Your search keyword '"Mattana, E"' showing total 45 results

1. Gundelia tournefortii L. (Akkoub): a review of a valuable wild vegetable from Eastern Mediterranean

Author

Hani, N., Abulaila, K., Howes, M.-J. R., Mattana, E., Bacci, S., Sleem, K., Sarkis, L., Eddine, N. Saed, Baydoun, S., Apostolides, N. Arnold, and Ulian, T.

Published

2024

2. The Millennium Seed Bank Partnership

Author

Breman, E., primary, Balding, S., additional, Cable, S., additional, Carvey, N., additional, Castillo-Lorenzo, E., additional, Chapman, T., additional, Cockel, C., additional, Cossu, T.A., additional, Dickie, J., additional, Faruk, A., additional, Hardwick, K., additional, Hudson, A., additional, Mattana, E., additional, Miles, S., additional, Oldfield, H., additional, Osborne, J., additional, Peach, J., additional, Pearce, T., additional, Phillips, C., additional, Rakotoarisoa, S., additional, Ulian, T., additional, Way, M., additional, and Willey, I., additional

Published

2023

3. State of the World’s Plants and Fungi

Author

Antonelli, A., Smith, R. J., Fry, C., Simmonds, Monique S. J., Kersey, Paul J., Pritchard, H. W., Abbo, M. S., Acedo, C., Adams, J., Ainsworth A.M., Allkin B., Annecke W, Bachman S P, Bacon, K., Bárrios, S., Barstow, C., Battison, A., Bell, E., Bensusan, K., Bidartondo, M. I., Blackhall-Miles, R. J., Borrell, J. S., Brearley, F. Q., Breman, E., Brewer, R. F. A., Brodie, J., Cámara-Leret, R., Campostrini Forzza, R., Cannon, P., Carine, M., Carretero, J., Cavagnaro, T. R., E Cazar, M., Chapman, T., Cheek, M., Clubbe, C., Cockel, C., Collemare, J., Cooper, A., Copeland, A. I., Corcoran, M., Couch, C., Cowell, C., Crous, P., Da Silva, M., Dalle, G., Das, D., David, J. C., Davies, L., Davies, N., Canha, M. N., Lirio, E. J., Demissew, S., Diazgranados, M., Dickie, J., Dines, T., Douglas, B., Dröge, G., Dulloo, M. E., Fang, R., Farlow, A., Farrar, K., Fay, M. F., Felix, J., Forest, F., Forrest, L. L., Fulcher, T., Gafforov, Y., Gardiner, L. M., Gâteblé, G., Gaya, E., Benoit Geslin, Gonçalves, S. C., Gore, C. J. N., Govaerts, R., Gowda, B., Grace, O. M., Grall, A., Haelewaters, D., Halley, J. M., Hamilton, M. A., Hazra, A., Heller, T., Hollingsworth, P. M., Holstein, N., Howes, M. -J R., Hughes, M., Hunter, D., Hutchinson, N., Hyde, K., Iganci, J., Jones, M., Kelly, L. J., Kirk, P., Koch, H., Krisai-Greilhuber, I., Lall, N., Langat, M. K., Leaman, D. J., Leão, T. C., Lee, M. A., Leitch, I. J., Leon, C., Lettice, E., Lewis, G. P., Li, L., Lindon, H., Liu, J. S., Liu, U., Llewellyn, T., Looney, B., Lovett, J. C., Łukasz Łuczaj, Lulekal, E., Maggassouba, S., Valéry Malécot, Martin, C., Masera, O. R., Mattana, E., Maxted, N., Mba, C., Mcginn, K. J., Metheringham, C., Miles, S., Miller, J., Milliken, W., Moat, J., Moore, P. G. P., Morim, M. P., Mueller, G. M., Muminjanov, H., Negrão, R., Nic Lughadha, E., Nicolson, N., Niskanen, T., Nono Womdim, R., Noorani, A., Obreza, M., O’donnell, K., O’hanlon, R., M Onana, J., Ondo, I., Padulosi, S., Paton, A., Pearce, T., Pérez Escobar, O. A., Pieroni, A., Pironon, S., Prescott, T. A. K., Qi, Y. D., Qin, H., Quave, C. L., Rajaovelona, L., Razanajatovo, H., Reich, P. B., Rianawati, E., Rich, T. C. G., Richards, S. L., Rivers, M. C., Ross, A., Rumsey, F., Ryan, M., Ryan, P., Sagala, S., Sanchez, M. D., Sharrock, S., Shrestha, K. K., Sim, J., Sirakaya, A., Sjöman, H., Smidt, E. C., Smith, D., Smith, P., Smith, S. R., Sofo, A., Spence, N., Stanworth, A., Stara, K., Stevenson, P. C., Stroh, P., Suz, L. M., Tambam, B. B., Tatsis, E. C., Taylor, I., Thiers, B., Thormann, I., Trivedi, C., Twilley, D., Twyford, A. D., Ulian, T., Utteridge, T., Vaglica, V., Vásquez-Londoño, C., Victor, J., Viruel, J., Walker, B. E., Walker, K., Walsh, A., Way, M., Wilbraham, J., Wilkin, P., Wilkinson, T., Williams, C., Winterton, D., Wong, K. M., Woodfield-Pascoe, N., Woodman, J., Wyatt, L., Wynberg, R., Zhang, B. G., Institut méditerranéen de biodiversité et d'écologie marine et continentale (IMBE), Avignon Université (AU)-Aix Marseille Université (AMU)-Institut de recherche pour le développement [IRD] : UMR237-Centre National de la Recherche Scientifique (CNRS), Royal Botanic Gardens (Kew), and Sfumato Foundation

Subjects

[SDE.BE]Environmental Sciences/Biodiversity and Ecology, [SDE.ES]Environmental Sciences/Environmental and Society, ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

2020

4. The climatic challenge: Which plants will people use in the next century?

Author

Borrell, J.S., primary, Dodsworth, S., additional, Forest, F., additional, Pérez-Escobar, O.A., additional, Lee, M.A., additional, Mattana, E., additional, Stevenson, P.C., additional, Howes, M.-J.R., additional, Pritchard, H.W., additional, Ballesteros, D., additional, Kusumoto, B., additional, Ondo, I., additional, Moat, J., additional, Milliken, W., additional, Ryan, P., additional, Ulian, T., additional, and Pironon, S., additional

Published

2020

5. Interaction of functional and environmental traits on seed germination of the multipurpose tree Flacourtia indica

Author

Gómez-Barreiro, P., primary, Otieno, V., additional, Mattana, E., additional, Castillo-Lorenzo, E., additional, Omondi, W., additional, and Ulian, T., additional

Published

2019

6. Variability on morphological and ecological seed traits of Limonium avei (De Not.) Brullo & Erben (Plumbaginaceae)

Author

Santo, A, Mattana, E, Grillo, O, Sciandrello, Saverio, Peccenini, S, and Bacchetta, G.

Published

2017

7. Photoinhibition of seed germination: Occurrence, ecology and phylogeny

Author

Carta, A. Skourti, E. Mattana, E. Vandelook, F. Thanos, C.A.

