Your search keyword '"INTRODUCED species"' showing total 78,777 results

1. New data on land and freshwater molluscs of Sifnos Island and Kitriani Islet (Cyclades, Greece)

Author

Liberto, Fabio, Grano, Mauro, Cattaneo, Cristina, Gregorini, Armando, and Colomba, Mariastella

Published

2024

2. A holistic marine biosecurity risk framework that is inclusive of social, cultural, economic and ecological values

Author

Campbell, Marnie L. and Hewitt, Chad L.

Published

2025

3. Parasite fauna of Lake Biwa water system: A review on parasites using aquatic host organisms in their life cycle

Author

Urabe, Misako

Published

2025

4. A novel genetic strategy to enable rapid detection of rare non-native alleles.

Author

Cooper, Robert, Luckau, Tara, Toffelmier, Erin, Cook, Dave, Martinelli, Stacy, Fawcett, Michael, and Shaffer, H

Subjects

Animals, Alleles, Introduced Species, Polymorphism, Single Nucleotide, Endangered Species

Abstract

Established invasive species represent one of the most harmful and challenging threats to native biodiversity, necessitating methods for Early Detection and Rapid Response. Cryptic invasions are particularly challenging and often require expensive and time-consuming molecular surveys which limits their usefulness for management. We present a novel application of the Fluidigm SNP-Type Assay to identify rare non-native alleles that significantly reduces the cost and time to generate diagnostic results. We demonstrate the efficacy of this method using experimental Fluidigm pools (99% accuracy) and sequence data (96% accuracy). We apply our novel methodology to an endangered population of California tiger salamanders in Sonoma County where two individual non-native tiger salamander hybrids have previously been detected since 2008. We screened 5805 larvae in 387 sample-pools containing 15 larvae each. We did not detect any non-native hybrids in the population, a result that was verified with sequence data, though we strongly recommend additional years of sampling to confirm hybrid absence. Our success with a challenging, large-genome amphibian suggests this method may be applied to any system, and would be particularly useful when it is necessary for conservation practitioners to rapidly identify rare taxa or genes of interest.

Published

2024

5. Loss-of-function in testis-specific serine/threonine protein kinase triggers male infertility in an invasive moth.

Author

Wei, Zihan, Wang, Yaqi, Zheng, Kangwu, Wang, Zhiping, Liu, Ronghua, Wang, Pengcheng, Li, Yuting, Gao, Ping, Akbari, Omar, and Yang, Xueqing

Subjects

Male, Animals, Moths, Infertility, Male, Testis, Protein Serine-Threonine Kinases, Insect Proteins, Introduced Species, Loss of Function Mutation, Spermatogenesis, CRISPR-Cas Systems

Abstract

Genetic biocontrol technologies present promising and eco-friendly strategies for the management of pest and insect-transmitted diseases. Although considerable advancements achieve in gene drive applications targeting mosquitoes, endeavors to combat agricultural pests have been somewhat restricted. Here, we identify that the testis-specific serine/threonine kinases (TSSKs) family is uniquely expressed in the testes of Cydia pomonella, a prominent global invasive species. We further generated male moths with disrupted the expression of TSSKs and those with TSSKs disrupted using RNA interference and CRISPR/Cas9 genetic editing techniques, resulting in significant disruptions in spermiogenesis, decreased sperm motility, and hindered development of eggs. Further explorations into the underlying post-transcriptional regulatory mechanisms reveales the involvement of lnc117962 as a competing endogenous RNA (ceRNA) for miR-3960, thereby regulating TSSKs. Notably, orchard trials demonstrates that the release of male strains can effectively suppress population growth. Our findings indicate that targeting TSSKs could serve as a feasible avenue for managing C. pomonella populations, offering significant insights and potential strategies for controlling invasive pests through genetic sterile insect technique (gSIT) technology.

Published

2024

6. Climate change and Californias terrestrial biodiversity.

Author

Harrison, Susan, Franklin, Janet, Hernandez, Rebecca, Ikegami, Makihiko, Safford, Hugh, and Thorne, James

Subjects

California, biodiversity, climate change, solar energy, terrestrial, Biodiversity, California, Climate Change, Conservation of Natural Resources, Humans, Fires, Introduced Species, Plants, Animals

Abstract

In this review and synthesis, we argue that California is an important test case for the nation and world because terrestrial biodiversity is very high, present and anticipated threats to biodiversity from climate change and other interacting stressors are severe, and innovative approaches to protecting biodiversity in the context of climate change are being developed and tested. We first review salient dimensions of Californias terrestrial physical, biological, and human diversity. Next, we examine four facets of the threat to their sustainability of these dimensions posed by climate change: direct impacts, illustrated by a new analysis of shifting diversity hotspots for plants; interactive effects involving invasive species, land-use change, and other stressors; the impacts of changing fire regimes; and the impacts of land-based renewable energy development. We examine recent policy responses in each of these areas, representing attempts to better protect biodiversity while advancing climate adaptation and mitigation. We conclude that Californias ambitious 30 × 30 Initiative and its efforts to harmonize biodiversity conservation with renewable energy development are important areas of progress. Adapting traditional suppression-oriented fire policies to the reality of new fire regimes is an area in which much progress remains to be made.

Published

2024

7. Invading plants remain undetected in a lag phase while they explore suitable climates

Author

Robeck, Philipp, Essl, Franz, van Kleunen, Mark, Pyšek, Petr, Pergl, Jan, Weigelt, Patrick, and Mesgaran, Mohsen B

Subjects

Climate Change Impacts and Adaptation, Biological Sciences, Ecology, Environmental Sciences, Climate Action, Phylogeny, Climate Change, Introduced Species, Tropical Climate, Plants, Evolutionary biology, Environmental management

Abstract

Successful alien species may experience a period of quiescence, known as the lag phase, before becoming invasive and widespread. The existence of lags introduces severe uncertainty in risk analyses of aliens as the present state of species is a poor predictor of future distributions, invasion success and impact. Predicting a species' ability to invade and pose negative impacts requires a quantitative understanding of the commonality and magnitude of lags, environmental factors and mechanisms likely to terminate lag. Using herbarium and climate data, we analysed over 5,700 time series (species × regions) in 3,505 naturalized plant species from nine regions in temperate and tropical climates to quantify lags and test whether there have been shifts in the species' climatic space during the transition from the lag phase to the expansion phase. Lags were identified in 35% of the assessed invasion events. We detected phylogenetic signals for lag phases in temperate climate regions and that annual self-fertilizing species were less likely to experience lags. Where lags existed, they had an average length of 40 years and a maximum of 320 years. Lengthy lags (>100 years) were more likely to occur in perennial plants and less frequent in self-pollinating species. For 98% of the species with a lag phase, the climate spaces sampled during the lag period differed from those in the expansion phase based on the assessment of centroid shifts or degree of climate space overlap. Our results highlight the importance of functional traits for the onset of the expansion phase and suggest that climate discovery may play a role in terminating the lag phase. However, other possibilities, such as sampling issues and climate niche shifts, cannot be ruled out.

