Different slopes of a mountain can determine the structure of ferns and lycophytes communities in a tropical forest of Brazil

Nettesheim, Felipe Cito; Damasceno, Elaine R.; Sylvestre, Lana da Silva

doi:10.1590/0001-3765201495912

Cited by 18 publications

(13 citation statements)

References 50 publications

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“…Also, species richness and abundance of pteridophytes are greater in shady forests than in more open ones or in open vegetation types because there are more shade tolerant species (umbrophiles) of pteridophytes than pioneers/ heliophiles (Tryon & Tryon 1982, Della 2016). Chen et al (2014), Daly et al (2006), Das et al (2013), Della (2016), Dzwonko & Kornas (1994), Eisner & Peterson (1998), Gamarra et al (2003), Gehrig-Downie et al (2012), Goebel et al (2006), Goforth (2006), Granville (1984), Guarino et al (2012), Guimarães et al (2014), Halme & Bodmer (2007), Haq et al (2017), Hemp (2002), Hernández et al (2013), Higgins et al (2011), Johns (1985, Karst et al (2005), Kessler (2001), Kessler & Bach (1999), Khwaiphan & Boonkerd (2008), Klinka et al (1989), Loschi et al (2010), Medeanic et al (2016), Nettesheim et al (2014), Nóbrega et al (2011), Norton (1994, Page (2002), Patil et al (2016), Pos & Sleegers (2010), Ranieri (2015), Richard et al (2000), Richardson & Walker (2010), Rocha-Uriartt et al (2016), Ruokolaine...…”

Section: Methodsmentioning

confidence: 99%

Pteridophytes as ecological indicators: an overview

Della

Falkenberg

2019

Hoehnea

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Pteridophytes as ecological indicators: an overview). The pteridophytes present a great but poorly explored potential as ecological indicators (EIs), shown only in some sparse studies. Therefore, to analyze this potential, we reviewed published articles, websites, or books with pteridophytes as EIs, searching on five scholar databases and also on Google. We selected 134 studies, conducted in all continents (118 in mainland areas and 16 in islands). Brazil is the country with the highest number of studies (N = 33). In general, several species were considered as EIs in a given study, not only a single. The use of Pteridophytes in these works was classified in seven different types: a) classification of vegetation, soils, environments, and ecosystems (N = 65), b) environmental integrity (or quality) (N = 21), c) disturbance (N = 17), d) regeneration/restoration of habitats and/or ecosystems (N = 10), e) climate changes (N = 10), f) contamination of air, soil, or water (N = 14), and g) association with other groups of organisms (N = 12). The vast majority of these studies merely hypothesized the potential use of the Pteridophytes as EIs, with few presenting helpful criteria for the selection of EIs. Although there is an increasing recognition of the potential use of Pteridophytes as EIs, a more in-depth discussion about the criteria for selecting Pteridophytes as indicators and the real uses of such plants is needed.

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Section: Methodsmentioning

confidence: 99%

Pteridophytes as ecological indicators: an overview

Della

Falkenberg

2019

Hoehnea

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“…Souza 2013). Such studies have revealed that environmental factors can positively or negatively influence the presence of species (Finger and Filho 2014) and several have addressed the extent to which floristic composition depends on abiotic versus biotic processes, such as dispersal limitations and biological interactions (Hubbell 2001;Dalling et al 2002;Wyatt and Silman 2004;Nettesheim et al 2014). As discussed by Webb et al (2002), the relationship between a species and spatial/environmental variables is the result of long evolutionary history.…”

Section: Introductionmentioning

confidence: 99%

Humidity, low temperature extremes, and space influence floristic variation across an insightful gradient in the Subtropical Atlantic Forest

et al. 2015

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The use of well-sampled regions and insightful environmental gradients can provide important theoretical knowledge for understanding the drivers of tropical forest patterns and processes, which are necessary for biological conservation. We investigated the variation in tree species composition across a vegetation gradient in the Subtropical Atlantic Forest, as well as various predictors that could impact such patterns. The exploratory and confirmatory analyses included 178 sampling units distributed among 13 different forest types containing binary occurrence records for 935 species from 25,546 trees.Confirmatory analyses were conducted considering spatial autocorrelation, a well-known factor responsible for type I error inflations. The floristic heterogeneity of the study area was revealed by clear patterns of floristic differentiation between vegetation types, as well as by the significant improvements in local models (GWR-geographically weighted regressions) over global models (OLS-ordinary least squares). We found that the observed floristic variation has most likely been driven by humidity from the Atlantic Ocean, low temperature extremes and geographic distance. The latter was revealed by the high contribution of spatial components to the partial models. These results from a shrinking biological hotspot, particularly those concerning the importance of temperature extremes, represent crucial data for identifying conservation priorities, especially considering the seriousness of the temperature shifts predicted by global climate change scenarios.

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“…The type of environmental variables showed that precipitation contributed the most to the distribution prediction, followed by temperature, and topographic contribution the least. Topographic variables may affect the distribution of plants over a smal-scale landscape, but on a large scale, they may be minimal, the reason could be that topographic variables exert their influences on plants indirectly (Vormisto et al, 2004;Nettesheim et al, 2014). The high habitat suitability areas have comparatively more precipitation and with less fluctuation in the driest quarter, but very low habitat suitability areas showed the opposite tendency.…”

Section: The Impact Of Chief Variables On Natural Distributionmentioning

confidence: 99%

Prediction of Suitable Habitat for Lycophytes and Ferns in Northeast China: A Case Study on Athyrium brevifrons

Cao

et al. 2019

Chin. Geogr. Sci.

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Suitable habitat is vital for the survival and restoration of a species. Understanding the suitable habitat range for lycophytes and ferns is prerequisite for effective species resource conservation and recovery efforts. In this study, we took Athyrium brevifrons as an example, predicted its suitable habitat using a Maxent model with 67 occurrence data and nine environmental variables in Northeast China. The area under the curve (AUC) value of independent test data, as well as the comparison with specimen county areal distribution of A. brevifrons exhibited excellent predictive performance. The type of environmental variables showed that precipitation contributed the most to the distribution prediction, followed by temperature and topography. Percentage contribution and permutation importance both indicated that precipitation of driest quarter (Bio17) was the key factor in determining the natural distribution of A. brevifrons, the reason could be proved by the fern gametophyte biology. The analysis of high habitat suitability areas also showed the habitat preference of A. brevifrons: comparatively more precipitation and less fluctuation in the driest quarter. Changbai Mountains, covering almost all the high and medium habitat suitability areas, provide the best ecological conditions for the survival of A. brevifrons, and should be considered as priority areas for protection and restoration of the wild resource. The potential habitat suitability distribution map could provide a reference for the sustainable development and utilisation of A. brevifrons resource, and Maxent modelling could be valuable for conservation management planning for lycophytes and ferns in Northeast China.

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Different slopes of a mountain can determine the structure of ferns and lycophytes communities in a tropical forest of Brazil

Cited by 18 publications

References 50 publications

Pteridophytes as ecological indicators: an overview

Pteridophytes as ecological indicators: an overview

Humidity, low temperature extremes, and space influence floristic variation across an insightful gradient in the Subtropical Atlantic Forest

Prediction of Suitable Habitat for Lycophytes and Ferns in Northeast China: A Case Study on Athyrium brevifrons

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