Abstract

Light conditions provide important information about the best time and place for seedling establishment. Photoinhibition of seed germination (PISG), defined as the partial or complete suppression of germination under white light, has been interpreted as a physiological adaptation to avoid germination at or near the soil surface. This review is the first report of an all-inclusive, fully quantitative analysis of PISG in seed plants. Pertinent data available from the published literature for 301 taxa from 59 families and 27 orders were assessed. The association of PISG with several plant and seed traits allowed us to consider the adaptive significance of PISG in relation to plant life histories and the natural environments. As no gymnosperm has been found to be truly photoinhibited, it seems that PISG is apomorphic to flowering plants (especially monocots). Seeds of most taxa with PISG have a dark colour and intermediate mass, mostly in the range 1 to 27 mg. PISG is absent from humid tropical regions and from cold climates, but it is strongly associated with open, disturbed and dry habitats. An intriguing implication of PISG is the formation of a soil-surface seed bank. Taken together, these results clearly indicate that PISG is a physiological adaptation to avoid germination on the soil surface, where conditions are not suitable for seedling establishment. PISG is probably much more frequent in seed plants than previously thought. Thus, laboratory experiments should be conducted under well-characterized light and dark conditions. Copyright © Cambridge University Press 2017.

Published

2017

8. Morphological and functional seed traits of the wild medicinal plantDioscorea strydomiana, the most threatened yam in the world

Author

Mattana, E., primary, Gomez‐Barreiro, P., additional, Lötter, M., additional, Hankey, A. J., additional, Froneman, W., additional, Mamatsharaga, A., additional, Wilkin, P., additional, and Ulian, T., additional

Published

2018

9. Inter- and intra-variability of seed germination traits of Carpobrotus edulis N.E.Br. and its hybrid C . affine acinaciformis

Author

Podda, L., primary, Santo, A., additional, Mattana, E., additional, Mayoral, O., additional, and Bacchetta, G., additional

Published

2018

10. Understanding biological and ecological factors affecting seed germination of the multipurpose tree Anogeissus leiocarpa

Author

Mattana, E., primary, Sacande, M., additional, Bradamante, G., additional, Gomez-Barreiro, P., additional, Sanogo, S., additional, and Ulian, T., additional

Published

2018

11. Integration of genetic and seed fitness data to the conservation of isolated subpopulations of the Mediterranean plantMalcolmia littorea

Author

De Vitis, M., primary, Mattioni, C., additional, Mattana, E., additional, Pritchard, H. W., additional, Seal, C. E., additional, Ulian, T., additional, Cherubini, M., additional, and Magrini, S., additional

Published

2017

12. Dissecting seed dormancy and germination in Aquilegia barbaricina , through thermal kinetics of embryo growth

Author

Porceddu, M., primary, Mattana, E., additional, Pritchard, H. W., additional, and Bacchetta, G., additional

Published

2017

13. Thermal requirements for seed germination of underutilized Lippia species

Author

Mattana, E., primary, Sacande, M., additional, Abdul Sanogo, K., additional, Lira, R., additional, Gomez-Barreiro, P., additional, Rogledi, M., additional, and Ulian, T., additional

Published

2017

14. Effects of NaCl stress on seed germination and seedling development ofBrassica insularisMoris (Brassicaceae)

Author

Santo, A., primary, Mattana, E., additional, Frigau, L., additional, Marzo Pastor, A., additional, Picher Morelló, M. C., additional, and Bacchetta, G., additional

Published

2017

15. Population genetics and reproductive biology investigations for conservation of Malcolmia littorea : introduction to a multidisciplinary approach

Author

De Vitis M., Fabrini G., Seal C., Ulian T, Pritchard H, Mattana E., Mattioni C., Crosti R., and Magrini S.

Subjects

conservation, malcolmia littorea

Abstract

Sandy coastal habitats are among the most vulnerable in the world because of their physicaldynamism, and because they are strongly affected by human activities such as construction of harbours, private and tourism infrastructures, mechanical cleaning of beaches, trampling, pollution and invasion by alien plants (Carboni et al., 2009; Defeo et al., 2009). All these factors of disturbance cause and facilitate habitat fragmentation and degradation processes (Carranzaet al., 2010), and as a result, most coastlines are experiencing accelerated rates of erosion(Defeo et al., 2009). The destruction of these habitats is strictly linked with the loss of numerous species which are highly specialized for life in these dynamic systems and are found in no other

Published

2015

16. Morphological and functional seed traits of the wild medicinal plant Dioscorea strydomiana, the most threatened yam in the world.

Author

Mattana, E., Gomez‐Barreiro, P., Lötter, M., Hankey, A. J., Froneman, W., Mamatsharaga, A., Wilkin, P., Ulian, T., and Pritchard, H.

Subjects

*GERMINATION, *WILD plants, *ENDANGERED plants, *MEDICINAL plants, *YAMS, *RARE plants

Abstract

Morphological and functional seed traits have important roles in characterising the species regeneration niche and help to understand the reproductive biology of rare and threatened plants, which can thus support appropriate plant conservation measures.Seed morphometric and dispersal kinetics of the critically endangered Dioscorea strydomiana were measured and compared with those of four other Dioscorea species, and seed germination response under constant temperatures (5–35 °C) was compared with that of the congeneric and widespread D. sylvatica.Seed mass of D. strydomiana (ca. 14 mg) was twice that of D. sylvatica, but similar to or smaller than the other species examined. Seeds of D. strydomiana have the lowest speed of descent and lowest variability in most of the morphological traits considered, suggesting lower phenotypic plasticity but higher variance in the wing‐loading value. Seeds of D. strydomiana reached maximum germination at 15 °C (ca. 47%), which decreased slightly to ca. 37% at 25 °C and was completely inhibited at 35 °C. D. sylvatica seeds started to germinate at 10 °C (ca. 3%), reached 75–80% germination at 15–20 °C and maximum (ca. 90%) at 25–30 °C. Base temperatures for germination (Tb) were 9.3 and 5.7 °C, for D. strydomiana and D. sylvatica, respectively. Due to the higher germination percentages of D. sylvatica, ceiling and optimum temperatures could also be modelled for this species, suggesting higher sensitivity to high temperature for seeds of D. strydomiana.The detected poor seed lot quality of D. strydomiana suggests difficulties in reproduction from seed, highlighting the need for further investigation and conservation actions for this threatened yam species. [ABSTRACT FROM AUTHOR]

Published

2019

17. Effect of temperature and cold stratification on seed germination of the Mediterranean wild aromatic Clinopodium sandalioticum (Lamiaceae)

Author

Mattana, E., primary, Picciau, R., additional, Puddu, S., additional, Cuena Lombraña, A., additional, and Bacchetta, G., additional

Published

2016

18. Conservation genetics of two island endemic Ribes spp. (Grossulariaceae) of Sardinia: Survival or extinction?

Author

Gentili, R, Fenu, G, Mattana, E, Citterio, S, DE MATTIA, F, Bacchetta, G, GENTILI, RODOLFO FILIPPO, CITTERIO, SANDRA, DE MATTIA, FABRIZIO, Bacchetta, G., Gentili, R, Fenu, G, Mattana, E, Citterio, S, DE MATTIA, F, Bacchetta, G, GENTILI, RODOLFO FILIPPO, CITTERIO, SANDRA, DE MATTIA, FABRIZIO, and Bacchetta, G.