Published

2024

8. Seasonal plasticity in daily timing of flight activity in Anopheles stephensi is driven by temperature modulation of dawn entrainment.

Author

Rund, Samuel S. C., O'Donnell, Aidan J., Prior, Kimberley F., and van der Veen, Daan R.

Subjects

*ANOPHELES stephensi, *COLD (Temperature), *MALARIA, *INTRODUCED species, *CLIMATE change

Abstract

The Asian malaria vector Anopheles stephensi is invading Africa, requiring it to adapt to novel climates and ecosystems. In part, this may be facilitated by An. stephensi's poorly understood seasonal behavioural plasticity in flight timing, leading to earlier biting activity in cold Asian winters and later biting times in the warm summer. Changes in behavioural timing could be directly imposed by seasonal variation in ambient light and temperature levels or result from altered entrainment of intrinsically expressed circadian rhythms by these factors. We demonstrate that An. stephensi entrained flight activity timing is phase-locked to dawn and is not affected by constant ambient temperature, which cannot explain earlier biting activity in colder winters with later dawn. Instead, we show that where night temperatures are the colder part of daily temperature cycle; the entrained phase-angle between dawn and flight activity is altered, hereby increasingly colder, winter-like nights progressively advance flight activity onset. We propose that seasonal timing plasticity optimizes behaviour to warmer daytime in winter, and colder nights in summer, providing protection against both heat-desiccation and cold immobility. The adaptive advantage of this plasticity could be relevant to the successful invasion and survival of An. stephensi in African climates, and changing climate worldwide. This article is part of the Theo Murphy meeting issue, 'Circadian rhythms in infection and immunity'. [ABSTRACT FROM AUTHOR]

Published

2025

9. Dark Humour and Invasive Species Storytelling in the Age of Extinction.

Author

Zong, Emily Yu and Bisenieks, Daisy

Subjects

*INTRODUCED animals, *SOLENOPSIS invicta, *INTRODUCED species, *COLONIES, *STORYTELLING, *LAUGHTER, *IMAGINATION

Abstract

This essay explores how humour, specifically dark humour, performs an affective politics of opacity in Australian comedies that invokes parody, absurdity and laughter to address the eco-social challenges of invasive species, including rabbits, brumbies, cane toads and red fire ants. The incongruity between jocular feelings and the gravity of extinction highlights humour’s ambivalent potential for violence and subversion. Through an analysis of cartoons and documentaries that bridge conservation science and the Australian cultural imagination, we identify three dimensions of environmental dark humour: (1) it questions human exceptionalism by foregrounding ambiguity, nonhuman agency and assemblage thinking beyond rational control; (2) it performs a cultural diagnosis of colonial legacies, including eco-nationalism and anti-immigration rhetoric, hegemonic White masculinity, and regional and cultural stereotypes; (3) it allows a cathartic release of affective dissent and taboo feelings by subverting culturally normative emotional attachments to invasive animals and mainstream environmentalism. By considering humour as a crucial technique for survival and ambiguity, we argue for its potential to inspire self-reflective, multispecies and decolonial modes of storytelling that can ethically account for human and nonhuman otherness in the age of extinction. [ABSTRACT FROM AUTHOR]

Published

2025

10. A Real-Time PCR Assay for Detecting Codling Moth Cydia pomonella on Material Intercepted at U.S. Ports of Entry—A Valuable Tool for Specimen Identification.

Author

Timm, Alicia E., Tembrock, Luke R., Zink, Frida A., and Mollet, Kayla A.

Subjects

*CODLING moth, *INTRODUCED insects, *RAPID tooling, *SPECIES distribution, *INTRODUCED species

Abstract

Codling moth Cydia pomonella is well established nearly everywhere apples are grown. Due to this almost global distribution, larvae are often intercepted at U.S. ports of entry where immature specimens cannot be identified accurately to species leading to unnecessary quarantine actions. To assist with identifying intercepted C. pomonella from port inspections, we developed a probe-based real-time PCR assay to amplify the internal transcribed spacer (ITS) region 2 of C. pomonella. The assay was tested for inclusivity using 110 C. pomonella specimens from six continents. Analytical specificity was examined by testing related species intercepted at U.S. ports of entry, as well as non-targets with the same geographic distribution and host species as C. pomonella. The assay developed here identified all C. pomonella individuals correctly and produced appropriately negative results for all non-target species. These results ensure that the assay provides a rapid and accurate tool for unambiguously identifying C. pomonella among material intercepted at U.S. ports of entry. Since C. pomonella is not actionable, the ability to identify all life stages of C. pomonella conclusively will save time, effort, and money while also directing identification efforts towards species of current quarantine concern. [ABSTRACT FROM AUTHOR]

Published

2025

11. Transcriptome and Neuroendocrinome Responses to Environmental Stress in the Model and Pest Insect Spodoptera frugiperda.

Author

Gong, Wei, Lubawy, Jan, Marciniak, Paweł, Smagghe, Guy, Słocińska, Małgorzata, Liu, Dongdong, Liu, Tongxian, and Gui, Shunhua

Subjects

*FALL armyworm, *GENE expression, *BIOGENIC amines, *PLANT species, *INTRODUCED species

Abstract

The fall armyworm, Spodoptera frugiperda, is one of the most notorious pest insects, causing damage to more than 350 plant species, and is feared worldwide as an invasive pest species since it exhibits high adaptivity against environmental stress. Here, we therefore investigated its transcriptome responses to four different types of stresses, namely cold, heat, no water and no food. We used brain samples as our interest was in the neuroendocrine responses, while previous studies used whole bodies of larvae or moths. In general, the responses were complex and encompassed a vast array of neuropeptides (NPs) and biogenic amines (BAs). The NPs were mainly involved in ion homeostasis regulation (ITP and ITPL) and metabolic pathways (AKH, ILP), and this was accompanied by changes in BA (DA, OA) biosynthesis. Cold and no-water stress changed the NP gene expression with the same patterns of expression but clearly separated from each other, and the most divergent pattern of expression was shown after no-food stress. In conclusion, our data provide a foundation in an important model and pest insect with candidate NPs and BAs and other marker candidate genes in response to environmental stress, and also potential new targets to manage pest insects. [ABSTRACT FROM AUTHOR]

Published

2025

12. How do additions of submerged macrophytes, large-bodied cladocerans and nutrients impact tropical plankton communities? A mesocosm experiment.

