Lichen Diversity Research Articles

A systematic study of some lichenized fungi from Pakistan using nrITS marker

In a detailed investigation of lichen diversity in different regions of Pakistan, utilizing molecular and morphological techniques, we identified and reported three species – Dimelaena altissima, Lecanora chlarotera, and Usnea lapponica – as new records for Pakistan. Furthermore, nrITS sequences for Evernia prunastri, Lecanora horiza, L. hybocarpa, Peltigera polydactylon, and P. praetextata were generated for the first time from Pakistan. Detailed morpho-anatomical descriptions, habitat information, distribution data, and results of biochemical analyses are also provided for a better understanding of the lichen diversity and ecology in this region.

Analysis of the Diversity of Corticolous Lichens Associated with Tree Trunks in the Understories of Four Tropical Dry Forests of the Atlántico Department in Colombia

Tropical dry forests (TDFs) are unique ecosystems with high biodiversity, including a rich variety of lichen species. Lichens are sensitive to environmental changes and can serve as bioindicators of ecosystem health. This study examined the diversity of lichen communities at four TDF sites in the Atlántico Department of Colombia. More than 700 tree lichen specimens were collected and identified at the four sites. A total of 135 species of lichens were identified, of which 19 are possibly undescribed. The most diverse sites were Usiacurí and Repelón, both protected areas with relatively well-preserved forests. The findings of this study demonstrate that the Atlántico TDFs host a large diversity of lichens, with a significant number of records of new species. The observed differences in species composition between sites highlight the importance of habitat heterogeneity and anthropogenic pressures on lichen communities. The results emphasize the need for conservation strategies to protect these ecologically valuable lichen communities within the Atlántico TDFs.

Understory vegetation diversity and composition in intensively managed plantations compared to extensively managed forests

The benefits of plantations for wood production are well known, but it is unclear whether they have a clear negative effect on biodiversity, compared to natural forests. It is also unclear how overstory species identity (i.e., exotic, compared to native) would interact with the simple plantation effects on understory vegetation biodiversity. Here, we assessed bryophyte, lichen, and vascular plant diversity and composition in mono-specific and mixed plantations of exotic and native hybrid poplars (Populus spp.) and exotic and native spruces (Picea spp.). We compared these plantations to reference forests with similar overstory types (coniferous, deciduous, mixed) to those of the plantations in the southern boreal forest of Quebec. We also assessed whether the overstory species identity in plantations influenced understory vegetation biodiversity compared to reference forests. Our results show that plantations were not biological deserts, since mixed plantations contained similar bryophyte and vascular plant diversity as reference mixed native forests. The presence of native spruces and exotic poplars in mixed plantations increased bryophyte and vascular plant diversity respectively. This suggests that the influence of plantations on understory species diversity, compared to reference forests, was linked to the overstory species identity. Plantations were associated with ruderal plant species, while reference forests were composed of forest species. Bryophyte composition was similar in plantations and reference forests, while lichen species were only present in plantations. Our findings highlight that plantations, especially mixtures of white spruce and exotic poplar, are a promising option for planting strategies to enhance biodiversity.

Cliffs support lichen communities unique from nearby forests

Cliffs support rare, endemic, and glacial relict vegetation that may differ from vegetation in surrounding forests. Yet, cliffs are difficult to sample, and rock-dwelling lichens can be challenging to identify; therefore, cliff lichens are often excluded from biodiversity studies. This omission creates fundamental gaps in our understanding of cliff lichens that lead to underestimation of overall community diversity. This study addresses one such gap by asking a basic question: do lichen communities on cliffs differ from rock-dwelling lichen communities in forests? To answer this question, we compared lichen communities from three cliffs in the Linville Gorge (North Carolina, USA; 369 m2 of cliff face surveyed) to rock and soil-dwelling lichen communities in forested plots across the same region (Southern Appalachian Mountains, USA, Alabama to North Carolina; 198 1-hectare forested plots). Forest plots were further divided into three groups based on elevation, proximity to Linville Gorge cliffs, and location within the state of North Carolina. A total of 225 rock or soil-dwelling lichen species were found in forest plots throughout the study area, while 104 species were found on cliffs. Two rare cliff-specialist species, Canoparmelia alabamensis, and Chrysothrix susquehannensis, were locally abundant on the studied cliffs but absent from surrounding forests. Our results show that cliffs support 20% of regional rock-dwelling lichen diversity, and that these cliff communities are distinct from those in forests. The high diversity, occurrence of unique species, and presence of rare lichens on cliffs indicate that cliff lichens should be included in biodiversity inventories and stewardship plans. To support this inclusion, we provide the first checklist for the lichens of Linville Gorge. Checklists like this one, including both cliff and non-cliff lichens, provide data on regional diversity and rarity that inform lichen conservation and rock climbing management.