Abstract

Measuring levels of population genetic diversity is an important step for assessing the conservation status of rare or endangered plant species and implementing appropriate conservation strategies. Populations of Ribes multiflorum subsp. sandalioticum and R. sardoum, two endangered endemic species from Sardinia, representing the whole genus on the island, were investigated using ISSR and SSR markers to determine levels and structure of genetic variability in their natural populations. Results indicated medium to low genetic diversity at the population level: Nei's gene diversity for ISSR markers ranged from 0.0840 to 0.1316; the expected heterozygosity (HE) for SSR ranged from 0.4281 to 0.7012. In addition, only one remnant population of R. sardoum showed a high level of inbreeding, in accordance with its very small size. Regarding the structure of the six R. sandalioticum populations, both principal coordinates analysis (PCoA) and STRUCTURE analysis of ISSR and SSR data highlighted low population structure, although two populations appeared to be clearly distinct from the others. The genetic pattern of the two taxa associated with their different ecological positions indicated resilience of R. sandalioticum populations in fresh and humid habitats and uncertain future resistance for the residual R. sardoum population in xeric calcareous stands. Hence, this study highlights the importance of an integrated conservation approach (genetic plus in situ and ex situ conservation studies/measures) for activating management programmes in these endemic and threatened taxa that can be considered as crop wild relatives of cultivated Ribes species.

Published

2015

19. Lamyropsis genus in the Mediterranean area: Phylogenetic position of L. microcephala (Asteraceae: Cardueae)

Author

Gentili, R, Fenu, G, Labra, M, Bruni, I, Mattana, E, Bacchetta, G, Gentili, R, Fenu, G, Labra, M, Bruni, I, Mattana, E, and Bacchetta, G

Abstract

The aim of this study was to give results about position of Lamyropsis microcephala within an already existing phylogeny of Lamyropsis genus on the Mediterranean area, by analyzing external transcribed spacer/internal transcribed spacer sequence data. The four Lamyropsis species considered in the model can be recognized as distinct taxa originated from successive migration/speciation events.

Published

2015

20. Understanding biological and ecological factors affecting seed germination of the multipurpose tree <italic>Anogeissus leiocarpa</italic>.

Author

Mattana, E., Sacande, M., Bradamante, G., Gomez‐Barreiro, P., Sanogo, S., and Ulian, T.

Subjects

*COMBRETACEAE, *FRUIT morphology, *GERMINATION, *OVULES, *SEED viability

Abstract

Abstract: Anogeissus leiocarpa (DC.) Guill. & Perr. (Combretaceae) has important economic and cultural value in West Africa as source of wood, dye and medicine. Although this tree is in high demand by local communities, its planting remains limited due to its very low propagation via seed. In this study, X‐rays were used to select filled fruits in order to characterise their morphology and seed germination responses to treatment with sulphuric acid and different incubation temperatures. Morphological observations highlighted a straight orthotropous seed structure. The increase in mass detected for both intact and scarified fruits through imbibition tests, as well as morphological observations of fruits soaked in methylene blue solution, confirmed that they are water‐permeable, although acid‐scarified fruits reached significantly higher mass increment values than intact ones. Acid scarification (10 min soaking in 98% H2SO4) positively affected seed germination rate but not final germination proportions. When intact fruits where incubated at a range of temperatures, no seeds germinated at 10 °C, while maximum seed germination (ca. 80%) was reached at 20 °C. T50 values ranged from a minimum of ca. 12 days at 25 °C to a maximum of ca. 34 days at 15 and 35 °C. A theoretical base temperature for germination (Tb) of ca. 10 °C and a thermal requirement for 50% germination (S) of ca. 195 °Cd were also identified for intact fruits. The results of this study revealed the seed germination characteristics driven by fruit and seed morphology of this species, which will help in its wider propagation in plantations. [ABSTRACT FROM AUTHOR]

Published

2018

21. Integration of genetic and seed fitness data to the conservation of isolated subpopulations of the Mediterranean plant Malcolmia littorea.

Author

De Vitis, M., Mattioni, C., Mattana, E., Pritchard, H. W., Seal, C. E., Ulian, T., Cherubini, M., and Magrini, S.

Subjects

BRASSICACEAE, PLANT ecology, ENDANGERED plants, GERMINATION

Abstract

Plant autoecology and population genetics provide a perspective on the likelihood of natural regeneration, which is critical when designing conservation strategies for endangered species. The threatened coastal plant Malcolmia littorea (Brassicaceae) was sampled across its European distribution and studied for genetic diversity and seed fitness, with the aim of providing information for the conservation of isolated and declining populations., Nine microsatellite markers (five chloroplast and four nuclear) were analysed to assess population genetic diversity and structure and to conduct a spatial analysis using the software DIVA-GIS. Germination percentages and rates were assessed by incubating the seeds under eight constant temperatures (0-27 °C)., The genetic diversity was found to be similar among subpopulations (chloroplast H = 0.04-0.17; nuclear Ho = 0.20-0.37), with no correlation between subpopulation diversity and the area of occupancy (AOO). The subpopulations were found to be clustered in three genetic groups, and three of them were identified as conservation priorities due to their unique genetic composition. The germination study revealed a significant influence of the maternal environment and AOO on seed germination, with the smaller subpopulations showing lower germination percentages ( P < 0.05)., These results highlight the importance of obtaining information on isolated subpopulations through different experimental approaches ( e.g. seed germination plus population genetics) to enable planning of effective conservation actions. For M. littorea, seed collection for both in situ and ex situ conservation should take into account the local adaptation of the subpopulation and the genetic structure of the species. [ABSTRACT FROM AUTHOR]

Published

2018

22. Conservation genetics of two island endemic Ribes spp. (Grossulariaceae) of Sardinia: survival or extinction?

Author

Gentili, R., primary, Fenu, G., additional, Mattana, E., additional, Citterio, S., additional, De Mattia, F., additional, and Bacchetta, G., additional

Published

2015

23. Lamyropsisgenus in the Mediterranean area: Phylogenetic position ofL. microcephala(Asteraceae: Cardueae)

Author

Gentili, R., primary, Fenu, G., additional, Labra, M., additional, Bruni, I., additional, Mattana, E., additional, and Bacchetta, G., additional

Published

2014

24. Effects of NaCl stress on seed germination and seedling development of Brassica insularis Moris (Brassicaceae).

Author

Santo, A., Mattana, E., Frigau, L., Marzo Pastor, A., Picher Morelló, M. C., Bacchetta, G., and Smit, C.

Subjects

*EFFECT of salt on plants, *BRASSICA seeds, *SEED development, *EFFECT of stress on plants, *PLANT populations

Abstract

Brassica insularis is a protected plant that grows on both coastal and inland cliffs in the western Mediterranean Basin. The objective of this study was to test if any variability exists in the salt stress response during seed germination and seedling development in this species relative to its provenance habitat., Variability among three populations in the salt stress effects on seed germination and recovery under different temperatures was evaluated. The effect of nebulisation of a salt solution on seedling development was evaluated between populations growing at different distances from the sea., Seeds of B. insularis could germinate at NaCl concentrations up to 200 m m. Seed viability was negatively affected by salt, and recovery ability decreased with increasing temperature or salinity. Inter-population variability was detected in salt response during the seed germination phase, as well as in seedling salt spray tolerance. The inland population seedlings had drastically decreased survival and life span and failed to survive to the end of the experiment. In contrast, at least 90% of the coastal seedlings survived, even when sprayed at the highest frequency with salt solution., This study allowed investigation of two natural factors, soil salinity and marine aerosols, widely present in the B. insularis habitat, and provided the first insights into ecology of this protected species and its distribution in the Mediterranean. These results might be useful in understanding the actual distributions of other species with the same ecology that experience these same abiotic parameters. [ABSTRACT FROM AUTHOR]

Published

2017

25. Lamyropsis genus in the Mediterranean area: Phylogenetic position of L. microcephala (Asteraceae: Cardueae).

Author

Gentili, R., Fenu, G., Labra, M., Bruni, I., Mattana, E., and Bacchetta, G.