Author

Amorim, Cihelio A., Jeppesen, Erik, and Moura, Ariadne N.

Subjects

*CYANOBACTERIAL blooms, *LAKE restoration, *INTRODUCED species, *ALGAL blooms, *FACTORIAL experiment designs, *POTAMOGETON, *ZOOPLANKTON

Abstract

We investigated the individual and combined impacts of manipulation of submerged macrophytes, large-bodied cladocerans, and nutrients on plankton communities in a tropical hypereutrophic shallow reservoir. We tested how the addition of the macrophyte Ceratophyllum demersum, the cladoceran Sarsilatona serricauda, and nutrients affected phytoplankton and zooplankton diversity, composition, and structure using mesocosms and a factorial design (3 × 3) with eight treatments. During the experiment, the reservoir experienced an intense bloom of algae (207 mg l−1 of biomass), mainly composed of cyanobacteria (> 98%). The submerged macrophytes were found to significantly reduce the biomass of cyanobacteria (by 85%), diatoms (80%), and green algae (78%), while the addition of zooplankton and nutrients led to a 96% reduction for diatoms. While both submerged macrophytes and the added cladocerans impacted the native zooplankton community, the macrophytes exerted stronger effects on phytoplankton and zooplankton diversity, composition, and structure. Intriguingly, nutrient addition did not alter the main effects of macrophytes and large cladocerans. Our findings reveal the positive potential of introducing submerged macrophytes in tropical shallow lakes, even at a low to moderate percentage of the volume inhabited, to control toxic cyanobacterial blooms. Under our experimental conditions, the method was effective even without extra zooplankton grazing and at increased nutrient input. [ABSTRACT FROM AUTHOR]

Published

2025

13. Efficiency of four trap types and human landing catch in the sampling of Mansonia (Diptera, Culicidae) in Porto Velho, Rondônia, Brazil.

Author

Furtado, Nercy Virginia Rabelo, Saraiva, José Ferreira, Ribeiro, Kaio Nabas, Fernandes Neto, Noel Santos, Barroso, Jéssica Fernanda dos Santos, Rodovalho, Cynara de Melo, Carvalho, Dario Pires, Galardo, Allan Kardec Ribeiro, and Lima, José Bento Pereira

Subjects

*MOSQUITO control, *INSECT traps, *MAGIC squares, *INTRODUCED species, *DIPTERA

Abstract

Entomological surveillance plays a crucial role in designing and implementing mosquito control measures. In this context, developing more effective collection strategies is essential to accurately estimate the entomological parameters necessary for effective control. In this study, we investigated the effectiveness of four traps: CDC light trap, MosqTent, BG-Sentinel, and SkeeterVac, compared to human landing catch (HLC) in the collection of Mansonia mosquitoes, known to cause discomfort to riverside populations along the Madeira River in the District of Jaci Paraná, Porto Velho, in Rondônia state, Brazil. Sampling was conducted, during three periods corresponding to two seasons, dry and rainy, over five consecutive days for each period. The captures using HLC and the installation of the traps took place on the grounds of five selected residences from 6 to 10 pm. Rotational exchanges between houses ensured that all traps and the HLC were used in each of the five residences, following a predetermined Latin square pattern. A total of 7,080 mosquitoes were collected, of which 90.5% belonged to the Mansonia genus, distributed in four species: Mansonia titillans (75.97%), Mansonia humeralis (18.91%), Mansonia amazonensis (1.90%), and Mansonia indubitans (1.37%). HLC captured the highest number of Mansonia mosquitoes (58.1%), followed by SkeeterVac (21.8%) and MosqTent (18.9%). CDC and BG-Sentinel showed a very low performance (0.92 and 0.23%, respectively). Although HLC performed better in capturing Mansonia, our results suggest that SkeeterVac and MosqTent can serve as valuable additional tools to entomological inventories or sentinels for detecting invasive species in areas with high epidemiological vulnerability, thereby providing evidence-based recommendations for improving mosquito control measures and entomological surveillance. [ABSTRACT FROM AUTHOR]

Published

2025

14. The Response Patterns of Non-Native Rotifer Species Kellicottia bostoniensis (Rousselet, 1908) to Environmental Factors and Its Relationship with Potential Competitors and Predators.

Author

Hong, Geun-Hyeok, Choi, Yerim, Lee, Dae-Hee, Kim, Jeong-Hui, Chang, Kwang-Hyeon, and Oh, Hye-Ji

Subjects

INTRODUCED species, FUNCTIONAL groups, BIOTIC communities, LAKES, PREDATORY animals, BRACHIONUS

Abstract

Kellicottia bostoniensis is a rotifer species originating from North America, with numerous reports documenting its spread to Europe and South America. Meanwhile, in Asia, the occurrence of this non-native species has been scarcely documented, but its presence was recently reported in Korea in 2020. In Korea, the close geographic proximity of artificial reservoirs within a small area is expected to make the region vulnerable to the spread of K. bostoniensis. Therefore, it is deemed necessary to study the spatio-temporal distribution of K. bostoniensis, which appears to have extensively proliferated across the region, and its relationship with environmental factors. We analyzed the response of K. bostoniensis occurrence to environmental factors and aimed to compare its response patterns with those of potential competitor and predator groups, which were classified based on a functional group approach. This study, conducted on 12 small lakes located under similar climatic conditions, revealed that the response of K. bostoniensis to variables representing the trophic state of the lakes differed from those of the potential competitor and predator groups. The study sites, encompassing a wide range of trophic states from oligotrophic to hypereutrophic, across various lakes and survey periods, were well-suited for examining these relationships. Furthermore, when TSI was calculated to compare the abundance of K. bostoniensis and potential competitors across trophic conditions, the abundance of potential competitors was proportional to TSI. In contrast, K. bostoniensis exhibited higher abundances in mesotrophic and lower eutrophic environments, which distinguished it from its competitors. Our results indicate that the impact of introduced K. bostoniensis on native communities is minimal, while the resistance of native communities through the biological filter based on biological interactions is ineffective against this non-native rotifer species. This provides key evidence for explaining the widespread distribution of K. bostoniensis across continents. [ABSTRACT FROM AUTHOR]

Published

2025

15. A Sighting of the Indian Ocean Surgeon Fish Paracanthurus hepatus in Eastern Provence (North-Western Mediterranean Sea).

