Biology (Oct 2023)

How the Adequate Choice of Plant Species Favors the Restoration Process in Areas Susceptible to Extreme Frost Events

  • Emerson Viveiros,
  • Bruno Santos Francisco,
  • Felipe Bueno Dutra,
  • Lindomar Alves de Souza,
  • Mariane Cristina Inocente,
  • Aline Cipriano Valentim Bastos,
  • Glória Fabiani Leão da Costa,
  • Maycon Cristiano Barbosa,
  • Rafael Paranhos Martins,
  • Raquel Aparecida Passaretti,
  • Maria José Pereira Fernandes,
  • Julia Siqueira Tagliaferro de Oliveira,
  • Ana Paula Ponce Shiguehara,
  • Enzo Coletti Manzoli,
  • Bruna Santos Teração,
  • Ivonir Piotrowski,
  • Fátima Conceição Márquez Piña-Rodrigues,
  • José Mauro Santana da Silva

DOI
https://doi.org/10.3390/biology12111369
Journal volume & issue
Vol. 12, no. 11
p. 1369

Abstract

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This work aimed to evaluate the impacts caused by extreme frost events in an ecological restoration area. We grouped the species in three ways: (1) type of trichome coverage; (2) shape of the seedling crown; and (3) functional groups according to the degree of damage caused by frost. The variables of the restored area and species characteristics were selected to be subjected to linear generalization analysis models (GLMs). A total of 104 individuals from seven species were sampled. The most affected species were Guazuma ulmifolia Lam. (98% of leaves affected), followed by Cecropia pachystachia Trécul and Hymenea courbaril L. (both 97%), Inga vera Willd. (84%), and Senegalia polyphylla (DC.) Britton & Rose with 75%. Tapirira guianensis Aubl. was considered an intermediate species, with 62% of the crown affected. Only Solanum granulosoleprosum Dunal was classified as slightly affected, with only 1.5% of leaves affected. With the GLM analysis, it was verified that the interaction between the variables of leaf thickness (Χ² = 37.1, df = 1, p p p p < 0.001). Frost-affected crown cover was best explained by the interaction between the three functional attributes (74%). We found that there is a tendency for thicker leaves completely covered in trichomes to be less affected by the impact of frost and that the coverage of the affected crown was greatly influenced by the coverage of trichomes. Seedlings with leaves completely covered in trichomes, thicker leaves, and a funneled or more open crown structure are those that are most likely to resist frost events. The success of ecological restoration in areas susceptible to extreme events such as frost can be predicted based on the functional attributes of the chosen species. This can contribute to a better selection of species to be used to restore degraded areas.

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