Search Results (7)

The relative influence of climate and Indigenous cultural burning on past forest composition in southern New England, US, remains debated. Employing varied analyses, this study compared data on Indigenous settlements from over 5000 years before present (YBP) with relative tree abundances estimated from pollen and land survey records. Results suggested that fire-tolerant vegetation, mainly oak (Quercus spp.), was more abundant near Indigenous settlements from 4955 to 205 YBP (i.e., 86–91% fire-tolerant trees), and significantly (p < 0.05) higher from 3205 to 205 YBP; fire-tolerant vegetation was less abundant away from settlements, where it also experienced greater fluctuations. Correlative models showed that warmer temperatures and distance to Indigenous settlement, which are both indicators of fire, were important predictors in the 17th–18th centuries of fire-tolerant tree abundance; soil variables were less important and their relationships with vegetation were unclear. A marked increase in oak abundance occurred above 8 °C mean annual temperature and within 16 km of major Indigenous settlements. Pyrophilic vegetation was most correlated with distance to Indigenous villages in areas with 7–9 °C mean annual temperature, typical of higher latitudes and elevations that usually supported northern hardwoods. Widespread burning in warmer areas potentially weakened relationships between distance and pyrophilic abundance. Indigenous land use imprinted upon warmer areas conducive to burning created patterns in fire-tolerant vegetation in southern New England, plausibly affecting most low-elevation areas. Results imply that restoration of fire-dependent species and of barrens, savannas, and woodlands of oak in southern New England benefit from cultural burning. Full article

Wildfire is a type of disturbance that plays a critical role in affecting forest ecosystems. Wildfires also have a significant effect on shaping arthropods communities. Carabids (family Carabidae) are often used as a bioindicator group of altered biocenoses. Methods: For carabid sampling, pitfall traps were used in three habitats, healthy-edge-burnt, fifteen days after the suppression of wildfire. Seven traps were evenly placed on each transect. In total, twenty-one traps were used for the study. Aim of the study: (i) evaluate the overall diversity of carabids, (ii) sex change and distribution within the studied habitats, (iii) dynamics of pyrophilous carabids. Results: In total, 1051 individuals within 42 species were recorded. The total number of species was higher in the edge and burnt habitats and differed from the healthy habitat. The abundance of carabids did not differ significantly across the three habitats. However, the healthy habitat exhibited both lower species numbers and abundance. Communities, species richness, and diversity indices were similar in the edge and burnt habitats, while the healthy habitat had lower species richness, diversity indices, and more homogenized communities. The overall sex ratio was nearly equal, with females comprising 519 individuals (49.4%) and males 532 individuals (50.6%), showing nonsignificant differences among study habitats. Among the nine most dominant species, a general trend of female dominance was observed. Many species showed different patterns in sex distribution in relation to the study habitats. Pyrophilous species accounted for the majority of individuals, comprising 55% of all carabids in the burnt habitat, predominantly represented by Pterostichus quadrifoveolatus. The rare species Sericoda quadripunctata was observed infrequently with only twenty-three individuals recorded. These two species are highly correlated, potentially indicating their near-habitat requirements. Males of pyrophilous species in general colonize the area in the earliest post-fire period. Conclusions: The immediate response of carabids to forest wildfire is significant, primarily influencing species richness and communities. While wildfire did not affect overall sex distribution, it shaped interspecies sex distribution across the study habitats. Full article

The identification of patterns and mechanisms of wildfire effects on biodiversity is of significant conservation importance. The research was conducted in a zone of mixed and broad-leaved forests. Carabid beetles were studied in eight sample plots that varied in relation to the 2010 and 2021 fires through 2022 and 2023. A total of 8667 specimens of 108 species of carabid beetles were counted. In 2022, plots were clearly differentiated by the pyrogenic disturbance in terms of the carabid species structure. As the pyrogenic disturbance increases, the total abundance of brachypterous as well as herbivore species decreases sharply. The carabids that were the most prevalent in an undisturbed forest (Carabus arcensis, Carabus glabratus, Pterostichus oblongopunctatus, and Amara brunnea) demonstrated sensitivity to the 2010 fire. The pyrophilous species Pterostichus quadrifoveolatus and Sericoda quadripunctata were attracted to a moderately burned area. Poecilus lepidus is confined to areas burned in 2010 and not affected by the 2021 fire. A moderately burned area was characterized by increased abundance and number of species. In 2023, the degree of similarity of carabid populations between sample plots did not generally increase, but only the 2010 fire was identified as a significant factor in population differentiation. The abundance of carabids decreased in a moderately burned area and an unburned area near the fire edge. The abundance and number of species increased markedly in heavily burned areas due to open habitat species, while the abundance of Carabus arcensis and Amara brunnea decreased in unburned areas. Forest megafires threaten the biodiversity of carabid beetles in pine and secondary forests. Full article