Author

Boudouresque, Charles-François, Dudognon, Olivier, Monneray, Viviane, Roger, Claire, and Verrier, Muriel

Subjects

POSIDONIA oceanica, SALTWATER fishing, AQUARIUMS, INTRODUCED species, YACHTS

Abstract

Two Indian Ocean surgeon fish Paracanthurus hepatus individuals were observed near Saint-Raphaël (Provence, France, north-western Mediterranean Sea) in the late summer of 2024 in Posidonia oceanica seagrass and reef habitats. This species is very popular among aquarium hobbyists in Europe, and a growing number of mega-yachts, such as those which moor in the Saint-Raphaël marina, have seawater aquariums on board. Accidental or deliberate release from one such aquarium is the most probable origin of these individuals. The first individual was speared and the second one was no longer sighted after a September storm. Their establishment is unlikely; however, in the future, with the warming of Mediterranean waters and the rapid increase in the number of mega-yachts, this could change. Yacht owners and their staff should be informed of the risk posed by aquarium discharges. [ABSTRACT FROM AUTHOR]

Published

2025

16. Endemic and Invasive Species: A History of Distributional Trends in the Fish Fauna of the Lower New River Drainage.

Author

Welsh, Stuart A., Cincotta, Daniel A., Owens, Nathaniel V., and Stauffer Jr., Jay R.

Subjects

ENDEMIC species, NATIVE species, TIME series analysis, INTRODUCED species, CAUSAL inference

Abstract

Invasive species are often central to conservation efforts, particularly when concerns involve potential impacts on rare, endemic native species. The lower New River drainage of the eastern United States is a watershed that warrants conservation assessment, as the system is naturally depauperate of native fish species and it is nearly saturated with non-native fish species: there are 31 natives, including at least nine endemic taxa, and 63 non-natives. For endemic taxa, we examined temporal distribution shifts (range expansions or contractions) based on percent change in the occupied watershed area. We contrasted these findings with time series analyses on distribution trends of non-native minnows (Leuciscidae) and darters (Percidae) based on growth curve models of the cumulative sum of the total area of occupied 12-digit hydrologic unit codes. We documented range reductions for six of nine endemic taxa. We determined that 11 of 18 non-native minnows and 6 of 8 non-native darters were invasive based on range expansions and associated invasion curve models. The endemic taxa are of conservation concern given the limited distribution ranges and documented population declines. Although among-species comparisons of range shifts do not support causal inference, documentation of changes in distribution ranges of endemic and invasive species is critical to inform conservation efforts. [ABSTRACT FROM AUTHOR]

Published

2025

17. Exploring germination thresholds and seed properties of Ambrosia artemisiifolia populations from different European regions for improving control strategies.

Author

Nikolić, Nebojša, Šoštarčić, Valentina, Šćepanović, Maja, and Masin, Roberta

Subjects

FRENCH people, AMBROSIA artemisiifolia, NOXIOUS weeds, WEED control, INTRODUCED species, WEEDS

Abstract

Introduction: Ambrosia artemisiifolia , a highly invasive weed species, poses significant challenges to agriculture and human health. This study investigated the germination thresholds and physical properties of A. artemisiifolia populations from diverse regions in Europe, encompassing Serbia, Croatia, Italy, and France. Results: Results revealed intriguing variations in germination thresholds among the populations. The Italian population exhibited the lowest base temperature (Tb) of 0.58°C, closely followed by the Croatian population (1.49°C), statistically similar to the Serbian (1.46°C) and French (2.74°C) populations. In contrast, the Serbian population displayed the lowest base water potential (Ψb) of −1.44 MPa, followed by the French population (−1.23 MPa), with no significant differences observed between the Italian (−0.78 MPa) and Croatian (−0.80 MPa) populations. Analysis of physical seed properties unveiled notable disparities in size, weight, and shape. The Italian population boasted the smallest, lightest, and most spherical seeds, while the French population harbored the largest and most elongated seeds. Interestingly, the seeds of the Croatian population were the heaviest. Conclusions: This study underscores the adaptability of A. artemisiifolia populations to diverse climatic conditions, showcasing varied responses across regions. These findings elucidate the intricate interplay between environmental factors and seed traits, offering valuable insights for the development of effective weed management strategies. [ABSTRACT FROM AUTHOR]

Published

2025

18. The impact of free-roaming dogs on lemurs in Madagascar: a decade of research and intervention.

Author

Valenta, Kim, Rajaonarivelo, Tsiky, Ferreira, Angelique, Raharinirina, Ange, Rafaliarison, Radoniaina R., Farris, Alisha, Watson, Jonas M., deFrance, Susan, Mayo, Dominic, Filla, Caitlynn, Ross, Abigail, Bornbusch, Sally L., Satishchandran, Siddharth, Kelly, Thomas, Levy, Julie K., Randriana, Zoavina, and Farris, Zach J.

Subjects

*RARE mammals, *MIDDLE-income countries, *LOW-income countries, *DRUG resistance in microorganisms, *INTRODUCED species, *LEMURS, *DOGS

Abstract

Lemurs are the most endangered group of mammals on earth, and invasive species, including domestic dogs, are considered to be the second greatest threat to biodiversity after habitat loss. Here, we describe and summarize the challenges and results of a decade of research aimed at understanding the impact of dogs on lemurs, and efforts to humanely reduce dog populations in protected areas in Madagascar, to reduce their impact on lemurs and other wildlife, via the non-profit the Mad Dog Initiative. We have found that free-roaming domestic dog populations living in and around Madagascar’s protected areas both predate and displace native wildlife, and that the presence of dogs in forests drives a reduction of wildlife in forests. Additionally, dogs vector a number of pathogens that can have lethal consequences for lemur populations, as well as serving as important vectors of anti-microbial resistance. We propose several future directions for research, outreach, and capacity building in Madagascar and other low and middle income countries aimed at better quantifying the threat of domestic species on wildlife, and mitigating its impact. [ABSTRACT FROM AUTHOR]

Published

2025

19. Carbon sources derived from the invasive plant Spartina alterniflora improved the nitrogen removal in seawater constructed wetland.