Лихенобиота заказника «Лисинский» (Ленинградская область)

The revealed lichen diversity of the Lisinsky Protected Area counts 296 species, including 262 lichens, 20 lichenicolous fungi, and 14 non-lichenized saprobic fungi. The species Normandina chlorococca is reported for the first time for Russia, Gyalidea minuta, Lecanora substerilis, Lecidea betulicola, Vezdaea stipitata are new to the North-Western European Russia, and Fellhanera bouteillei is new to the Leningrad Region. The territory is represented by a significant diversity of lichens and related fungi, including 28 protected species, indicator species and habitat specialists of biologically valuable forests. The communities formed by old-growth spruces and aspens are of greatest value for the conservation of lichen biota, as far as in such biotopes the species associated with biologically valuable forests are most often found in complexes.

Vertical Distribution of Epiphytic Lichens on Quercus robur in Görükle Campus Area of Bursa Uludag University (Bursa, Türkiye)

In this study, the vertical change of epiphytic lichen species on Quercus robur was examined in Johansson zones based on frequency and cover values. A total of 20 epiphytic lichen species were determined. Total frequency and cover values of epiphytic lichen species show significant changes in Johansson regions. Beta diversity and Shannon diversity index values shows significant change with Johansson zone pairs. There is a significant difference in epiphytic lichen diversity between the Z1Z2 zone pair corresponding to the base and middle part of trunk on trees, and the Z4Z5 zone pair corresponding to the branches. Athallia pyracea, Catillaria nigroclavata, Physcia adscendens and Rinodina pyrina were positively correlated with Johansson zones, while Phaeophyscia orbicularis was negatively correlated with Johansson zones. A. pyracea is an indicator species especially for thin branches (Z5). P. adscendens is an indicator for Z4 and Ph. orbicularis is for the trunk part of the tree (Z1, Z2 and Z3).

Assessing ecosystem resilience: effects of different environments on native flora, lichens and bee pollen in a mid-sized Brazilian city

Abstract The alteration of the natural environment by human activities has increased in recent decades, with a significant impact on the organisms that inhabit it. One of the most apparent consequences of environmental alterations is the occurrence of climatic changes. The city of Joinville is situated in the southern region of Brazil. It has achieved a notable position at the national level, largely due to the significant presence of large-scale industrial operations in the metal-mechanical, plastic, and textile sectors. This study aimed to assess the effects of urban environments on Nectandra oppositifolia plants and lichen communities using a passive biomonitoring approach, and on Tetragonisca angustula stingless bees using an active biomonitoring approach. This study demonstrated a pronounced effect of anthropogenic activities on plant anatomy and morphology (higher leaf area, fresh mass, dry mass, and water content in the urban-industrial site), with higher metal concentrations in leaf particulate matter (3.14 ± 0.4 μg cm−2). The diversity of lichens was the lowest, whereas that of crustose lichens was the highest in industrial-urban and residential-rural sites (industrial-urban site = 13 species, residential-rural site = 29 species, control site = 33 species, p < 0.05). The distribution of species within the lichen communities was inversely correlated with the degree of anthropogenic influence. Some lichen species were found exclusively in the control areas, suggesting that they may indicate good environmental quality (Arthonia sp., Astrothelium sp., Phyllopsora pyxinoides, Phyllopsis sp., and others). Beehive pollen analysis revealed the presence of Zn, Cr, Ni, Cu, and Pb, and industrial-urban site exhibited higher metal concentrations (particularly, Ni, 12.59 ± 0.9, and Cr, 3.76 ± 1.00, mg kg−1). This approach highlights the environmental repercussions that affect the Plantae, Fungi, and Animalia kingdoms. The use of biomonitoring as a robust tool in good environmental quality assessment provides insight into policy decisions and underscores the importance of pollution studies.