Subjects

ASTERACEAE, ANGIOSPERMS, PHYLOGENY, BAYESIAN analysis, GENETIC speciation

Abstract

The aim of this study was to give results about position ofLamyropsis microcephalawithin an already existing phylogeny ofLamyropsisgenus on the Mediterranean area, by analyzing external transcribed spacer/internal transcribed spacer sequence data. The fourLamyropsisspecies considered in the model can be recognized as distincttaxaoriginated from successive migration/speciation events. [ABSTRACT FROM PUBLISHER]

Published

2015

26. Morpho-colorimetric analysis and seed germination of Brassica insularis Moris (Brassicaceae) populations.

Author

Santo, A., Mattana, E., Grillo, O., Bacchetta, G., and Bekker, R.

Subjects

*GERMINATION, *SEED morphology, *COLORIMETRIC analysis, *PLANT populations, *PLANT growth, *BRASSICA, *BOTANY

Abstract

Brassica insularis is a perennial plant growing on both coastal and inland cliffs. Three seed lots from Sardinia were analysed using an image analysis system to detect differences in seed morphology, both within and among populations. Germination requirements at constant (5-25 °C) and alternating temperatures (25/10 °C), both in light and in darkness, were evaluated for all populations. In addition, the effect of a dry after-ripening period (90 days at 25 °C) was also investigated. Morpho-colorimetric analysis clearly identified seeds from different populations and discriminated three chromatic categories for seeds belonging to the Isola dei Cavoli coastal population, but not for the inland Masùa and the coastal Planu Sartu. Inter-population variability was also observed in germination behaviour. B. insularis seeds germinated, with percentages up to 60%, in a wide range of temperatures (5-25 °C), and neither light nor dry after-ripening affected final germination percentages. Moisture content measurements were made for seeds of each colour, but there were no particular differences among colours. Inter-populational variability in germination behaviour may be a survival strategy for species growing under unpredictable environmental conditions, such as under Mediterranean climate, while heteromorphy may be due to independent evolutionary divergence processes of the Isola dei Cavoli population. [ABSTRACT FROM AUTHOR]

Published

2015

27. Lamyropsis genus in the Mediterranean area: Phylogenetic position of L. microcephala (Asteraceae: Cardueae)

Author

Efisio Mattana, Ilaria Bruni, Giuseppe Fenu, Massimo Labra, Gianluigi Bacchetta, Rodolfo Gentili, Gentili, R, Fenu, G, Labra, M, Bruni, I, Mattana, E, and Bacchetta, G

Subjects

Lamyropsis microcephala, Bayesian inference, Plant Science, Sardinia, Phylogenetics, Genus, evolution, Botany, Carduinae, ETS, ITS, Mediterranean vascular flora, plant science, ecology, behavior and systematics, Internal transcribed spacer, Ecology, Evolution, Behavior and Systematics, BIO/03 - BOTANICA AMBIENTALE E APPLICATA, biology, Phylogenetic tree, Microcephala, Bayesian inference, Carduinae, ETS, ITS, Mediterranean vascular flora, Sardinia, biology.organism_classification, External transcribed spacer, Taxon, BIO/02 - BOTANICA SISTEMATICA

Abstract

The aim of this study was to give results about position of Lamyropsis microcephala within an already existing phylogeny of Lamyropsis genus on the Mediterranean area, by analyzing external transcribed spacer/internal transcribed spacer sequence data. The four Lamyropsis species considered in the model can be recognized as distinct taxa originated from successive migration/speciation events.

Published

2015

28. Conservation genetics of two island endemic Ribes spp. (Grossulariaceae) of Sardinia: survival or extinction?

Author

Sandra Citterio, Efisio Mattana, Giuseppe Fenu, Gianluigi Bacchetta, F. De Mattia, Rodolfo Gentili, Gentili, R, Fenu, G, Mattana, E, Citterio, S, DE MATTIA, F, and Bacchetta, G

Subjects

Conservation genetics, medicine, Insular biogeography, Grossulariaceae, Natural selection, Population, Endangered species, population, Plant Science, Crop wild relative, BIO/01 - BOTANICA GENERALE, Critically endangered, Ribes sardoum, Ribes, evolution, IUCN Red List, genetics, Evolution history, Selection, Genetic, education, Migration, Ecology, Evolution, Behavior and Systematics, Ecosystem, BIO/03 - BOTANICA AMBIENTALE E APPLICATA, Genetic diversity, education.field_of_study, biology, Ecology, Endangered Species, Microrefugia, Genetic Variation, General Medicine, behavior and systematics, Endemic Mediterranean flora, biology.organism_classification, Ex situ conservation, selection genetic, Phylogeography, Genetics, Population, Italy, ecology, crop wild relative, endemic Mediterranean flora, evolution history, insular biogeography, microrefugia, migration, natural selection, ecosystem, endangered species, genetics, population, grossulariaceae, microsatellite repeats, phylogeography, genetic variation, plant science, Microsatellite Repeats

Abstract

Measuring levels of population genetic diversity is an important step for assessing theconservation status of rare or endangered plant species and implementing appropriateconservation strategies. Populations of Ribes multiflorum subsp. sandalioticum andR. sardoum, two endangered endemic species from Sardinia, representing the wholegenus on the island, were investigated using ISSR and SSR markers to determine levelsand structure of genetic variability in their natural populations. Results indicatedmedium to low genetic diversity at the population level: Nei’s gene diversity for ISSRmarkers ranged from 0.0840 to 0.1316; the expected heterozygosity (H E ) for SSR ran-ged from 0.4281 to 0.7012. In addition, only one remnant population of R. sardoumshowed a high level of inbreeding, in accordance with its very small size. Regardingthe structure of the six R. sandalioticum populations, both principal coordinatesanalysis (PCoA) and STRUCTURE analysis of ISSR and SSR data highlighted low pop-ulation structure, although two populations appeared to be clearly distinct from theothers. The genetic pattern of the two taxa associated with their different ecologicalpositions indicated resilience of R. sandalioticum populations in fresh and humidhabitats and uncertain future resistance for the residual R. sardoum population inxeric calcareous stands. Hence, this study highlights the importance of an integratedconservation approach (genetic plus in situ and ex situ conservation studies/measures)for activating management programmes in these endemic and threatened taxa thatcan be considered as crop wild relatives of cultivated Ribes species.INTRODUCTIONEndangered species with small and isolated populations havebeen the subject of numerous conservation studies in the lastdecade. Their aims were to avoid biodiversity loss and under-stand survival/extinction mechanisms in an evolutionary con-text (Beissinger 2000; Freville et al. 2007; Abeli et al. 2009).The extinction process can be related to ecological factors suchas competition, predation, parasitism, disease and environ-mental stresses (Jones 2008). In recent years, habitat alterationdue to shifts in climatic characters, human activities and sto-chastic events are among the main current causes of biodiver-sity loss (Chapin et al. 2000). As a consequence, threatenedspecies may have low numbers of populations or small popula-tion size (e.g. Ellstrand & Elam 1993). In particular, island en-demics are thought to be even more susceptible to extinction(Frankham 1997, 1998) due to an increased probability of sto-chastic events on populations and phenomena of genetic driftand inbreeding depression, resulting in reduced genetic diver-sity (Izawa et al. 2007; Bruni et al. 2013). Given these threats,conservation of endangered species in their biogeographic con-text requires a thorough knowledge of the genetic structure oftheir populations (Rao & Hodgkin 2002). In this framework,maintaining these species’ genetic diversity is of pivotal impor-tance as it is associated with population viability and the evolu-tionary potential to adapt to environmental changes (Reedet al. 2002; Reed & Frankham 2003).Ribes L. (Grossulariaceae) is a genus of ca. 200 taxa distrib-uted in temperate regions of the Northern Hemisphere and inthe Andes (Mabberley 2008). Ribes sardoum Martelli andR. multiflorum Kit ex Roem et Schult. subsp. sandalioticumArrigoni (hereafter, R. sandalioticum) are the only two membersof this genus present in Sardinia, and both are endemic to theisland. Sardinia is the only Mediterranean island where thisgenus is represented exclusively by endemic taxa, while on thenearest island systems the genus is absent (i.e. Tuscan archipel-ago) or represented only by widely distributed species (see Fenuet al. 2012 and references therein). R. sardoum is a threatenedspecies with only one small population found in the Supramon-tes region (CE Sardinia; Bacchetta et al. 2008) and categorisedas critically endangered (CR) on the IUCN Red List. R. sandali-oticum has 13 populations established in three biogeographicsubsectors, mainly distributed in CE and NE Sardinia, and iscategorised as endangered (EN; Fenu et al. 2012).

