity cradles and museums, due to their stable climate and high topographical heterogeneity, providing important ecosystem services. Historical processes seem to have driven diversification and endemic species distribution in Crete. Due to the changing climate and the subsequent biotic homogenization, Crete's unique bioregionalization, which strongly reminiscent the spatial configuration of the Pliocene/Pleistocene Cretan paleo-islands, will drastically change. The emergence of the 'Anthropocene' era calls for the prioritization of biodiversity-rich areas, serving as mixed-endemism centers, with high overlaps among protected areas and climatic refugia.

Published
2020
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37. Local knowledge about sustainable harvesting and availability of wild medicinal plant species in Lemnos island, Greece.

Author

Papageorgiou D, Bebeli PJ, Panitsa M, and Schunko C

Subjects
Adult, Aged, Female, Greece, Humans, Islands, Male, Middle Aged, Plants, Medicinal classification, Conservation of Natural Resources, Horticulture methods, Knowledge, Plants, Medicinal growth & development
Abstract

Background: In Europe and the Mediterranean, over-exploitation and destructive harvesting techniques have been identified as two critical threats affecting the sustainable harvesting of wild medicinal plant (WMP) species. However, unsustainable harvesting is not an issue everywhere and localized assessments are needed. Local knowledge has been praised for its potential for local short-term assessments. In this study, we aimed to register the known, harvested, and locally utilized WMP species and understand local knowledge of harvesters about the ecological sustainability of WMP harvesting and the perceived changes of WMP availability., Materials and Methods: This study was conducted on Lemnos island, Greece, in July and August 2018. Sixteen harvesters knowledgeable about gathering and using WMP were chosen through purposeful and snowball sampling. Successive free-lists provided insights on the taxa known, harvested, and utilized by harvesters and subsequent semi-structured interviews served to understand harvesting practices and perceived changes of WMP availability. Participant observation during seven harvesting walks allowed for additional insights and facilitated the collection of voucher specimens., Results: In total, 144 different plant taxa were listed as useful and 81 had been harvested in the prior 4 years. Medicinal applications were mainly related to digestive and respiratory system issues. A number of favorable harvesting practices suggested a high potential towards an ecologically sustainable harvest. Although, a decreased availability for certain plant taxa and harvesting sites was reported and mainly attributed to external factors such as pollution, unusually dry weather, intentional pastureland burning or chemicals in agriculture, but also destructive harvesting by less knowledgeable harvesters., Conclusions: Knowledgeable harvesters of Lemnos gather and use a considerable number of WMP taxa and possess local knowledge that supports an ecologically sustainable harvest. However, certain plant taxa and areas of the island were indicated to be under pressure from harvesting, unusual climatic conditions, and agricultural practices. Our approach confirmed that local knowledge should be taken into account for assessing the sustainability of WMP harvesting.

Published
2020
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38. Plant species richness and composition of a habitat island within Lake Kastoria and comparison with those of a true island within the protected Pamvotis lake (NW Greece).

Author

Papanikolaou A and Panitsa M

Abstract

Lake Kastoria is one of the potentially "ancient" Balkan lakes that has a great environmental importance and ecological value, attracts high touristic interest and is under various anthropogenic pressures. It belongs to a Natura 2000 Special Protection Area and a Site of Community Interest. The city of Kastoria is located at the western part of the lake and just next to it, towards the centre of the lake, is a peninsula, a habitat island. In the framework of research concerning the flora of lake islands of Greece, one of the main objectives of the present study is to fill a gap concerning plant species richness of the habitat island within the protected Lake Kastoria, which is surrounded by the lake except for its north-western part where the border of the city of Kastoria is located. Floristic analysis of the habitat island of Lake Kastoria is in large measure accounted, concerning chorology with emphasis on Balkan endemics (8.7%), life forms, by hemicryptophytes (36.1%), therophytes (33.2%), phanerophytes (16.4%) and geophytes (10.9%) and, for habitats, by taxa preferring agricultural and ruderal ones (53.3%). Another objective is to compare its floristic composition to the one of the island within the protected urban Lake Pamvotis - one of the very few lake islands in Greece - focusing on the influence of urbanisation. The α- and β- diversity are measured in order to reveal floristic differences. Beta diversity partitioning in turnover and nestedness showed that the β-diversity is mostly expressed as compositional turnover. The role of the society in combination with long-term programmes for the study of plant species richness, functional diversity and patterns of species assemblages over time are necessary for the effective management and protection of protected areas, including lake insular areas., (Alexandros Papanikolaou, Maria Panitsa.)

Published
2020
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39. Temporal turnover of the flora of lake islands: The island of Lake Pamvotis (Epirus, Greece).

