Search Results (567)

Ungernia victoris and U. sewerzowii (Amaryllidaceae J.St.-Hil.) are rare medicinal species of Central Asia known as sources of biologically active alkaloids, including galantamine. In this study, antioxidant activity was comparatively evaluated across different types of plant material, including natural populations, botanical garden specimens, in vitro regenerants, callus cultures, in vitro obtained bulbs, and seeds. Micropropagation systems based on direct and indirect organogenesis were developed using Murasige and Skoog and Vollosovich et al. media with various plant growth regulator combinations. Antioxidant activity was determined with the use of DPPH and ABTS assays and expressed as IC₅₀ values. Significant variability was observed depending on population origin, type of biological material, and in vitro cultivation conditions. U. sewerzowii demonstrated higher antioxidant activity than U. victoris in natural populations. The highest activity was recorded in callus cultures, whereas in vitro-derived bulbs showed relatively low activity. A strong positive correlation between DPPH and ABTS assays confirmed the reliability of the results and indicated the contribution of multiple types of secondary metabolites. These findings highlight the potential of Ungernia callus cultures as a promising biotechnological platform for the production of antioxidant-active compounds and support sustainable utilization strategies. Full article

Extreme rainfall can rapidly alter hydrological connectivity in managed urban aquatic systems, yet its association with microbial community reassembly remains insufficiently understood. In 2025, Beijing experienced an anomalous rainy season with extreme rainfall, providing a single-year natural opportunity to examine bacterial and fungal communities across a dry–rainy–dry hydrological sequence in a managed river–pool system at the China National Botanical Garden (Northern Garden). Using 16S rRNA gene and ITS amplicon sequencing, we analyzed in situ water samples together with rainfall and runoff inflow samples representing atmospheric and catchment-derived external inputs. Bacterial alpha diversity increased during the mid-rainy phase influenced by extreme rainfall, whereas fungal alpha diversity remained comparatively stable despite compositional turnover. Genus-level profiles revealed distinct event-based source signatures—rainfall samples were characterized by Acinetobacter and Massilia, whereas runoff inflow samples were enriched in Arcobacter, Segatella, and Plectosphaerella. Null model analysis indicated that microbial assembly was dominated by stochastic processes, with bacterial communities mainly associated with drift-related undominated processes and fungal communities showing stronger dispersal limitation. Co-occurrence networks suggested rainfall-associated expansion of bacterial associations and persistently modular fungal networks. These findings suggest that extreme-rainfall-induced hydrological pulses are associated with divergent bacterial and fungal reassembly pathways in managed urban aquatic systems. Full article

Botanical gardens are multifunctional institutions that perform a wide range of functions using limited resources. Their social significance has grown alongside global challenges like biodiversity loss, the climate crisis, and food security, as well as the need to train future professionals. This study analyzes public preferences for the diverse functions of botanical gardens to inform sustainable management strategies, using the Sejong National Arboretum in South Korea as a case study. We identified seven attributes, including five traditional functions (collection, conservation, research, exhibition, and education) and two extended functions (healing and networking) that reflect the contemporary roles of botanical gardens. We conducted a discrete choice experiment in 2024 with 1200 respondents to assess preferences and marginal willingness to pay. Respondents showed the strongest preferences for research commercialization and global conservation, followed by urban outreach in healing. In contrast, we observed negative marginal willingness to pay values for exhibition, professional certification, national networking, and nationwide outreach in healing. Our findings indicate that the public interest in botanical garden activities extends beyond visitor-oriented functions to include conservation, research commercialization, and locally embedded healing services. These results offer an empirical basis for resource allocation and sustainable management strategies in botanical gardens. Full article