Published

2014

29. Cole-Cole Model for the Dielectric Characterization of Healthy Skin and Basal Cell Carcinoma at THz Frequencies.

Author

Mattana E, Lodi MB, Simone M, Mazzarella G, and Fanti A

Abstract

THz radiationeffectively probes biological tissue water content due to its high sensibility to polar molecules. Skin and basal cell carcinoma (BCC), both rich in water, have been extensively studied in the THz range. Typically, the Double Debye model is used to study their dielectric permittivity. This work focuses on the viability of the multipole Cole-Cole model as an alternative dielectric model. To determine the best fit parameters, we used a genetic algorithm-based approach, solving a least squares problem. Compared with the Double Debye model, a maximum reduction of the RMSE value up to more than 50% and maximum relative percentage errors of 2.8% have been measured for both second and third order Cole-Cole models. Since the errors of the second and third order Cole-Cole models are similar, a two-poles model is enough to describe the behaviour both tissues from 0.2 THz to 2 THz., (© 2024 The Authors.)

Published

2024

30. The seed morphospace, a new contribution towards the multidimensional study of angiosperm sexual reproductive biology.

Author

Carta A, Vandelook F, Ramírez-Barahona S, Chen SC, Dickie J, Steinbrecher T, Thanos CA, Moles AT, Leubner-Metzger G, and Mattana E

Abstract

Background: The evolutionary success of flowering plants is associated with the vast diversity of their reproductive structures. Despite recent progress in understanding angiosperm-wide trends of floral structure and evolution, a synthetic view of the diversity in seed form and function across angiosperms is lacking., Scope: Here we present a roadmap to synthesise the diversity of seed forms in extant angiosperms, relying on the morphospace concept, i.e. a mathematical representation which relates multiple traits and describes the realised morphologies. We provide recommendations on how to broaden the range of measurable traits beyond mass, by using key morphological traits representative of the embryo, endosperm, and seed coat but also fruit attributes (e.g., dehiscence, fleshiness). These key traits were used to construct and analyse a morphospace to detect evolutionary trends and gain insight into how morphological traits relate to seed functions. Finally, we outline challenges and future research directions, combining the morphospace with macroevolutionary comparative methods to underline the drivers that gave rise to the diversity of observed seed forms., Conclusions: We conclude that this multidimensional approach has the potential, although still untapped, to improve our understanding of covariation among reproductive traits, and further elucidate angiosperm reproductive biology as a whole., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

31. Large dataset analyses advance knowledge of seed ecology and evolutionary biology.

Author

Rosbakh S, Carta A, Fernández-Pascual E, Phartyal SS, Dayrell RLC, Mattana E, Saatkamp A, Vandelook F, Baskin JM, and Baskin CC

Subjects

Datasets as Topic, Biological Evolution, Seeds physiology, Seeds genetics, Ecology

Published

2024

32. Global seed dormancy patterns are driven by macroclimate but not fire regime.

Author

Rosbakh S, Carta A, Fernández-Pascual E, Phartyal SS, Dayrell RLC, Mattana E, Saatkamp A, Vandelook F, Baskin J, and Baskin C

Subjects

Seeds physiology, Climate, Plants, Temperature, Seasons, Plant Dormancy physiology, Germination physiology

Abstract

Seed dormancy maximizes plant recruitment in habitats with variation in environmental suitability for seedling establishment. Yet, we still lack a comprehensive synthesis of the macroecological drivers of nondormancy and the different classes of seed dormancy: physiological dormancy, morphophysiological dormancy and physical dormancy. We examined current geographic patterns and environmental correlates of global seed dormancy variation. Combining the most updated data set on seed dormancy classes for > 10 000 species with > 4 million georeferenced species occurrences covering all of the world's biomes, we test how this distribution is driven by climate and fire regime. Seed dormancy is prevalent in seasonally cold and dry climates. Physiological dormancy occurs in relatively dry climates with high temperature seasonality (e.g. temperate grasslands). Morphophysiological dormancy is more common in forest-dominated, cold biomes with comparatively high and evenly distributed precipitation. Physical dormancy is associated with dry climates with strong seasonal temperature and precipitation fluctuations (e.g. deserts and savannas). Nondormancy is associated with stable, warm and wetter climates (e.g. tropical rain forest). Pyroclimate had no significant effect on the distribution of seed dormancy. The environmental drivers considered in this study had a comparatively low predictive power, suggesting that macroclimate is just one of several global drivers of seed dormancy., (© 2023 The Authors New Phytologist © 2023 New Phytologist Foundation.)

Published

2023

33. Potential Distribution of Cedrela odorata L. in Mexico according to Its Optimal Thermal Range for Seed Germination under Different Climate Change Scenarios.

Author

Sampayo-Maldonado S, Ordoñez-Salanueva CA, Mattana E, Way M, Castillo-Lorenzo E, Dávila-Aranda PD, Lira-Saade R, Téllez-Valdés O, Rodríguez-Arévalo NI, Flores-Ortiz CM, and Ulian T

Abstract

Cedrela odorata is a native tree of economic importance, as its wood is highly demanded in the international market. In this work, the current and future distributions of C. odorata in Mexico under climate change scenarios were analyzed according to their optimal temperature ranges for seed germination. For the present distribution, 256 localities of the species' presence were obtained from the Global Biodiversity Information Facility (GBIF) database and modelled with MaxEnt. For the potential distribution, the National Center for Atmospheric Research model (CCSM4) was used under conservative and drastic scenarios (RCP2.6 and RCP8.5 Watts/m 2 , respectively) for the intermediate future (2050) and far future (2070). Potential distribution models were built from occurrence data within the optimum germination temperature range of the species. The potential distribution expanded by 5 and 7.8% in the intermediate and far future, respectively, compared with the current distribution. With the increase in temperature, adequate environmental conditions for the species distribution should be met in the central Mexican state of Guanajuato. The states of Chihuahua, Mexico, Morelos, Guerrero, and Durango presented a negative trend in potential distribution. Additionally, in the far future, the state of Chihuahua it is likely to not have adequate conditions for the presence of the species. For the prediction of the models, the precipitation variable during the driest month presented the greatest contribution. When the humidity is not limiting, the thermal climatic variables are the most important ones. Models based on its thermal niche for seed germination allowed for the identification of areas where temperature will positively affect seed germination, which will help maximize the establishment of plant populations and adaptation to different climate change scenarios.