Author

Sarika M, Papanikolaou A, Yannitsaros A, Chitos T, and Panitsa M

Abstract

Lake Pamvotis is one of the Balkan "ancient" lakes, a Quaternary refugium of great environmental importance and ecological value, that is under various anthropogenic pressures. It belongs to a Natura 2000 Special Area for Conservation and Special Protection Area. Almost in the middle of the lake, there is an inhabited island - one of the two lake islands in Greece - that also attracts touristic interest. Τhe main objectives of the present study are to provide a floristic inventory of the protected island, combining data of two different sampling periods, within a 25 year interval, in order to estimate temporal beta diversity and species turnover of the island's plant diversity. The value of the absolute and relative turnover rates of the floristic diversity of the island studied are 4.24 and 1.72, respectively and are amongst the higher rates reported for plants. The absolute difference between extinct (E) and immigrant (l) taxa is to a great extent accounted, concerning life forms, by therophytes (1.86), hemicryptophytes (1.56) and geophytes (1.04) and, for habitats, by taxa preferring agricultural and ruderal forms (2.52).

Published
2019
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40. Comparing the two Greek archipelagos plant species diversity and endemism patterns highlight the importance of isolation and precipitation as biodiversity drivers.

Author

Iliadou E, Kallimanis AS, Dimopoulos P, and Panitsa M

Abstract

Background: Greece has two island archipelagos, the Aegean and the Ionian, which host a rich array of plants and wildlife, particularly endemic and threatened plant species. Despite the long history of island biogeographic studies in the Aegean, similar studies in the Ionian remain limited, with the two island archipelagos rarely being compared., Results: The Aegean and Ionian archipelagos share many features, especially regarding total plant diversity, but exhibit different patterns of endemism. For instance, when considering similarly sized islands, those in the Ionian host as many as, if not more, species compared to the Aegean. In contrast, the Ionian Islands are poor in endemics (particularly narrow range endemics, such as single island or regional endemics) and threatened taxa, compared to the Aegean Islands. In the Ionian, endemics only persist on the largest islands, and form a very small proportion of the species pool, compared to the Aegean archipelago., Conclusions: The lack of endemism might be attributed to the more recent separation of the Ionian Islands from the mainland and the shorter distance separating them from the mainland. In addition, the Ionian Islands receive higher levels of precipitation and are typically covered by denser and higher vegetation than the Aegean Islands. These conditions favour greater total species richness, but tend to lead to higher numbers of common species compared to threatened and endemic taxa. This study demonstrates that both isolation and precipitation serve as biodiversity drivers, influencing plant species diversity and endemism patterns, of the two Greek archipelagos.

Published
2014
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41. Elevational gradient of vascular plant species richness and endemism in Crete--the effect of post-isolation mountain uplift on a continental island system.

Author

Trigas P, Panitsa M, and Tsiftsis S

Subjects
Altitude, Biodiversity, Ecosystem, Geography, Greece, Islands, Phylogeny, Species Specificity, Plant Dispersal physiology, Plant Physiological Phenomena, Plants classification
Abstract

Understanding diversity patterns along environmental gradients and their underlying mechanisms is a major topic in current biodiversity research. In this study, we investigate for the first time elevational patterns of vascular plant species richness and endemism on a long-isolated continental island (Crete) that has experienced extensive post-isolation mountain uplift. We used all available data on distribution and elevational ranges of the Cretan plants to interpolate their presence between minimum and maximum elevations in 100-m elevational intervals, along the entire elevational gradient of Crete (0-2400 m). We evaluate the influence of elevation, area, mid-domain effect, elevational Rapoport effect and the post-isolation mountain uplift on plant species richness and endemism elevational patterns. Furthermore, we test the influence of the island condition and the post-isolation mountain uplift to the elevational range sizes of the Cretan plants, using the Peloponnese as a continental control area. Total species richness monotonically decreases with increasing elevation, while endemic species richness has a unimodal response to elevation showing a peak at mid-elevation intervals. Area alone explains a significant amount of variation in species richness along the elevational gradient. Mid-domain effect is not the underlying mechanism of the elevational gradient of plant species richness in Crete, and Rapoport's rule only partly explains the observed patterns. Our results are largely congruent with the post-isolation uplift of the Cretan mountains and their colonization mainly by the available lowland vascular plant species, as high-elevation specialists are almost lacking from the Cretan flora. The increase in the proportion of Cretan endemics with increasing elevation can only be regarded as a result of diversification processes towards Cretan mountains (especially mid-elevation areas), supported by elevation-driven ecological isolation. Cretan plants have experienced elevational range expansion compared to the continental control area, as a result of ecological release triggered by increased species impoverishment with increasing elevation.

Published
2013
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