Despite being strongly recovered as monophyletic by molecular studies, Commelinales completely lacks any morphological support or circumscription. It is also the Monocot order that suffered the most striking changes across different classification systems, with its type family, Commelinaceae, being the only consistent member since its proposition. The order currently consists of Commelinaceae, Haemodoraceae, Hanguanaceae, Philydraceae and Pontederiaceae, presenting a Pantropical distribution and great ecological and morphological diversity. Based on extensive field, cultivation, ecological, herbarium, botanical illustration and literature research, I present the first morphological phylogeny for Commelinales, based on an extensive 600-character matrix, sampling almost a third of the species in the order. All five families are recovered as monophyletic, with 49 of the 59 currently recognised genera also recovered as monophyletic. The M P and BA topologies are greatly congruent with the available molecular hypotheses for Commelinales, highlighting the importance of morphology in understanding the systematics of plant groups. Almost all genera are morphologically supported by at least one exclusive synapomorphy. Thus, based on a combination of morphological and molecular data, Aneilema, Callisia, Coleotrype, Elasis, Thyrsanthemum, Tricarpelema and Tripogandra (Commelinaceae) are recircumscribed to represent monophyletic genera. Five new genera of Commelinaceae are described, in addition to the reestablishment of Aploleia, Cuthbertia, Gibasoides and Hadrodemas (Commelinaceae), and Orthotylax (Philydraceae). The circumscription of Anigozanthos (Haemodoraceae) is broadened to include Macropidia, Conostylis (Haemodoraceae) is broadened to include Blancoa, and Wachendorfia (Haemodoraceae) is broadened to include Barberetta. Finally, I propose an updated classification for Commelinales, recognising two suborders, one superfamily, five families, four subfamilies, 10 tribes, 13 subtribes (four of them newly described here), and 64 genera (five of them newly described here). Full article

Aedes (Ae.) aegypti and Ae. albopictus are important vectors of arboviruses. Yet their blood-feeding pattern remains poorly characterised in Africa, including Cameroon. In this study, we characterised the blood-meal sources in both species collected from vegetation, household surroundings, and animal cages across four urban sites, one rural site, and a zoo-botanical garden where humans and animals in captivity are the main hosts. Overall, Aedes mosquitoes represented about half of 10,054 female mosquitoes collected, with Ae. albopictus strongly dominating Ae. aegypti among 5001 Aedes females, and only 5.95% of females visibly blood-fed. Sequencing a 748 base pairs (bp) fragment of the cytochrome oxidase I gene from 156 blood-fed abdomens yielded 126 high-confidence host assignments, of which 98.25% were humans, indicating a strong anthropophagic pattern in both species. Unpredictably, two Ae. albopictus individuals had fed on a baboon (Papio anubis) and a frugivorous bat (Pteropodidae), as confirmed by bio informatic analyses, highlighting the species’ opportunistic blood-feeding nature and providing preliminary molecular evidence consistent with a potential bridge-vector role in this setting. Despite the extreme anthropophagy of both species observed, results indicate that Ae. albopictus could also serve as a bridge vector enabling spillover of enzootic viruses to humans, including urbanised settings where wild animals are present. These findings emphasise the urgent need for enhanced arbovirus surveillance in Central Africa using a One Health approach. Full article

The long-term storage of seeds is important for conserving native species, but its effectiveness depends on maintaining seed quality. This study assessed the impact of storage duration on seed quality in Alnus glutinosa (alder) and Betula pubescens (downy birch). Seed quality was evaluated using thousand-seed weight (TSW), moisture content (MC), tetrazolium (TZ) viability, and germination tests. Results from stored seed lots were compared with those from recently collected seeds. Moisture content, TZ viability, and germination were significantly affected by storage duration, although sensitivity analyses indicated that storage conditions, particularly lower temperature and airtight storage, may have contributed to improved seed viability in specific seed lots. A relationship between TZ viability and germination was observed, although this was influenced by zero values. Cold stratification improved germination in downy birch but did not compensate for reduced viability in older seed lots. These findings highlight the importance of storage conditions and species-specific pre-treatments and support the use of TZ testing as a rapid indicator of seed viability when used alongside germination testing. The results provide practical guidance for managing seed resources and maintaining reliable forest reproductive material supply. Full article

In today’s tourism industry, service quality is essential for differentiation and achieving sustainable competitive advantage. While much research on service quality exists for the private sector, a notable gap remains regarding service dynamics in non-profit public recreational spaces in emerging economies. This study fills that gap by examining service quality (SQ) at National Botanical Gardens (NBGs) in South Africa, focusing on visitor perceptions of SQ importance and performance. Using an adapted Importance–Performance Analysis (IPA) framework, the research explores how visitor expectations compare with actual experiences. A quantitative approach was adopted, with structured questionnaires given to a convenience sample of visitors at key gardens like Pretoria and Walter Sisulu NBGs. Data analysis centred on correlation coefficients to assess the relationship between perceived importance and actual performance. The findings reveal a generally strong, statistically significant positive correlation; however, some attributes show a ‘weak correlation,’ indicating critical service gaps often overlooked by traditional management models. These insights demonstrate that, in natural attraction settings, visitor-perceived importance primarily drives satisfaction with performance. In addition to offering the South African National Biodiversity Institute (SANBI) a strategic plan to boost visitor retention, this study advances the academic discussion by challenging existing SQ models within non-profit recreational sectors. It lays a vital empirical groundwork for future research on public-sector service excellence in the Global South. Full article