Published

2022

34. Low availability of functional seed trait data from the tropics could negatively affect global macroecological studies, predictive models and plant conservation.

Author

Visscher AM, Vandelook F, Fernández-Pascual E, Pérez-Martínez LV, Ulian T, Diazgranados M, and Mattana E

Subjects

Plants, Ecosystem, Seeds

Abstract

Background: Plant seeds have many traits that influence ecological functions, ex situ conservation, restoration success and their sustainable use. Several seed traits are known to vary significantly between tropical and temperate regions. Here we present three additional traits for which existing data indicate differences between geographical zones. We discuss evidence for geographical bias in availability of data for these traits, as well as the negative consequences of this bias., Scope: We reviewed the literature on seed desiccation sensitivity studies that compare predictive models to experimental data and show how a lack of data on populations and species from tropical regions could reduce the predictive power of global models. In addition, we compiled existing data on relative embryo size and post-dispersal embryo growth and found that relative embryo size was significantly larger, and embryo growth limited, in tropical species. The available data showed strong biases towards non-tropical species and certain families, indicating that these biases need to be corrected to perform truly global analyses. Furthermore, we argue that the low number of seed germination studies on tropical high-mountain species makes it difficult to compare across geographical regions and predict the effects of climate change in these highly specialized tropical ecosystems. In particular, we show that seed traits of geographically restricted páramo species have been studied less than those of more widely distributed species, with most publications unavailable in English or in the peer-reviewed literature., Conclusions: The low availability of functional seed trait data from populations and species in the tropics can have negative consequences for macroecological studies, predictive models and their application to plant conservation. We propose that global analyses of seed traits with evidence for geographical variation prioritize generation of new data from tropical regions as well as multi-lingual searches of both the grey- and peer-reviewed literature in order to fill geographical and taxonomic gaps., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Annals of Botany Company.)

Published

2022

35. Climate shapes the seed germination niche of temperate flowering plants: a meta-analysis of European seed conservation data.

Author

Carta A, Fernández-Pascual E, Gioria M, Müller JV, Rivière S, Rosbakh S, Saatkamp A, Vandelook F, and Mattana E

Subjects

Bayes Theorem, Phylogeny, Plant Dormancy, Plants, Seeds physiology, Temperature, Germination physiology, Magnoliopsida

Abstract

Background and Aims: Interactions between ecological factors and seed physiological responses during the establishment phase shape the distribution of plants. Yet, our understanding of the functions and evolution of early-life traits has been limited by the scarcity of large-scale datasets. Here, we tested the hypothesis that the germination niche of temperate plants is shaped by their climatic requirements and phylogenetic relatedness, using germination data sourced from a comprehensive seed conservation database of the European flora (ENSCOBASE)., Methods: We performed a phylogenetically informed Bayesian meta-analysis of primary data, considering 18 762 germination tests of 2418 species from laboratory experiments conducted across all European geographical regions. We tested for the interaction between species' climatic requirements and germination responses to experimental conditions including temperature, alternating temperature, light and dormancy-breaking treatments, while accounting for between-study variation related to seed sources and seed lot physiological status., Key Results: Climate was a strong predictor of germination responses. In warm and seasonally dry climates the seed germination niche includes a cold-cued germination response and an inhibition determined by alternating temperature regimes and cold stratification, while in climates with high temperature seasonality opposite responses can be observed. Germination responses to scarification and light were related to seed mass but not to climate. We also found a significant phylogenetic signal in the response of seeds to experimental conditions, providing evidence that the germination niche is phylogenetically constrained. Nevertheless, phylogenetically distant lineages exhibited common germination responses under similar climates., Conclusion: This is the first quantitative meta-analysis of the germination niche at a continental scale. Our findings showed that the germination niches of European plants exhibit evolutionary convergence mediated by strong pressures at the macroclimatic level. In addition, our methodological approach highlighted how large datasets generated by conservation seed banking can be valuable sources to address questions in plant macroecology and evolution., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2022

36. Seeds as natural capital.

Author

Mattana E, Ulian T, and Pritchard HW

Subjects

Agriculture, Conservation of Natural Resources, Forestry, Seeds, Biodiversity, Ecosystem

Abstract

Halting and reversing the current loss of biodiversity and habitats will be facilitated by a comprehensive valuation of all nature's contributions to people (NCPs), on which we rely. In this context, we explore the full natural capital value of seeds to reveal how this extends far beyond their economic value associated with mainstream agriculture and forestry. Seeds represent the main assets for nature-based solutions at species (i.e., unlocking neglected species properties and via seed banking) and ecosystem level (i.e., ecological restoration). Challenges remain to enhance their sustainable use in nature conservation and in supporting a sustainable development model. Such advances will depend on the comprehensive valuation of the natural capital value of seeds, which has so far been grossly underestimated., Competing Interests: Declaration of interests No interests are declared., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2022

37. Thermal Niche for Seed Germination and Species Distribution Modelling of Swietenia macrophylla King (Mahogany) under Climate Change Scenarios.

Author

Sampayo-Maldonado S, Ordoñez-Salanueva CA, Mattana E, Way M, Castillo-Lorenzo E, Dávila-Aranda PD, Lira-Saade R, Téllez-Valdés O, Rodriguez-Arevalo NI, Ulian T, and Flores-Ortíz CM

Abstract

Swietenia macrophylla is an economically important tree species propagated by seeds that lose their viability in a short time, making seed germination a key stage for the species recruitment. The objective of this study was to determine the cardinal temperatures and thermal time for seed germination of S. macrophylla ; and its potential distribution under different climate change scenarios. Seeds were placed in germination chambers at constant temperatures from 5 to 45 °C and their thermal responses modelled using a thermal time approach. In addition, the potential biogeographic distribution was projected according to the Community Climate System Model version 4 (CCSM4). Germination rate reached its maximum at 37.3 ± 1.3 °C (To); seed germination decreased to near zero at 52.7 ± 2.2 °C (ceiling temperature, Tc) and at 12.8 ± 2.4 °C (base temperature, Tb). The suboptimal thermal time θ150 needed for 50% germination was ca. 190 °Cd, which in the current scenario is accumulated in 20 days. The CCSM4 model estimates an increase of the potential distribution of the species of 12.3 to 18.3% compared to the current scenario. The temperature had an important effect on the physiological processes of the seeds. With the increase in temperature, the thermal needs for germination are completed in less time, so the species will not be affected in its distribution. Although the distribution of the species may not be affected, it is crucial to generate sustainable management strategies to ensure its long-term conservation.