Forest fires represent a natural element in the dynamics of forest ecosystems. This study investigated the impact of a large-scale forest fire in 2022 (ca. 1300 ha) on epigeic ground beetles (Coleoptera: Carabidae). The research was conducted in coniferous forests at six pairwise study sites: burnt and unburnt dead spruce from bark beetles, burnt and unburnt clear cut, and burnt and unburnt healthy sites. Each site was replicated in four plots, with two pitfall traps deployed within each plot. In total, 48 pitfall traps (6 × 4 × 2) were installed in April 2023. It was tested how individual sites affected the similarity of ground beetle communities, whether they contained similar life guilds, and how significantly large-scale fire affects the abundance of pyrophilous ground beetles. A total of 5952 individuals and 63 species were recorded. We observed a significant decline in abundance at clear-cut and dead spruce burnt sites (73% and 77.5%, respectively) compared to the unburnt sites. Conversely, abundance increased by 88% at the burnt healthy site compared to the unburnt healthy site. Additionally, significant differences in the number of species per trap and species richness diversity (q = 0, q = 1, q = 2) were found only between burnt and unburnt healthy sites. In general, the highest species richness in the comparison of all study sites was at unburnt clear-cut and burnt healthy sites. Communities of ground beetles responded considerably to the fire, differing significantly from unburnt sites, and demonstrating a high degree of similarity. The original healthy spruce stands had highly homogeneous communities. On the contrary, any disturbance (bark beetle calamity, clear-cut) resulted in an increase in the alpha, beta, and gamma diversities of the ground beetle communities. Burnt sites attracted pyrophilous species (Sericoda quadripunctata, Pterostichus quadrifoveolatus) at very low abundances, with the highest activity in the second half of the season. In conclusion, ground beetles demonstrated a strong short-term response to large-scale fire, forming specific communities. However, pyrophilous ground beetles were unable to occupy a large-scale fire area due to the initial low abundance. Understanding post-fire processes can provide important guidance for management in areas designated for biodiversity enhancement. Full article

Fire is an important disturbance factor in shrublands, grasslands, and savannas. It alters the habitat of a multitude of species and, under natural dynamics, is a major determinant of landscape vegetation patterns. Here, we evaluate the effects of different wildfire regimes on the abundance of sun spiders in the Cerrado-Pantanal ecotone. To study how different fire regimes affect the number of individual sun spiders, we considered the frequency of fire occurrences in the last 20 years and classified locations as high frequency or low frequency. We also classified the time of the last fire in 2020 as occurring in the first or second half of the year. In addition, we compared the number of individual sun spiders before and after fire. We found no effects of fire frequency and period when the fire occurred in 2020, but the number of individual sun spiders was higher after wildfires. Although ground-dwelling are considered fire sensitive, some can employ strategies to tolerate fire so that they are able to not only survive, but also reproduce in fire-prone landscapes. Thus, we suggest that sun spiders are resilient, can explore sites under different fire regimes, and can be considered pyrophilous species. Full article

The recurrent rural fires that occur annually in Portugal have reached great proportions due to a lack of effective landscape management. Attempts to solve this problem led to the legal imposition to cut back the vegetation in the fuel management areas, which has had a negative effect on biodiversity. National legislation protects three native plant species (Quercus suber, Q. rotundifolia and Ilex aquifolium). European legislation, through the Habitats Directive, also identifies some plant species that require strict protection, although it leaves out several endemic and rare plants. In this work we aim to differentiate the types of shrub plant material and their pyrophilic behavior, since the physical and chemical characteristics of vegetation can enhance or inhibit the progression of fire. Thus, based on phytosociological science, specifically at the class level, the dynamics of potential climatophilous vegetation in Portugal are presented and the classes that should be prioritized for control are identified. Based on ecology, it was possible to identify morphological patterns of vegetation. In short, the genera targeted for control under the National Forest Fire Protection Plan belong to the furthest states from the mature potential of a forest, generally consisting of heliophile shrubs and typically growing in degraded soils. The shrub species to be valued belong to dynamic states closer to the mature potential, consisting mainly of broad-leaved shrubs and those growing in better-preserved soils. Full article

The genus Stromatoneurospora was erected in 1973 by Jong and Davis to accommodate the pyrophilic pyrenomycete Sphaeria phoenix and has traditionally been placed in the family Xylariaceae based on morphological features. However, no living culture of this genus has so far been available in the public domain. Molecular data were restricted to an internal transcribed spacer (ITS) sequence that only confirmed the familial position, and was generated from a strain that is not deposited in a public culture collection. We have recently collected fresh material and were able to culture this fungus from Thailand. The secondary metabolites of this strains were analysed after fermentation in multiple media. The the prominent components of these fermentation were purified, using preparative chromatography. Aside from two new eremophilane sesquiterpenoids named phoenixilanes A–B (1–2), four other components that are known from species of the xylariaceous genera Xylaria and Poronia were identified by spectral methods (nuclear magnetic resonance spectroscopy and high resolution mass spectrometry). Notably, (−)-(R)-6-hydroxy-3-methyl-4-dihydroisocoumarin-5-carboxylic acid (6) has not been reported as a natural product before. Moreover, DNA sequences of Stromatoneurospora phoenix clustered with members of the genera Poronia and Podosordaria in a multi-locus molecular phylogeny. These results confirmed that the genus belongs to the same evolutionary lineage as the coprophilic Xylariaceae. The results also suggest that this lineage has evolved independently from the plant-inhabiting saprotrophs and endophytes that are closely related to the genus Xylaria. These findings are discussed in relation to some theories about the endophytic vs. the pyrophilic/coprophilic fungal life style. Full article