On the Conservation of the Canarian Laurel Forest: What Do Lichens Have to Say?

The fragmentation and degradation of primary forests are serious threats to the long-term persistence not only of the tree species they comprise, but also of many organisms inhabiting them. The Canarian laurel forest, known as monteverde, is a highly threatened endemic forest of the Macaronesian region. Lichens are considered ideal bioindicators for assessing the effects of human disturbances on ecosystems and anticipating the response of other less sensitive organisms. However, no studies have used them as model organisms to analyze the conservation status of this primary forest in the Macaronesian region. In the present study, we analyzed several variables of the lichen biota of the Canarian laurel forest on the islands with the highest representation within this archipelago: La Gomera, La Palma, and Tenerife. We analyzed the species richness (and its relationship to island size with the real and potential vegetation areas of the laurel forest); the lichen diversity value, the number of shared and exclusive species on each of the islands as well as lichen functional traits as they have become important for evaluating the response of epiphytic lichens to environmental changes. The results indicate that there are signs of a potential extinction debt occurring in the diversity of epiphytic lichens in some areas. Furthermore, it has been observed that, despite the presence of some exclusive species on each island, the overall composition does not differ between them. Considering the functional traits of lichens, there are patterns that can provide information about the unique characteristics of the laurel forest of each of the studied islands.

What do we know about biocrust lichens in Argentina? A comprehensive review and new records

Lichens are among the most distinctive and colorful organisms found in biological soil crusts (biocrusts). Along with cyanobacteria, green algae, and bryophytes, they inhabit the top few millimeters of the soil surface, forming the living skin of the soil. They cover large areas of the planet's arid and semiarid regions, as well as degraded terrestrial ecosystems in other regions. Although global studies of biocrusts have tripled in the last two decades, South America remains one of the least studied continents. In Argentina, ecological studies of biocrusts are increasing, but knowledge of the taxonomic diversity of the lichens that comprise them remains limited. Therefore, it is crucial to increase studies on terrestrial lichens, which, although often inconspicuous, may be more abundant than previously thought. To contribute to the knowledge of biocrust lichens taxonomy in Argentina, we proposed to 1) perform a bibliographic review of the works that reported species lists to confirm and update the taxonomic nomenclature and distribution, and 2) expand knowledge in less studied regions through the study of specimens from central Argentina. The results reveal that between 2002 and 2022, 78 crust-forming lichen species were recorded in Argentina. The richest family was Verrucariaceae, along with Collemataceae, Peltulaceae, and Lichinaceae distributed in the northern, western, and central-southern regions of the country, mainly in the arid and semiarid areas of Mendoza, San Juan, Neuquén, and San Luis. The most common lichen species found in the crusts were Placidium squamulosum, Endocarpon pusillum, Enchylium tenax, Peltula obscurans, and Psora decipiens, in descending order. We have expanded this lichen diversity with three new species records for Argentina: Gloeoheppia erosa, Heppia adglutinata, and Heteroplacidium divisum, as well as the distribution of Enchylium coccophorum, Peltula obscurans, Placidium squamulosum, and Psora icterica in the central region of the country. In this way, we hope that this study can serve as a starting point for future research on lichen composition in soil crusts.