Author

Guo, Chong, Chen, Chen, Yan, Maocang, Huang, Xiaofeng, Jiang, Jun, Zhou, Li, and Yang, Guijun

Subjects

NITROGEN removal (Sewage purification), INTRODUCED species, SHRIMP culture, SPARTINA alterniflora, INTRODUCED plants, CONSTRUCTED wetlands

Abstract

Invasive alien plants pose a great threat to local plants and ecosystems. How to effectively alleviate this hazard is an unresolved issue. This study explored the carbon release characteristics of an invasive plant Spartina alterniflora and evaluated the ability of nitrogen removal from shrimp culture wastewater through constructing seawater wetland. The results showed that fresh S. alterniflora had a significantly higher carbon release potential and bioavailability than that of withered S. alterniflora, and alkali-heat treatment could increase the carbon release with an average COD release rate of 33.39 mg/g from fresh S. alterniflora. The removal rate of total nitrogen was improved by about 22% in seawater constructed wetlands by adding fresh S. alterniflora biomass. Moreover, the addition of fresh S. alterniflora biomass was beneficial to the increase in the abundance of denitrification-related genera Vibrio, which might be the key to the improvement of nitrate removal efficiency in seawater constructed wetland systems. These findings indicated that invasive plants S. alterniflora as carbon sources of seawater wetland was a feasible and effective resource utilization strategy. [ABSTRACT FROM AUTHOR]

Published

2025

20. Aposematism vs. scavenging? camera trapping unveils low and seasonal-dependent consumption of toxic salamander carcasses by wild boars.

Author

Velo-Antón, Guillermo, Ledo, María Comesaña, and Pardavila, Xosé

Subjects

*WILD boar, *WILDLIFE management, *SPRING, *INTRODUCED species, *APOSEMATISM, *PREDATION

Abstract

Aposematic species rely on primary and secondary antipredator strategies. Yet, some opportunistic and generalist species may consume them, although this has been largely supported by indirect evidence such as dietary analyses or clay model experiments. Here, we studied the role of the wild boar, Sus scrofa, as a consumer and possible predator of an aposematic and toxic salamander, Salamandra salamandra gallaica. We investigated this behaviour using camera traps and salamander carcasses on a small island where both species co-occur. Our results show a very low proportion of salamanders consumed by wild boars (3.8%), which indicates that fire salamanders might not completely rely on their aposematic strategy to avoid being consumed by this generalist species. The number of predation events does not differ between wild boar age classes, but it does between seasons, with a higher consumption in spring, which can be associated with an increase in animal consumption when fruits (e.g., acorns) are no longer available on this island. We also highlight the need for temporal studies targeting predator-prey interactions through behavioural data and complementary approaches to better understand the possible impact of opportunistic and generalist species in the ecosystem. This is particularly important in management plans involving the control of generalist species such as the wild boar, which is considered one of the most invasive species globally and a threat to countless species worldwide. [ABSTRACT FROM AUTHOR]

Published

2025

21. Selectivity of invasive species suppression efforts influences control efficacy.

Author

Fadlovich, Rae, Landom, Kevin, and Walsworth, Timothy E.

Subjects

*POPULATION dynamics, *DEMOGRAPHIC characteristics, *INTRODUCED species, *BIOMASS, *SIMULATION methods & models

Abstract

Highly fecund invaders and size‐selective suppression efforts often limit the effectiveness of invasive species control programs, as compensatory processes can allow suppressed populations to recover. While population models have long explored how demographic characteristics impact management feasibility, there is a growing need to evaluate how the selectivity of suppression efforts might impact the long‐term feasibility of control. We use a simulation framework that integrates age‐based selectivity to evaluate the effect of increasing the range of ages selected for during harvest‐based invasive species control. We applied this approach to common carp in Utah Lake, the location of one of the world's largest freshwater vertebrate species control programs, to assess how selectivity impacts the level of control effort necessary to achieve management targets. Model simulations suggest that increasing the range of ages effectively targeted by removal gears has the potential to significantly reduce the amount of effort required to reach control targets. We found that increasing selectivity on younger, but mature, age classes allowed the control program to maintain the carp population below the 75% biomass reduction target with only 2.5 times the maximum historic effort level, while further increasing juvenile selectivity conferred minimal benefit. Furthermore, we evaluated historic levels of harvest effort against both previously set management targets and theoretical sustainable harvest targets (MSY). The historic level of suppression effort was less than that required to produce MSY regardless of the selectivity scenario explored, suggesting the control program would be harvesting at a sustainable rate even if it increases the range of ages effectively targeted by removal gears. Synthesis and applications. Controlling highly fecund invasive species becomes much more feasible if managers can identify an approach that targets all adult age classes. Explicitly considering sustainable harvest metrics provides a framework for evaluating a harvest control program's ability to overcome density‐dependent processes and achieve management objectives. [ABSTRACT FROM AUTHOR]

Published

2025

22. Hunters’ Acceptability of Lethal Management Methods Used to Control Invasive Wild Pigs (<italic>Sus scrofa</italic>) in Alabama.

Author

Ellis, Hailey E., Avila, Brian W., Cross, Megan M., Jaebker, Lauren M., Smith, Mark D., Bright, Alan D., and Carlisle, Keith M.

Subjects

*FERAL swine, *WILDLIFE management, *INTRODUCED species, *POISONS, *INTERNET surveys

Abstract

AbstractLethal control of wild pigs generates controversy due to stakeholder perceptions of wild pig-related damages and uses. Our research aimed to 1) examine hunter acceptability of lethal wild pig management methods; 2) identify underlying patterns in how hunters conceptualize lethal management; and 3) determine the relative influence of various factors on management acceptability. Results from an online survey of Alabama hunters revealed that most hunters were accepting of management methods except for toxicants. Results also revealed two distinct dimensions of lethal management acceptability, characterized by government-implemented and landowner-implemented methods. The top government model included four key factors, with wildlife acceptance capacity having the largest effect. The top landowner model included five key factors, with attitudes having the largest effect. Findings suggest avenues for further investigation of key factors influencing hunters’ perceptions of management and highlight the importance of considering who implements the method when measuring acceptability. [ABSTRACT FROM AUTHOR]

Published

2025

23. New Record of Encarsia protransvena and Confirmed Occurrence of Encarsia hispida (Hymenoptera: Aphelinidae) as Parasitoids of Singhiella simplex (Hemiptera: Aleyrodidae) in Italy.