Species of the genus Prunus, including Prunus nipponica var. kurilensis, Prunus sargentii, and Prunus maximowiczii, are widely distributed in the Far Eastern region, covering the territories of Northern China, Korea, Japan, the Kuril Islands, Sakhalin Island, and Primorsky Region in Russia. As part of this study, the flowers of nine specimens of the aforementioned species were collected from the Peter the Great Botanical Garden of the Russian Academy of Sciences (RAS), which was founded in 1714 and is one of the oldest botanical gardens in Russia. This study is the first comprehensive metabolomic analysis of cherry blossoms from East Asia, with a particular focus on the varieties P. nipponica var. kurilensis, P. sargentii and P. maximowiczii. The main objective of the work was to identify and characterize biologically active polyphenolic substances and other chemotypes in the studied plant samples. Metabolomic analysis of flower extracts from three species of Prunus: P. nipponica var. kurilensis, P. sargentii, and P. maximowiczii revealed the presence of one hundred and eight polyphenol compounds and fourteen compounds belonging to other chemical groups. Principal component analysis showed that PC1 (26.6%) and PC2 (19.0%) explain 45.6% of the total variance. A clear separation of P. maximowiczii was observed, while P. nipponica from all regions was represented by a single species, and P. sargentii showed variability. Samples from Sakhalin were grouped separately. These results suggest that species identity and origin may influence the metabolic differentiation of the plant material studied. The observed separation of P. maximowiczii from other species may be due to both species-specific metabolism and adaptation to the environmental conditions in Sakhalin. A heatmap with hierarchical clustering revealed a clear clustering of samples based on their origin and species. Samples of P. sargentii from different sources were grouped together, indicating a similar metabolic profile. Samples of P. nipponica var. kurilensis formed a separate cluster with characteristic features of compound distribution. Samples of P. maximowiczii from Sakhalin also formed a separate cluster that was not related to the other two species. This supports the hypothesis that the subspecies that grow in the northern regions have a greater metabolic diversity. It is suggested that this richness of polyphenols is due to the harsh climatic conditions and the accompanying stress factors. The flowers of P. nipponica var. kurilensis, P. sargentii, and P. maximowiczii are characterized by a high content of biologically active compounds, which makes them promising objects for the creation of biologically active supplements and the development of new therapeutic agents in the pharmaceutical industry. Full article

This study revises the genus Cyanoboletus (Boletaceae) in the Mediterranean Basin, integrating single-locus and multi-locus phylogenetic analyses (ITS, LSU, tef1-α, and rpb2), morphological characterisation, ecology, and arsenic accumulation in basidiomes. Morphological descriptions (including a new form, Cyanoboletus mediterraneensis f. pallidus), comprehensive sampling, type studies, biogeography, macro- and microphotographs, an identification key, and a historical overview of the nomenclatural issues surrounding C. pulverulentus, C. poikilochromus, and C. mediterraneensis are given. An epitype collection is designated for C. pulverulentus. A new method to measure spore suprahilar depression has been proposed, which allowed more clear morphological separation between C. mediterraneensis and C. pulverulentus. This method may prove useful for species delimitation in other fungal groups that have asymmetric basidiospores. Additionally, we generated a new ITS sequence of the C. sinopulverulentus holotype and inferred its conspecificity with the later described C. flavocontextus. Furthermore, notes on the taxonomy of Boletus gabretae are presented, and its placement in the genus Neoboletus is suggested. Cyanoboletus is confirmed as a strongly supported generic clade encompassing 21 monophyletic species-level clades, 14 of which represent known species, and seven are undescribed taxa. The synonymy of Cupreoboletus with Cyanoboletus is also verified. This publication provides the tools to delimit Cyanoboletus species that have important conservation value, which can be used by conservationists, ecologists, and citizen scientists. It also highlights species-specific arsenic hyperaccumulation in C. pulverulentus, contributing to a better understanding of fungal metal uptake. Our study indicates that within Cyanoboletus, only C. pulverulentus demonstrates this characteristic and is the only known member of Boletales that possesses a high arsenic accumulation ability. Full article