Understanding physiological, elemental distribution and bioaccumulation responses of crustose and foliose lichens in the vicinity of coal-based thermal power plant, Raebareli, Uttar Pradesh, India

Environmental pollution, especially from coal-based thermal power plants, poses significant risks to human respiratory health and the environment. This study evaluates the diversity of lichens in the areas. Physiological and bioaccumulation responses of two crustose lichens (Bacidia incongruens and Rindoina sophodes) and one foliose lichen (Pyxine cocoes) in the vicinity of the Feroz Gandhi Unchahar National Thermal Power Corporation, Raebareli, Uttar Pradesh, India were also assessed. These lichens, exposed to emissions including fly ash, greenhouse gases, metals, and particulate matter were analyzed for metal accumulation and physiological responses. Changes in physiological parameters and metal profiles concerning distance from the coal-based thermal power plant to the outskirts were analyzed for B. incongruens, R. sophodes and P. cocoes by utilizing Inductively Coupled Plasma Mass Spectrometry (ICP-MS). The study identified 18 lichen species from 12 genera and 10 families in the area, with Pyxine sorediata newly recorded in Uttar Pradesh. The dominant species, B. incongruens, P. cocoes, and R. sophodes, preferred substrates like Mangifera indica, Acacia nilotica, and Azadirachta indica bark. Physiological analyses revealed variations in pigment concentrations, with significant differences in chlorophyll a, chlorophyll b, total chlorophyll, carotenoids, and chlorophyll degradation, while protein content remained stable. Metal accumulation studies showed nine metals with distinct patterns, B. incongruens had higher concentrations in the west (52730.61 µg g-1) and P. cocoes in the east (23628.32 µg g-1). Correlation analyses indicated significant relationships between paired elements, suggesting specific sources of environmental contamination. This research highlights the significance of integrating physiological and environmental factors to understand lichen responses to coal based thermal power plant.

Retention forestry can maintain epiphytic lichens on living pine trees, but provides impoverished habitat for deadwood‐associated lichens

Abstract Managing forests for timber yields reduces the amounts of old trees and deadwood, which has profound effects on species that are dependent on them. Retention forestry, where some trees are permanently left unharvested on clear‐cut sites, may enable the formation of deadwood and old trees in managed forests, but it is unresolved how well these practices facilitate the occurrence of species in managed forests, especially in the long term. We studied the capacity of tree retention practices to support the diversity of epiphytic lichens, a key group among threatened forest species. We compared lichen assemblages on retained trees in harvested sites to those on trees in unharvested control sites. The data were collected 21‐year post‐harvest and included living trees, snags (standing dead trees) and logs (fallen trees) of Pinus sylvestris (Scots pine). Living trees, snags and logs each hosted distinct lichen communities. The highest lichen diversity was found on snags. On living trees, species richness was similar in harvested and unharvested sites, but there was slight species turnover. In contrast, deadwood in unharvested sites hosted higher species richness and distinct species assemblages compared to deadwood in harvested sites. These differences were most pronounced on snags. Specifically, unharvested sites contained high‐longevity snags (kelo trees), which hosted unique lichen communities with higher lichen richness than any other studied substrate, including the highest numbers of red‐listed and deadwood‐dependent species. Synthesis and applications. Retention forestry can support lichen assemblages associated with living Pinus sylvestris. However, maintaining deadwood‐associated lichen diversity through retention practices entails significant challenges. Deadwood‐associated lichen diversity relies on high‐longevity snags and is not sustained by the habitats provided in retention forestry. Biodiversity maintenance in forest management requires comprehensive provision of the habitat features of unmanaged forests, such as a qualitatively representative deadwood profile, which can prove difficult.

Assessment of Lichen Diversity in a Part of Madhyamaheshwar Valley of Garhwal Himalaya, Uttarakhand, India

A comprehensive survey was carried out to evaluate the distribution pattern and diversity of lichens in the Madhyamaheshwar valley, Rudraprayag district, Uttarakhand. According to the data gathered, there are 60 species total, divided into 21 families and 33 genera. The extensive diversity of lichen growth types in the region is demonstrated by the presence of 25 species of crustose lichen, followed by 19 foliose and 16 fruticose. The data gathered from the survey indicates that the Parmeliaceae family, with 8 genera and 12 species, is the most prevalent family in the area, followed by the Cladoniaceae family, which has 1 genera and 8 species. The enumeration of lichens from Madhyamaheshwar valley survey reveals that as the altitude increases the number of lichen species also increases. More taxa will undoubtedly be added to the lichen flora of this valley by conducting a thorough study of lichen species in the surrounding areas. Future biomonitoring and bioprospecting studies in the area will be supported by the baseline data provided by the current lichen count.