Author

Cerasa, Giuliano, Tomasello, Luigi, Melone, Gianluca, Russo, Elia, Siscaro, Gaetano, Cavallaro, Carmelo, Ienco, Annamaria, Laudani, Francesca, Palmeri, Vincenzo, Campolo, Orlando, Garganese, Francesca, Porcelli, Francesco, Pedata, Paolo A., Farina, Vittorio, Gugliuzza, Giovanni, Rizzo, Roberto, Laudonia, Stefania, and Lo Verde, Gabriella

Subjects

*INTRODUCED species, *HYMENOPTERA, *HEMIPTERA, *CHALCID wasps, *ALEYRODIDAE, HOSTS of parasitoids

Abstract

Simple Summary: We report the detection of Encarsia protransvena and confirm Encarsia hispida as parasitoids of the exotic invasive whitefly Singhiella simplex (Hemiptera: Aleyrodidae) in Italy. Native to the Oriental region, S. simplex has now spread worldwide, causing significant damage to exotic fig plants in southern Italy, providing a unique opportunity to study its natural interactions. The whitefly and its parasitoids were collected in some south Italian regions, obtaining two species of Chalcidoidea Aphelinidae. Using a combination of morphological and molecular analyses, we identified E. protransvena, a species reported as the only known natural enemy in the Mediterranean region. This discovery increases our understanding of the biology of both the pest and its parasitoid, offering valuable insights for future biological control programs. As we write this note, we also have obtained specimens of Encarsia hispida from the host collected in Campania. We aim to provide bio-ethological information about the species in the future. Encarsia protransvena (Hymenoptera: Aphelinidae) is recorded here for the first time in Italy as a parasitoid of the whitefly Singhiella simplex (Hemiptera: Aleyrodidae), one of the most invasive alien pests of exotic Ficus species. Singhiella simplex, originating from the Oriental region, has established a global presence. Monitoring of the whitefly and its parasitoids was conducted in the southern areas of Italy, providing crucial insights into their distribution and interactions. The taxonomic identity of E. protransvena, was confirmed by scrutiny of morphological and molecular taxonomic characters. At the time of writing, we also obtained some specimens of Encarsia hispida from the host collected in Campania. We reserve the right to provide bio-ethological information on the species in the future. Comprehensive illustrations and diagnostic features are provided for the host and the parasitoids. An identification key is included for all Encarsia species associated with S. simplex, which provides a valuable tool to distinguish these aphelinid wasps for future research and applications in biological control programs. [ABSTRACT FROM AUTHOR]

Published

2025

24. The Effects of Disturbance on Plant–Pollinator Interactions in the Native Forests of an Oceanic Island (Terceira, Azores).

Author

Boieiro, Mário, Ferreira, Mariana, Ceia-Hasse, Ana, Esposito, Fabiana, Santos, Renata, Pozsgai, Gabor, Borges, Paulo A. V., and Rego, Carla

Subjects

*NATIVE species, *POLLINATORS, *INTRODUCED species, *BOMBUS terrestris, *HONEYBEES, *POLLINATION by bees, *SYRPHIDAE

Abstract

Simple Summary: This study examined how disturbances caused by humans affect the interactions between plants and pollinators in Terceira Island's native forests. Plant and pollinator native species dominate in preserved areas, while disturbed areas see a rise in introduced species of both study groups. Pollinator visits were mostly carried out by generalist species, especially hoverflies. In disturbed areas, non-native bees were key pollinators, while in undisturbed areas, native beetles played an important role. This research revealed that human disturbances alter species composition and the interactions between plants and pollinators. Native generalist species, of both plants and insects, appear to provide ecological opportunities that can facilitate the establishment of introduced species through their broad interaction networks. This study highlights how human activities change the natural biodiversity of island habitats. The native biodiversity of oceanic islands is threatened by human-driven disturbance and by the growing number of species introductions which often interfere with natural ecological processes. Here, we aim to evaluate the effect of anthropogenic disturbance on plant–pollinator interactions in the native forest communities of an oceanic island (Terceira, Azores, Portugal). We found that native species predominated in preserved sites compared to disturbed ones and that the extant plant–pollinator interactions were mostly dominated by generalist species. Dipterans, particularly hoverflies, emerged as the primary flower visitors, while introduced hymenopterans (Apis mellifera and Bombus terrestris) and native beetles were locally important, respectively, in disturbed and preserved sites. Human-driven disturbance seems to be responsible for the observed differences in flower abundance and species composition between sites and to drive changes in specific network metrics (namely nestedness, interaction strength asymmetry, and specialization), particularly in one of the study areas. Our findings also suggest that native generalist species provide ecological opportunities that can facilitate the establishment of introduced species through their broad interaction networks. [ABSTRACT FROM AUTHOR]

Published

2025

25. The Impact of Oxford Nanopore Technologies Based Methodologies on the Genome Sequencing and Assembly of Romanian Strains of Drosophila suzukii.

Author

Ratiu, Attila Cristian, Ionascu, Adrian, and Constantin, Nicoleta Denisa

Subjects

*INSECT pests, *AGRICULTURE, *GENOTYPES, *ECONOMIC impact, *INTRODUCED species, *DROSOPHILA suzukii

Abstract

Simple Summary: The insect pest Drosophila suzukii is considered a growing concern due to agricultural and economic implications, creating an urgent necessity to set out a genotypic foundation with the most modern strategies devised to hinder its negative impact. This study presents the first sequencing project performed in Romania, aiming to characterize two stabilized D. suzukii lines derived from natural populations. Additionally, this study addresses insights and strategies in order to maximize the genome assembly quality. An original scaffolding procedure prototype, dScaff, was implemented for genomic graphical representations and to create a basic linear coverage of a genome of similar quality to the current genome assembly. Background: Drosophila suzukii is a worldwide invasive species with serious economic impacts. Herein, we are presenting the first project of sequencing and assembling the whole genomes of two lines of D. suzukii derived from Romanian local populations using exclusively Oxford Nanopore Technologies data. Methods: We implemented both MinION and Flongle flow-cells and tested the impact of various basecalling models and assembly strategies on the quality of the sought-after representative genome assemblies. Results: We demonstrate that the sup-basecalling model significantly improved the read quality and that adding a relatively small collection of reads had a significant positive impact over the assembly quality. The novel dScaff bioinformatics prototype tool allowed us to perform sequence-level quality tests, as well as to represent assembly selections and display both the contig redundancy and the repeats-enriched genomic sub-sequences. Moreover, we used dScaff to propose a minimal assembly variant corresponding to one of our lines, GB-ls-coga4, which assured a basic linear coverage of the genome and exhibited quality parameters comparable with those particular to the current reference genome assembly. Conclusions: The study presents the first sequencing and assembly of a D. suzukii line in Romania and argues the efficiency of long-read sequencing strategies. [ABSTRACT FROM AUTHOR]