Published

2021

38. Study of Cytotoxic and Photodynamic Activities of Dyads Composed of a Zinc Phthalocyanine Appended to an Organotin.

Author

Toubia I, Nguyen C, Diring S, Pays M, Mattana E, Arnoux P, Frochot C, Gary-Bobo M, Kobeissi M, and Odobel F

Abstract

The combination of photodynamic therapy and chemotherapy is a promising strategy to enhance cancer therapeutic efficacy and reduce drug resistance. In this study two zinc(II) phthalocyanine-tin(IV) conjugates linked by a triethylene glycol chain were synthesized and characterized. In these complexes, the zinc(II) phthalocyanine was used as a potential photosensitizer for PDT and the tin complex was selected as cytostatic moiety. The two dyads composed of zinc(II) phthalocyanine and tin complexes exhibited high cytotoxicity, in absence of light stimulation, against MCF-7 human breast cancer cells with low LC 50 values in the range of 0.016-0.453 µM. In addition, these complexes showed superior cytotoxicity than their mixture of equimolar component, accompanied with a higher activity towards cancer cells compared to human healthy fibroblasts. However, under irradiation of the zinc phthalocyanine unit (at 650 nm) no photodynamic activity could be detected, due to the most likely quenching of zinc(II) phthalocyanine singlet excited state by the nearby tin complex according to a photoinduced electron transfer process. This study demonstrates the potential of heterometallic anticancer chemotherapeutics composed of a zinc phthalocyanine and tin complex, and it highlights that the development of such conjugates requires that the sensitizer preserves its photophysical properties and in particular its singlet oxygen sensitization ability in the conjugate in order to combine the PDT activity with the cytotoxicity of the anticancer drug.

Published

2021

39. The seed germination spectrum of alpine plants: a global meta-analysis.

Author

Fernández-Pascual E, Carta A, Mondoni A, Cavieres LA, Rosbakh S, Venn S, Satyanti A, Guja L, Briceño VF, Vandelook F, Mattana E, Saatkamp A, Bu H, Sommerville K, Poschlod P, Liu K, Nicotra A, and Jiménez-Alfaro B

Subjects

Plant Dormancy, Plants, Temperature, Germination, Seeds

Abstract

Assumptions about the germination ecology of alpine plants are presently based on individual species and local studies. A current challenge is to synthesise, at the global level, the alpine seed ecological spectrum. We performed a meta-analysis of primary data from laboratory experiments conducted across four continents (excluding the tropics) and 661 species, to estimate the influence of six environmental cues on germination proportion, mean germination time and germination synchrony; accounting for seed morphology (mass, embryo : seed ratio) and phylogeny. Most alpine plants show physiological seed dormancy, a strong need for cold stratification, warm-cued germination and positive germination responses to light and alternating temperatures. Species restricted to the alpine belt have a higher preference for warm temperatures and a stronger response to cold stratification than species whose distribution extends also below the treeline. Seed mass, embryo size and phylogeny have strong constraining effects on germination responses to the environment. Globally, overwintering and warm temperatures are key drivers of germination in alpine habitats. The interplay between germination physiology and seed morphological traits further reflects pressures to avoid frost or drought stress. Our results indicate the convergence, at the global level, of the seed germination patterns of alpine species., (© 2020 The Authors New Phytologist © 2020 New Phytologist Foundation.)

Published

2021

40. Functional seed traits and germination patterns predict species coexistence in Northeast Mediterranean foredune communities.

Author

Del Vecchio S, Mattana E, Ulian T, and Buffa G

Subjects

Italy, Seeds, Temperature, Ecosystem, Germination

Abstract

Background and Aims: The structure of plant communities, which is based on species abundance ratios, is closely linked to ecosystem functionality. Seed germination niche plays a major role in shaping plant communities, although it has often been neglected when explaining species coexistence. The aim of this work is to link the seed germination niche to community ecology, investigating how functional seed traits contribute to species coexistence., Methods: Species selection was based on a database of 504 vegetation surveys from the Veneto coast (Italy). Through cluster analysis we identified the foredune community and selected all of its 19 plant species. By using the 'Phi coefficient' and frequency values, species were pooled in different categories (foundation species, accidental species of the semi-fixed dune and aliens), then the 19 species were grouped according to their germination responses to temperature and photoperiod through cluster analyses. For each germination cluster, we investigated germination trends against temperature and photoperiod by using generalized linear mixed models., Key Results: We identified four germination strategies: (1) high germination under all tested conditions ('high-germinating'); (2) high germination at warm temperatures in the dark ('dark warm-cued'); (3) high germination at warm temperatures in the light ('light warm-cued'); and (4) low germination, regardless of conditions ('low-germinating'). Foredune foundation species showed a narrow germination niche, being 'low-germinating' or 'dark warm-cued'. Annual species of semi-fixed dunes were 'high-germinating', while alien species were the only members of the 'light warm-cued' cluster., Conclusions: Our research suggests that different categories of species have dissimilar seed germination niches, which contributes to explaining their coexistence. Climatic events, such as rising temperature, could alter germination patterns, favouring seed regeneration of certain categories (i.e. alien and semi-fixed dune species) at the expense of others (i.e. foundation species, pivotal to ecosystem functioning), and hence potentially altering the plant community structure., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2021

41. Differential Interpretation of Mountain Temperatures by Endospermic Seeds of Three Endemic Species Impacts the Timing of In Situ Germination.

Author

Porceddu M, Pritchard HW, Mattana E, and Bacchetta G

Abstract

Predicting seed germination in the field is a critical part of anticipating the impact of climate change on the timing of wild species regeneration. We combined thermal time and soil heat sum models of seed germination for three endemic Mediterranean mountain species with endospermic seeds and morphophysiological dormancy: Aquilegia barbaricina , Paeonia corsica , and Ribes sandalioticum . Seeds were buried in the soil within the respective collection sites, both underneath and outside the tree canopy, and their growth was assessed regularly and related to soil temperatures and estimates of the thermal characteristics of the seeds. The thermal thresholds for embryo growth and seed germination of A. barbaricina assessed in previous studies under controlled conditions were used to calculate soil heat sum accumulation of this species in the field. Thermal thresholds of seed germination for P. corsica and R. sandalioticum were not previously known and were estimated for the first time in this field study, based on findings of previous works carried out under controlled conditions. Critical embryo length and maximum germination for A. barbaricina were reached in April, and in December for R. sandalioticum . Seeds of P. corsica stay dormant in the ground until the following summer, and the critical embryo length and highest germination were detected from September to December. Soil heat sum models predicted earlier germination by one month for all three species under two Intergovernmental Panel on Climate Change (IPCC) scenarios, based on the assumption that the estimated thermal thresholds will remain constant through climate changes. This phenological shift may increase the risk of mortality for young seedlings. The models developed provide important means of connecting the micro-environmental niche for in situ seed germination and the macro-environmental parameters under a global warming scenario.