Can lichens be indicators for air pollution monitoring in Kandy City, Sri Lanka?

The quality of the surrounding environment significantly impacts lichen diversity and composition, but crustose lichens, particularly those in disturbed environments, can persist. Although the effects of habitat disturbances on the morphology, anatomy, chemical composition, and fertility of lichen species have not been extensively researched, understanding their mechanisms is crucial for understanding their persistence in their environment. The study aimed to identify common lichen species in polluted and semi-polluted environments and compare their morphology, anatomy, chemical composition, and fertility. A two-kilometer stretch along the road that passes through the University of Peradeniya was selected as the semi-disturbed site based on previous records, while the area around Kandy Lake was designated as the polluted site. Using conventional keys, lichen species were identified, and using a hand lens, dissecting microscope, and compound microscope, the morphological traits of the thallus, apothecia, soredia, and isidia, as well as the anatomical features of the thallus, apothecia, and ascospores, were compared between the two sites. Thin-layer chromatography was used to separate and elucidate the secondary metabolites of lichen. Thirty-nine species were discovered on the university site, 15 in the area around Kandy Lake, and species gathered from both locations shared commonalities, including Physcia sp., Parmotrema sp., Lecanora sp., Graphis sp., and Lepraria sp. The color difference between all species, as measured by mean dE, is visible to the naked eye and changes from a pale to a dark hue from a semi-disturbed site to a polluted one. In comparison to disturbed sites, the majority of species displayed an increased mean area in semi-polluted sites. Layer thickness increases or decreases depending on how well each layer can withstand disruptions. Depsinose has been recognized as a potential class of metabolites generated by lichens present in both locations. Only lake sites exhibit toxic metal compounds, as opposed to semi-disturbed sites. Every pH value was acidic, and most species at the lake site had more acidic pH than those at the university site. There is no specific trend in apothecial number and ascospore numbers in common lichen species in both sites. The current study showed that changes in certain morphological and anatomical biochemical characteristics can be triggered by the environment, suggesting that the quality of the environment significantly affects the growth and reproductive success of lichens, thereby survival or extinction, and proposed that bioindicator and bioaccumulator species concerning the changes occurred.

Investigation of Factors Controlling Temporal Trend of Lichen Diversity in Arid Region of India

Investigation of Factors Controlling Temporal Trend of Lichen Diversity in Arid Region of India

Fires in the face of climate change: Indicators of fire disturbance in heath areas – Inference from military training lands

Global warming significantly affects the frequency and intensity of wildfires in many fire-prone areas of the world and fire disturbance regimes are changing rapidly. Alongside this, controlled burning is often considered or implemented as an alternative method for nature protection. Here, we studied the post-fire secondary succession in dry heath habitat located in military training grounds to recognise the impact of fire on the effectiveness and rate of ecosystem recovery. We focus particularly on identifying indicator species for a given successional phase of Central European dry heath habitats and assessing their value for dating the last fire disturbance. The research involved 60 vegetation patches (plots of 25 m2), which were assigned to four post-fire age classes, namely: 1–5 years (Class A), 6–10 years (Class B), 11–15 years (Class C), and >15 years (Class D). In each study plot, species diversity and coverage of lichens, bryophytes and vascular plants were examined in addition to the physicochemical properties of the soil substrate. Cryptogams and vascular plants clearly differ in terms of the secondary succession pattern; specific sets of cryptogams correspond well to particular post-fire classes and are therefore good determinants of the post-fire succession stage. Spontaneous succession of plant vegetation eventually leads to complete recovery of the heath in a relatively short time. Nevertheless, great vegetation dynamics in the first years after a fire disturbance may result in seemingly different directions of succession. Post-fire classes did not differ noticeably in terms of soil properties, it follows that the effects of fire on soil conditions are negligible; though, a significant upward trend was observed for exchangeable form of K throughout the succession process. Our results indicate that sporadic fires reduce the undesirable overgrowth of heathlands or psamophilous grasslands and generally have a little negative side-effect on the ecosystem. The revealed succession patterns and defined sets of species characteristic for subsequent post-fire age classes are applicable to dating fire disturbances, regardless of whether the fire was planned or spontaneous.