Published

2025

26. Genome-Wide Identification and Characterization of HSP70 Gene Family in Tausch's Goatgrass (Aegilops tauschii).

Author

Xu, Yongmei, Liu, Yue, Yi, Yanjun, and Liu, Jiajia

Subjects

*AEGILOPS, *INTRODUCED species, *CHROMOSOMES, *WHEAT, *GENES

Abstract

Background: Aegilops tauschii, a winter annual grass weed native to Eastern Europe and Western Asia, has become a widespread invasive species in the wheat-growing regions of China due to its high environmental adaptability. This study aims to explore the molecular mechanisms underlying the stress resistance of Tausch's goatgrass, focusing on the HSP70 gene family. Methods: A genome-wide analysis was conducted to identify and characterize the HSP70 gene family in A. tauschii. Afterward, their physicochemical properties, phylogenetic relationships, gene structures, and chromosomal distributions were analyzed. Additionally, cis-acting regulatory elements were predicted to understand their potential role in stress resistance. Results: A total of 19 identified HSP70 family genes were classified into four subfamilies and distributed across all chromosomes. The syntenic analysis revealed extensive homology between Tausch's goatgrass and wheat HSP70 genes. Segmental duplication was found to play a crucial role in the expansion of the HSP70 gene family. The prediction of cis-acting elements suggested that these genes are involved in stress resistance to various environmental conditions. Conclusions: This study provides a comprehensive overview of the HSP70 gene family in A. tauschii, offering insights into their role in stress resistance and their potential application in understanding invasive species behavior and improving wheat resilience. Further research is needed to validate their functional roles in stress adaptation. [ABSTRACT FROM AUTHOR]

Published

2025

27. Model Selection from Multiple Model Families in Species Distribution Modeling Using Minimum Message Length.

Author

Wen, Zihao and Dowe, David L.

Subjects

*SPECIES distribution, *SEARCH algorithms, *PLANT species, *INTRODUCED species, *BIODIVERSITY

Abstract

Species distribution modeling is fundamental to biodiversity, evolution, conservation science, and the study of invasive species. Given environmental data and species distribution data, model selection techniques are frequently used to help identify relevant features. Existing studies aim to find the relevant features by selecting the best models using different criteria, and they deem the predictors in the best models as the relevant features. However, they mostly consider only a given model family, making them vulnerable to model family misspecification. To address this issue, this paper introduces the Bayesian information-theoretic minimum message length (MML) principle to species distribution model selection. In particular, we provide a framework that allows the message length of models from multiple model families to be calculated and compared, and by doing so, the model selection is both accurate and robust against model family misspecification and data aggregation. To find the relevant features efficiently, we further develop a novel search algorithm that does not require calculating the message length for all possible subsets of features. Experimental results demonstrate that our proposed method outperforms competing methods by selecting the best models on both artificial and real-world datasets. More specifically, there was one test on artificial data that all methods got wrong. On the other 10 tests on artificial data, the MML method got everything correct, but the alternative methods all failed on a variety of tests. Our real-world data pertained to two plant species from Barro Colorado Island, Panama. Compared to the alternative methods, for both the plant species, the MML method selects the simplest model while also having the overall best predictions. [ABSTRACT FROM AUTHOR]

Published

2025

28. Community Composition of Epibiont Hydroids of the Naturalized Alien Macroalga Acanthophora spicifera in Pichilingue, Mexico.

Author

Licona Angeles, Jessica, Castañeda Rivero, Francisco Rubén, and Mendoza-Becerril, María A.

Subjects

*INTRODUCED species, *BIODIVERSITY, *HYDROZOA, *RED algae, *MARINE algae

Abstract

Simple Summary: The red macroalgae Acanthophora spicifera (spiny seaweed) is a naturalized alien species at La Paz Bay and appears to tolerate areas with human activity. However, before this study, we were unaware of the type and quantity of hydrozoan epibiont growing on this alga. Therefore, this study aims to examine the community structure of hydrozoan epibionts of A. spicifera in warm and cold seasons. We recorded eleven hydrozoans, of which there are more in summer. This study provides a detailed analysis of the community of hydrozoan epibionts of Acanthophora spicifera in La Paz Bay, Baja California Sur. The investigation was carried out in two season periods, corresponding to the warm and cold seasons on the pier of the Autonomous University of Baja California Sur (UABCS) Pichilingue research station. The percentage of epibiont coverage was calculated and analyzed. The average length of the thalli was 7.8 ± 4.6 cm. Eleven taxa of hydrozoans were recorded; the hydrozoan Obelia cf. dichotoma had the highest coverage percentage, and in summer, there was a higher taxa richness. It is recommended to monitor this macroalga and its epibionts for its wide distribution in the bay, although in UABCS, Pichilingue Pier has not seen epibionts that threaten biological diversity. [ABSTRACT FROM AUTHOR]

Published

2025

29. Introduced Spiders in Panama: Species Distributions and New Records.

Author

Murcia-Moreno, Daniel and Gálvez, Dumas

Subjects

*NATIVE species, *SCIENTIFIC literature, *BIOLOGICAL invasions, *INTRODUCED species, *NUMBERS of species, *BALLAST water

