Cristina Martínez-Calvo scite author profile

Cristina Martínez-Calvo

2Publications

15Citation Statements Received

85Citation Statements Given

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Biometry of stomata in Blechnum species (Blechnaceae) with some taxonomic and ecological implications for the ferns

Galán

Prada²,

Rolleri³

et al. 2010

RBT

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Morphological stomatal traits, such as size, form and frequency, have been subject of much literature, including their relationships with environmental factors. However, little effort have focused on ferns, and very few in the genus Blechnum. Stomatal length, width and frequency (as stomatal index) of a number of specimens of fourteen Neotropical species of Blechnum were measured in adult pinnae. The aim of the work was to find biometrical relationships between stomatal traits and between stomatal traits and habit, habitat and ecosystem of the plants. Statistical analyses of data were conducted using Exploratory Data Analysis and Multivariate Statistical Methods. Stomatal length and width showed a very high correlation, suggesting an endogenous, genetic control, thus giving these traits a considerable diagnostic utility. With respect to the relationships between stomatal traits and environment, we found significant statistical relationships between altitude and stomatal index. We also addressed the interpretation of the ecological-selective significance of various assemblages of stomatal traits in a diverse conjunction of habits, habitats and ecosystems.

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A Gompertz regression model for fern spores germination

Galán¹,

Prada²,

Martínez-Calvo³

et al. 2015

Anal. Jard. Bot. Madr.

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Gabriel y Galán, J.M., Prada, C., Martínez-Calvo, C. & Lahoz-Beltrá R. 2015. A Gompertz regression model for fern spores germination. Anales Jard. Bot. Madrid 72(1): e015Germination is one of the most important biological processes for both seed and spore plants, also for fungi. At present, mathematical models of germination have been developed in fungi, bryophytes and several plant species. However, ferns are the only group whose germination has never been modelled. In this work we develop a regression model of the germination of fern spores. We have found that for Blechnum serrulatum, Blechnum yungense, Cheilanthes pilosa, Niphidium macbridei and Polypodium feuillei species the Gompertz growth model describe satisfactorily cumulative germination. An important result is that regression parameters are independent of fern species and the model is not affected by intraspecific variation. Our results show that the Gompertz curve represents a general germination model for all the non-green spore leptosporangiate ferns, including in the paper a discussion about the physiological and ecological meaning of the model.

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