Heavy metals accumulation in lichens Parmeliaceae and mahogany bark as an indicator of air and pollution levels in several locations in Bandung City

Background: Lichens and tree bark are well-known biomonitoring tools for accumulating pollutants in their tissues over an extended period. Objective: This study aims to determine the concentration of heavy metals accumulated in lichens and tree bark across various locations in Bandung City, analyze the impact of heavy metal accumulation on lichen diversity, and assess the lichen cover area on tree bark. Methods: Lichen and bark samples were collected from mahogany trees using plotless sampling at a height of 100 cm, employing a quadrat size of 20x32 cm² above the ground. A total of 25 sampling stations were distributed across five locations in Bandung City, including city parks, an urban forest park, and a bus station. The samples were analyzed using Atomic Absorption Spectrophotometry (AAS) to measure the concentration of heavy metals. Results: The results revealed that lichens and bark from Persib City Park (PCP) contained the highest concentration of chromium (Cr), with 17.08 μg/kg in lichens and 30.03 μg/kg in the bark, as well as lead (Pb), with 24.38 μg/kg in lichens and 15.49 μg/kg in the bark. Conversely, lichens and bark from Djuanda Forest Park (DFP) exhibited the lowest concentration of chromium (3.74 μg/kg in lichens and 3.56 μg/kg in the bark) and lead (3.74 μg/kg in lichens and 2.06 μg/kg in the bark). PCA analysis indicated that the accumulation of heavy metals in lichens and bark was associated with environmental factors, such as traffic density and bark pH. Conclusion: The accumulation of heavy metals in lichens and bark exhibited a negative correlation with lichen diversity and the area of lichen cover on the bark.

«Lace Miracle», lichens as an indicator of the ecological situation using the example of Turkey Creek, Florida

In this article, we took a walk-exploration of a piece of paradise called Turkey Creek in the center of Florida. Enjoying the spring period of the awakening of nature, accompanied by a multitude of birds and other unique sounds of the inhabitants of Turkey Creek, we paid special attention to the diversity of lichens, which, as bioindicators, react and reflect the state and quality of the environment. Lichens are very sensitive to air pollution and die when there is a high content of carbon monoxide, sulfur compounds, nitrogen and fluorine. The degree of sensitivity varies among species, so they can be used as living indicators of environmental cleanliness. Based on the composition of lichens, the concentration of various pollutants in the air can be quantified using developed scales and formulas. Lichens are a unique group of lower plants. Lichens combine two organisms with opposite properties: an alga (usually green), which creates organic matter through the process of photosynthesis, and a fungus that consumes this substance. Lichens are characterized by fairly high tolerance to climatic factors and sensitivity to environmental pollutants and are widely used as environmental indicators. Lichens contain many macro- and microelements, organic acids, hormones and enzymes. Vitamins are produced by lichens in very small quantities. Lichens produce specific substances that are not found in other organisms (lichen starch, lichen acids, etc.). Lichens have the ability to extract various elements from the environment and accumulate in their thallus. The number of currently known lichen substances exceeds 250, of which 75 are found only in lichens. Lichens are indicators of the environmental situation. Our goal is to find out whether recreational load affects the state of the environment in people’s recreation areas. We carried out our study of the state of the environment in the state of Florida in the Turkey Creek natural park. This territory was chosen because the natural complexes of the area are characterized by high environment-forming, environmental, and recreational significance. In the last decade, the anthropogenic load on ecosystems associated with the recreational use of the territory has been increasing. It is worth familiarizing yourself with the types of lichens that were seen in the study area.