Published

2020

42. Born to Eat Wild: An Integrated Conservation Approach to Secure Wild Food Plants for Food Security and Nutrition.

Author

Borelli T, Hunter D, Powell B, Ulian T, Mattana E, Termote C, Pawera L, Beltrame D, Penafiel D, Tan A, Taylor M, and Engels J

Abstract

Overlooked in national reports and in conservation programs, wild food plants (WFPs) have been a vital component of food and nutrition security for centuries. Recently, several countries have reported on the widespread and regular consumption of WFPs, particularly by rural and indigenous communities but also in urban contexts. They are reported as critical for livelihood resilience and for providing essential micronutrients to people enduring food shortages or other emergency situations. However, threats derived from changes in land use and climate, overexploitation and urbanization are reducing the availability of these biological resources in the wild and contributing to the loss of traditional knowledge associated with their use. Meanwhile, few policy measures are in place explicitly targeting their conservation and sustainable use. This can be partially attributed to a lack of scientific evidence and awareness among policymakers and relevant stakeholders of the untapped potential of WFPs, accompanied by market and non-market barriers limiting their use. This paper reviews recent efforts being undertaken in several countries to build evidence of the importance of WFPs, while providing examples of cross-sectoral cooperation and multi-stakeholder approaches that are contributing to advance their conservation and sustainable use. An integrated conservation approach is proposed contributing to secure their availability for future generations.

Published

2020

43. Native trees of Mexico: diversity, distribution, uses and conservation.

Author

Tellez O, Mattana E, Diazgranados M, Kühn N, Castillo-Lorenzo E, Lira R, Montes-Leyva L, Rodriguez I, Flores Ortiz CM, Way M, Dávila P, and Ulian T

Abstract

Background: Mexico is one of the most floristically rich countries in the world. Despite significant contributions made on the understanding of its unique flora, the knowledge on its diversity, geographic distribution and human uses, is still largely fragmented. Unfortunately, deforestation is heavily impacting this country and native tree species are under threat. The loss of trees has a direct impact on vital ecosystem services, affecting the natural capital of Mexico and people's livelihoods. Given the importance of trees in Mexico for many aspects of human well-being, it is critical to have a more complete understanding of their diversity, distribution, traditional uses and conservation status. We aimed to produce the most comprehensive database and catalogue on native trees of Mexico by filling those gaps, to support their in situ and ex situ conservation, promote their sustainable use, and inform reforestation and livelihoods programmes., Methods: A database with all the tree species reported for Mexico was prepared by compiling information from herbaria and reviewing the available floras. Species names were reconciled and various specialised sources were used to extract additional species information, i.e. endemic status, threat status, availability in seed collections, reports on plant uses and conservation actions currently in place. With this information, a comprehensive catalogue of native trees from Mexico was redacted. Available georeferenced records were used to map each species distribution and perform spatial analyses to identify gaps of information and priority areas for their conservation and exploration., Results: Mexico has at least 2,885 native tree species, belonging to 612 genera and 128 families. Fabaceae is the most represented family and Quercus the most represented genus. Approximately 44% of tree species are endemic to the country. The southern part of the country showed the highest values of species richness. Six hundred and seventy-four species have at least one documented human use. In terms of conservation assessment, ca. 33% of species have been assessed by either the IUCN Red List (919) or the National protection catalogue "NORMA Oficial Mexicana NOM-059" (29) or both (45). Additionally, 98 species have been included in the CITES listing for protection. In terms of existing conservation efforts, 19% of species have ex situ protection in seed banks, while protected areas overlap with all the identified peaks of species richness, except for those in the states of Veracruz and Chiapas. This work constitutes a key milestone for the knowledge, management, and conservation of the Mexican native trees. The two areas with high density of tree species identified in Veracruz and Chiapas represent two priority areas for tree conservation in Mexico, where integrated in situ and ex situ conservation efforts should be focused., Competing Interests: The authors declare there are no competing interests., (©2020 Tellez et al.)

Published

2020

44. Biological Assessment of Laser-Synthesized Silicon Nanoparticles Effect in Two-Photon Photodynamic Therapy on Breast Cancer MCF-7 Cells.

Author

Al-Kattan A, M A Ali L, Daurat M, Mattana E, and Gary-Bobo M

Abstract

Driven by their distinctive physiological activities, biological properties and unique theranostic modalities, silicon nanoparticles (SiNPs) are one of the promising materials for the development of novel multifunctional nanoplatforms for biomedical applications. In this work, we assessed the possibility to use laser-synthesized Si NPs as photosensitizers in two-photon excited photodynamic therapy (TPE-PDT) modality. Herein, we used an easy strategy to synthesize ultraclean and monodispersed SiNPs using laser ablation and fragmentation sequences of silicon wafer in aqueous solution, which prevent any specific purification step. Structural analysis revealed the spherical shape of the nanoparticles with a narrow size distribution centered at the mean size diameter of 62 nm ± 0.42 nm, while the negative surface charge of -40 ± 0.3 mV ensured a great stability without sedimentation over a long period of time. In vitro studies on human cancer cell lines (breast and liver) and healthy cells revealed their low cytotoxicity without any light stimulus and their therapeutic potential under TPE-PDT mode at 900 nm with a promising cell death of 45% in case of MCF-7 breast cancer cells, as a consequence of intracellular reactive oxygen species release. Their luminescence emission inside the cells was clearly observed at UV-Vis region. Compared to Si nanoparticles synthesized via chemical routes, which are often linked to additional modules with photochemical and photobiological properties to boost photodynamic effect, laser-synthesized SiNPs exhibit promising intrinsic therapeutic and imaging properties to develop advanced strategy in nanomedicine field.

Published

2020

45. Seeds of future past: climate change and the thermal memory of plant reproductive traits.

Author

Fernández-Pascual E, Mattana E, and Pritchard HW

Subjects

Adaptation, Physiological physiology, Germination, Multivariate Analysis, Phylogeny, Plant Dormancy physiology, Publication Bias, Reproduction, Seedlings growth & development, Temperature, Time Factors, Climate Change, Plant Physiological Phenomena, Seeds physiology

Abstract

Plant persistence and migration in face of climate change depends on successful reproduction by seed, a central aspect of plant life that drives population dynamics, community assembly and species distributions. Plant reproduction by seed is a chain of physiological processes, the rates of which are a function of temperature, and can be modelled using thermal time models. Importantly, while seed reproduction responds to its instantaneous thermal environment, there is also evidence of phenotypic plasticity in response to the thermal history experienced by the plant's recent ancestors, by the reproducing plant since seedling establishment, and by its seeds both before and after their release. This phenotypic plasticity enables a thermal memory of plant reproduction, which allows individuals to acclimatise to their surroundings. This review synthesises current knowledge on the thermal memory of plant reproduction by seed, and highlights its importance for modelling approaches based on physiological thermal time. We performed a comprehensive search in the Web of Science and analysed 533 relevant articles, of which 81 provided material for a meta-analysis of thermal memory in reproductive functional traits based on the effect size Zr. The articles encompassed the topics of seed development, seed yield (mass and number), seed dormancy (physiological, morphological and physical), germination, and seedling establishment. The results of the meta-analysis provide evidence for a thermal memory of seed yield, physiological dormancy and germination. Seed mass and physiological dormancy appear to be the central hubs of this memory. We argue for integrating thermal memory into a predictive framework based on physiological time modelling. This will provide a quantitative assessment of plant reproduction, a complex system that integrates past and present thermal inputs to achieve successful reproduction in changing environments. The effects of a warming environment on plant reproduction cannot be reduced to a qualitative interpretation of absolute positives and negatives. Rather, these effects need to be understood in terms of changing rates and thresholds for the physiological process that underlie reproduction by seed., (© 2018 Cambridge Philosophical Society.)

Published

2019