New Guinea, the world’s largest tropical island, supports the planet’s richest insular avifauna. Large areas of New Guinea remain poorly surveyed, however, in part due to the island’s challenging terrain. In hard-to-access areas, like many mountainous parts of New Guinea, automated surveying tools, like camera traps, may be especially helpful to address the survey deficit. Here we present the results of a camera-trap survey of the avifauna of the Cyclops Mountains, a range in New Guinea’s western, Indonesian provinces (Indonesian Papua). To our knowledge, our results represent only the second published camera-trap survey of birds from Indonesian Papua. We deployed 73 camera traps along an elevation gradient (143–1963 m) of the Cyclops Mountains for 11,869 camera-trap nights, recording 22 bird species from 1696 independent detections. Our species list is, to our knowledge, the first to include observations from the upper northern slopes of the Cyclops Mountains. It documents the first record of Masked Bowerbird (Sericulus aureus) in the range and provides photographic rediscoveries of two ‘lost’ species: Mayr’s Honeyeater (Ptiloprora mayri) and Mayr’s Forest Rail (Rallicula mayri). We also report substantial elevation range extensions for several species, including numerous records of Northern Cassowary (Casuarius unappendiculatus) over 1000 m above its historically known elevation ceiling. These findings provide new insights into species distributions and ecological flexibility in New Guinea’s montane systems, highlighting the potential for previously undocumented biodiversity in under-surveyed regions. Although camera traps detected fewer species than traditional ornithological methods, they were effective in documenting several elusive, ground-dwelling bird species, highlighting their value as a complementary tool for ornithological research in challenging terrain like New Guinea. Finally, we use our data to publish an updated bird species checklist for the Cyclops Mountains. Full article

The potential of Trichoderma nordicum (Hypocreales, Ascomycota), a recently described species, for antagonism and use in the biocontrol of oomycete-caused plant diseases is unknown. Trichoderma is a well-known genus for containing microbial antagonists and biocontrol agents. The T. nordicum in this study was isolated from decomposing wood, and rpb2 and tef1 barcode sequencing demonstrated that the isolates were a match to the reference T. nordicum and T. nigricans strains. Since T. nordicum was described before T. nigricans, the isolates were assigned to T. nordicum, although taxonomic uncertainty between these species requires future clarification. In dual-culture confrontation assays, T. nordicum overgrew five economically important oomycete plant pathogens (Phytophthora capsici, P. sojae, Pythium aphanidermatum, P. myriotylum, and Globisporangium ultimum). The inability to recover viable P. aphanidermatum and P. capsici from the parts of the plate overgrown by T. nordicum, coupled with protease and endo-cellulase activities, correlates with T. nordicum having antagonistic abilities. Inoculation with T. nordicum preventively reduced the levels of cucumber seedling damping-off caused by P. aphanidermatum by up to 70%. The T. nordicum biocontrol effects against pepper blight caused by P. capsici were greater than 80%, compared to an autoclaved T. nordicum spore control. T. nordicum could also significantly promote the growth of pepper, with plant weight increased by up to 40%, compared to an autoclaved-spore control. In contrast, T. nordicum could not be used to control Pythium soft rot of ginger caused by P. myriotylum, even though P. myriotylum was overgrown by T. nordicum, suggesting host- or pathosystem-specific factors influence biocontrol efficacy. In summary, T. nordicum is a promising biocontrol agent for use in the control of pepper blight caused by P. capsici, and also has potential for use in the control of other oomycete-caused plant diseases in vegetable production systems. Full article