Time-lag effects of habitat loss, but not fragmentation, on deadwood-dwelling lichens

ContextLandscape habitat amount is known to increase biodiversity, while the effects of habitat fragmentation are still debated. It has been suggested that negative fragmentation effects may occur with a time lag, which could explain inconsistent results. However, there is so far no empirical support for this idea.ObjectivesWe evaluated whether habitat amount and fragmentation at the landscape scale affect the species density of deadwood-dwelling lichens, and whether these effects occur with a time lag.MethodsWe surveyed deadwood-dwelling lichens in woodland key habitats in two regions in northern Sweden, and modelled their species density as a function of past (1960s) and present (2010s) habitat amount (old forest area) and fragmentation (edge density) in the surrounding landscapes.ResultsPresent habitat amount generally had weak positive effects on lichen species density. Positive effects of the past habitat amount were stronger, indicating a time lag in habitat amount effects. Habitat fragmentation effects were generally weak and similar whether fragmentation was measured in the past or the present landscapes, indicating no time lag in fragmentation effects.ConclusionsWe found a time lag effect of habitat amount, but not fragmentation. This result is not consistent with suggestions that time lags explain the mixed observations of fragmentation effects. Time-lag effects of habitat amount suggest that the studied lichen communities face an extinction debt. Conservation should therefore prioritize increasing the amount of old forest, for example by creating forest reserves, to maintain the current lichen diversity. More generally, our results imply that studies examining only the present habitat amount risk under-estimating its importance.

Aerial eDNA contributes vital information for fungal biodiversity assessment

Abstract Fungal diversity drives key processes in terrestrial ecosystems, but remains challenging to measure in the field and to monitor over time. In particular, we lack methods capable of describing both the regional biotas and fungal related conservation values, such as habitats for rare and threatened fungi. Environmental DNA (eDNA) could serve this purpose, once its validity to capture fungal assemblage properties is established. Using three approaches (full‐season eDNA sampling from air, snapshot visual surveys, and eDNA sampling from dead wood), we present the first comparative assessment of fungal diversity at forest stand scale. The focus was on two well‐known fungal groups (lichens and wood inhabiting basidiomycetes) in old hemiboreal forests. Aerial eDNA revealed regional‐scale cryptic diversity not detected in visual surveys, particularly among lichens and including species of conservation concern. However, at the local population scale, both aerial eDNA and eDNA sampled from dead wood often missed visually detected species. In particular, eDNA sampled from dead wood performed only as a supplementary source of species data. The methods differed in detecting the spatial covariance of wood fungal and lichen diversity, with the combined (most complete) dataset indicating the strongest congruence. Synthesis and applications. Neither eDNA approaches nor visual surveys were able to detect full diversity of local fungi and all species of specific conservation value. However, there is clear merit in combined use of these methods, particularly in pairing aerial eDNA with visual observation‐based surveys on selected taxon groups. This approach can be especially valuable in fungal groups that have challenging taxonomy, inhabit partly inaccessible microhabitats, or have overall high diversity (such as lichens).

Lichen diversity and taxonomy in Bukit Barisan Grand Forest Park, North Sumatra, Indonesia

Abstract. Atni OK, Munir E, Siregar ES, Saleh MN. 2024. Lichen diversity and taxonomy in Bukit Barisan Grand Forest Park, North Sumatra, Indonesia. Biodiversitas 25: 1623-1630. Located in Bandar Baru Village, Deli Serdang District, North Sumatra, Bukit Barisan Grand Forest Park stands out for its uniqueness and high biodiversity, including lichens. This study aims to identify and map lichen diversity in the research area. Surveys were conducted from January to February 2024 using an exploratory method along designated tracks. Therefore, 57 lichen species from 23 families and 38 genera were found. Based on their thallus types, 26 lichen species were identified as crustose, 17 as foliose, 6 as squamulose, 5 as fruticose, and 3 as filamentous. Reproductive structures varied, 13 species possessed apothecia, soredia, and lacked distinguishable reproductive structures, 10 had lirellae, 7 had perithecia, and 2 had isidia. Graphidaceae emerged as the most prevalent family with 8 species, predominantly growing on bark substrates. Although lichen distribution correlated with pH levels, its correlation with the preference for lower pH levels was low. Host trees from the Pinaceae and Lauraceae families were the most populated by lichens in this study. Research on lichen diversity in Bukit Barisan Grand Forest Park is crucial, considering the increasing development and deforestation in North Sumatra. A more comprehensive study of lichens is urgently required.