Vera Lúcia de Souza Teixeira Fischer’s research while affiliated with Universidade Federal de Santa Catarina and other places

What is this page?


This page lists works of an author who doesn't have a ResearchGate profile or hasn't added the works to their profile yet. It is automatically generated from public (personal) data to further our legitimate goal of comprehensive and accurate scientific recordkeeping. If you are this author and want this page removed, please let us know.

Publications (3)


Figure 1 Study area at the René Frey Ecological Park, Fraiburgo, Santa Catarina, Brazil.
Figure 2
Figure 3 Climbing trees for the vascular epiphyte survey, Araucaria angustifolia trees (A-D), launching a climbing line with a big shot (E), arborists with their communication and personal protective gear (F), Ocotea porosa trees (G-H).
Figure 4 The rarefaction and sample suciency extrapolation curves based on the sample size: Araucaria: Araucaria angustifolia (n= 4 trees, code= Ara), Ocotea: Ocotea porosa (n= 5 trees, code= Oco) and all trees (n= 9, Trees). (A) Sample-size-based rarefaction and extrapolation sampling curve and (B) sample completeness curve. Sample size (continuous line) and extrapolation (dashed line, up to twice the size of the species reference sample), with 95% condence intervals represented by the red-shaded regions. (C) Species richness and Shannon´s diversity index by host trees with their respective size in diameter. (D) Ordination analysis (NMS) of host trees species in vascular epiphytes community (code trees in Table 1).
Location, height (H), and diameter (DBH) of the phorophytes selected for sampling of vascular epiphytes at the René Frey Ecological Park, Fraiburgo, SC, Brazil.
Vascular epiphytes on large old-growth trees: the influence of ecological zones in epiphyte species composition
  • Preprint
  • File available

November 2022

·

434 Reads

·

Vera Lúcia de Souza Teixeira Fischer

·

Edilaine Andrade Melo

·

[...]

·

The over time establishment of epiphyte communities on large old-growth trees has shown that epiphyte numbers tend to rise in relation to the size of their phorophytes. The objective of our study was to perform a floristic survey of vascular epiphytes on last large old-growth trees in a subtropical forest and to compare species richness between conifers and hardwood trees. Nine phorophytes (0.9–2.1 m in diameter and 22–40 m in height) in one of the last remaining old-growth forests were selected for study. Epiphyte locations on the trees were divided into the following ecological zones: base of the trunk: first 1.30 m above ground; mid-section of the trunk: from the trunk base to the crown base; crown base: 1.30 m below the crown; and crown. We found 30 species of epiphytes, distributed in 21 genera and 11 families. Among the distribution patterns of the epiphytes there were species predominantly occurring in the basal or mid-trunk region of the phorophytes (e.g., Billbergia nutans ); other species occupied the upper portion of the phorophyte, between the mid-trunk and the crown (e.g., Vriesea reitzii ). The relationship between size in large old host trees and vascular epiphyte species richness is not positive and linear. Vascular epiphyte species richness by host trees species was indifferent among large old trees species, even though Ocotea porosa (hardwood) has an apparently larger crown greater and show more abundance of epiphytes than that of Araucaria angustifolia (conifer).

Download

Figure 2
Figure 3
Figure 4
Location, height (H), and diameter (DBH) of the phorophytes selected for sampling of vascular epiphytes at the René Frey Ecological Park, Fraiburgo, SC, Brazil.
Vascular epiphytes on large old-growth trees: the influence of ecological zones in epiphyte species composition

November 2022

·

212 Reads

·

1 Citation

The over time establishment of epiphyte communities on large old-growth trees has shown that epiphyte numbers tend to rise in relation to the size of their phorophytes. The objective of our study was to perform a floristic survey of vascular epiphytes on last large old-growth trees in a subtropical forest and to compare species richness between conifers and hardwood trees. Nine phorophytes (0.9 - 2.1 m in diameter and 22 - 40 m in height) in one of the last remaining old-growth forests were selected for study. Epiphyte locations on the trees were divided into the following ecological zones: base of the trunk: first 1.30 m above ground; mid-section of the trunk: from the trunk base to the crown base; crown base: 1.30 m below the crown; and crown. We found 30 species of epiphytes, distributed in 21 genera and 11 families. Among the distribution patterns of the epiphytes there were species predominantly occurring in the basal or mid-trunk region of the phorophytes (e.g., Billbergia nutans ); other species occupied the upper portion of the phorophyte, between the mid-trunk and the crown (e.g., Vriesea reitzii ). The relationship between size in large old host trees and vascular epiphyte species richness is not positive and linear. Vascular epiphyte species richness by host trees species was indifferent among large old trees species, even though Ocotea porosa (hardwood) has an apparently larger crown greater and show more abundance of epiphytes than that of Araucaria angustifolia (conifer).


Citations (1)


... For example, the abundance of saprotrophic fungi (which support plant growth by increasing nutrient availability in the soil) can decrease in cleared areas [33]. As lianas, vines, epiphytes, and epiphyllous species depend on tree cover for their establishment and growth [43][44][45], they are also lost at this stage. These groups are extremely diverse but insufficiently known, and their extinction is relatively silent, as they are often overlooked in most diversity assessments. ...

Reference:

Multiscale effects of slash-and-burn agriculture across the tropics: Implications for the sustainability of an ancestral agroecosystem
Vascular epiphytes on large old-growth trees: the influence of ecological zones in epiphyte species composition