Frequent co-occurrences of high temperature and drought in tropical regions make heat and drought tolerance of landscape plants core physiological traits that determine their landscape adaptability and community stability. However, systematic elucidation of the differentiation patterns of stress resistance between specialist and generalist tropical landscape plant species, the intrinsic correlations between heat and drought tolerance traits, and the regulatory mechanisms of leaf functional traits remains lacking. In this study, eight typical tropical landscape plant species in Xishuangbanna Tropical Botanical Garden were selected as research objects. By determining leaf chlorophyll fluorescence parameters, water relation parameters and leaf functional traits, we systematically analyzed the differences in heat and drought tolerance and interspecific differentiation characteristics between specialist and generalist species, and simultaneously elucidated the correlation patterns of drought-heat tolerance traits as well as the regulatory effects of leaf functional traits on these traits. The results showed that the turgor loss point water potential (Ψ_TLP) of generalist tropical landscape plant species was significantly higher than that of specialist species, with superior drought tolerance; in contrast, the half-lethal temperature of photosystem II (T50) of specialist species was significantly higher than that of generalist species, with stronger heat tolerance. Among the eight tested species, Bombax ceiba exhibited the strongest drought tolerance, while Baccaurea ramiflora had the optimal heat tolerance. The study also found that the drought and heat tolerance traits of tropical landscape plants exhibited stress-specific trade-offs; leaf functional traits had limited overall explanatory power for the stress resistance of tropical landscape plants and only exerted a certain regulatory effect on drought tolerance. This study clearly reveals the differences in heat and drought tolerance between specialist and generalist species. This finding not only enhances our mechanistic understanding of stress resistance in tropical plants but also provides data support for ecological restoration and conservation practices in tropical gardens. Full article

Intensive ornamental planting is increasingly prevalent in urban green spaces, yet its effects on soil microbial community assembly and interaction networks remain poorly understood. Here, we examined shifts in soil properties, microbial diversity, community composition, and interaction networks across successive planting cycles. Bacterial alpha-diversity remained relatively stable, whereas fungal communities showed pronounced sensitivity to early planting stages. Beta-diversity analyses revealed that bacterial community composition was jointly influenced by planting stage and site type, while fungal communities were primarily structured by site characteristics. Co-occurrence network analysis revealed contrasting reassembly trajectories between microbial groups. Bacterial networks exhibited increasing complexity and modularity, indicating enhanced interaction intensity and competitive structuring under intensive management. In contrast, fungal networks displayed reduced connectivity but maintained or recovered modular organization, suggesting structural buffering. Notably, keystone taxa remained taxonomically conserved, indicating that network reorganization was driven by interaction rewiring rather than species turnover. We propose a dual-speed reassembly framework in which bacteria function as fast-responding components with dynamic interaction networks, whereas fungi act as slow-buffering, structurally persistent elements. This decoupling of short-term functional responsiveness and long-term stability provides new insights into how intensive management reshapes soil microbiomes in botanical garden ecosystems. Full article

Coffee production, particularly in shade-grown farms, plays a crucial role in the livelihoods of Mexican farmers. Shade-grown coffee systems are also recognised for supporting biodiversity and enhancing carbon capture. Nevertheless, the geographical heterogeneity of Mexico makes the selection of tree species in these agroforestry systems challenging. This study develops region-specific priority lists to conserve biodiversity, improve carbon capture, and support the livelihoods of producers across nine coffee-growing regions within the state of Chiapas. We identified the tree species distributed in each region using an extensive dataset from the Global Biodiversity Information Facility and a novel approach that enhanced spatial resolution of the prioritisation process, despite biases in collection efforts. A set of 23 criteria, including conservation status, carbon content, and documented uses by local communities, was compiled from databases and literature reviews and used to calculate a priority score for each species. Based on these scores, a list of 20 recommended species was generated for each region. However, additional participatory validation is needed to translate these lists into practice. A similarity analysis revealed that geographically proximate regions shared similar species composition. Overall, this study provides a transparent framework for regionally tailored shade-tree selection to inform conservation and restoration planning in coffee agroforestry landscapes. Full article

The rare and threatened pleurocarpous semi-aquatic moss Drepanocladus sendtneri (Amblystegiaceae) was the focus of an integrative conservation approach aimed at improving knowledge of its biological and ecological characteristics and enhancing its survival prospects. The results provide insights into both the axenic and xenic propagation of this species, as well as its biomass production under ex situ conditions. The KNOP medium proved to be the most suitable for propagation, particularly when demeristemized shoot tips were cultured in an upright orientation. Exogenous application of IBA increased the production of new shoots and reduced the time required to obtain substantial biomass under axenic conditions. Following successful acclimatisation to controlled xenic laboratory conditions, the moss was able to fully develop and spread in experimental basins maintained under outdoor botanical garden conditions, with humidity carefully regulated during dry periods. Within one year, a small number of initial plantlets expanded to cover approximately 4 dm², spreading efficiently over rainwater-soaked filter paper covered with an inert plastic mesh. These results provide practical guidance for the production and ex situ maintenance of D. sendtneri, thereby supporting the development and improvement of conservation action plans for this rare and threatened moss species. Full article