Abstract

Simple Summary: Organisms in nature are often not restricted to a single geographical location and are able to disperse to new areas. However, humans have provided means for many species to disperse over much larger distances (e.g., ships, planes) than those they would normally reach by natural means. Introduced species often can have negative effects for native organisms and local economies (known as invasive species) and for this reason a first step is to quantify the number of introduced species in a particular region. Although arachnids are a group that has been extensively studied in terms of invasive species, some countries lack information on this issue, which is the case for Panama. Here we provide the first list of introduced spiders in Panama. By reviewing scientific literature, museum collections, online databases and fieldwork, we identified 31 species of introduced spiders in the country and six of those were identified by this study. Although none of the species seem to generate negative effects for local ecosystems, more research is needed to evaluate any potential effects to native species. Similarly, monitoring policies should consider spiders as a group of organisms with potential risk for local ecosystems. Biological invasions occur when organisms are moved from their native range and introduced into new areas, where they can spread and become a potential risk for native organisms. Invasive species are well recorded for vertebrates, plants and a number of invertebrates. A taxa for which there is a lack of information in some countries are arachnids, and this is the case of reports on introduced species in Panama. Here, we report the first list of introduced spider species in the country as a result of reviewing scientific literature, online databases, museum collections and carrying out field collections. We report six new introduced species out of a total of 31 species, belonging to 10 families and 25 genera. A large proportion of these species originated from Asia. Moreover, most of the species, with historic data available, have expanded their distribution in the country. We also present a list of species that might be already present in the country or may be introduced in the future. Our work highlights the capability of spiders to invade and spread into new territories. Therefore, monitoring policies and control strategies should also consider them as potential risk for local ecosystems. [ABSTRACT FROM AUTHOR]

Published

2025

30. Molecular Data Confirm the Occurrence of the Allochthonous Gambusia holbrooki (Pisces: Poeciliidae) in Sicily and the Maltese Archipelago.

Author

Vecchioni, Luca, Liuzzo, Mirko, Sciberras, Arnold, Sciberras, Jeffrey, Formosa, Justin, Deidun, Alan, Giacalone, Gabriele, Arizza, Vincenzo, Arculeo, Marco, Marrone, Federico, and Faraone, Francesco Paolo

Subjects

*BODIES of water, *INTRODUCED species, *CYTOCHROME b, *BIOLOGICAL invasions, *BIOTIC communities

Abstract

A major threat to biodiversity is represented by Invasive Alien Species (IAS), particularly on freshwater ecosystems, which are already heavily altered by human activities. Two of the most pernicious IAS are the eastern and western mosquitofish, i.e., Gambusia holbrooki and G. affinis. These two poeciliids are morphologically very close to each other, and soon after their formal description, G. holbrooki was considered a subspecies of G. affinis. In the following years, several studies proved that these two entities belonged to two different species; nevertheless, it was only at the end of the 1990s that their separate taxonomic status was re-established. In the 1920s and 1930s, both G. holbrooki and G. affinis were asynchronously introduced from the United States into Europe and subsequently translocated globally as biocontrol agents of the malaria vector (i.e., the larvae of the Anopheles mosquitoes), with dramatic consequences for the inland water native fauna. However, due to taxonomic uncertainties and nomenclatural instability, for years, there were doubts about which Gambusia species had been introduced in different regions. The first available molecular studies confirmed the occurrence of G. holbrooki in Europe, but no evidence confirming the occurrence of G. affinis was found. Despite this, some records report the occurrence of western mosquitofish in Italy and Malta. Considering the negative effects that the mosquitofish has on the native biota, it is of paramount importance to know the precise biological diversity of the native and non-native species to better implement environmental management strategies to properly preserve the already-fragile waterbodies. Therefore, to check for the possible occurrence of G. affinis in Italy and Malta, we conducted extensive sampling in Sicily (Italy) and in the Maltese archipelago, aiming to verify the identity of Gambusia populations occurring in the study area. Based on sequences of the mitochondrial cytochrome b gene, we consistently observed the occurrence of only G. holbrooki in the investigated area, finding, almost exclusively, the most common haplotype known for the species in the whole invaded range (i.e., "HOL1"). [ABSTRACT FROM AUTHOR]

Published

2025

31. Reimagining Venom Harvesting: Practical Electrostimulation on Vespa velutina Nest in Nature.

Author

Feás, Xesús, Cabadas, Daniel J., and Vidal, Carmen

Subjects

*FIELD research, *ELECTRIC stimulation, *EXTRACTION techniques, *HORNETS, *INTRODUCED species

Abstract

The growing interest in Vespa velutina venom stems primarily from its impact on human health due to stings and its potential pharmacological applications. Traditionally, venom extraction methods have relied on capturing individual hornets or removing and euthanizing entire nests, followed by dissection of venom sacs—a labor-intensive and disruptive process. In this work, we present a novel, non-invasive approach to venom harvesting. Using a portable electrostimulation device, venom was extracted directly from active Vespa velutina nests in their natural habitat. This method eliminates the need for nest manipulation, significantly reducing disturbance and improving efficiency. These visuals highlight the practicality and potential of this groundbreaking technique, opening new avenues for sustainable and scalable venom collection. [ABSTRACT FROM AUTHOR]

Published

2025

32. Allelopathic Properties of the Species Comprising Communities of Invasive Impatiens spp. and Antioxidant System of Invaders' Populations.

Author

Kupcinskiene, Eugenija, Budreviciute, Ruta, Jasionyte, Vaida, Simanaviciute, Laura, Jociene, Lina, Krokaite-Kudakiene, Edvina, Rekasius, Tomas, and Marozas, Vitas

Subjects

*NATIVE species, *INTRODUCED plants, *STINGING nettle, *INTRODUCED species, *ORNAMENTAL plants, *ALNUS glutinosa

Abstract

Globalization has greatly expanded the opportunities for plant species to enter new areas through a wide range of pathways. Elucidating the pathways of spread of alien species and the characteristics of organisms that make them invasive is one of the most pressing problems in ecological sciences. Once established, alien species may have serious implications for communities and vice versa. Allelopathy has been proposed as one of the possible invasion mechanisms of exotic plants. Impatiens parviflora and Impatiens glandulifera are among the widely spread invasive plant species in the Baltic region. The aim of the study was to evaluate the allelopathic effect of invasive Lithuanian Impatiens spp. and their neighboring plants (11 pristine species) using parameters of germination and seedling growth of biotest species Lepidium sativum, and to expand this study by determining the content of phenolic compounds and the radical scavenging activity in the leaf extracts of Lithuanian Impatiens spp. populations (20 of each Impatiens species). Leaf extracts of all species examined had an inhibitory effect on Lepidium sativum germination and morphology of the seedlings. In our study, at all leaf extract concentrations, significantly higher allelopathic potential on radicle growth was characteristic of I. glandulifera compared to native species Alnus glutinosa, Calystegia sepium, and Urtica dioica. At all leaf extract concentrations, I. parviflora showed significantly higher allelopathic potential on radicle growth compared to native species Urtica dioica. Impatiens glandulifera had a higher juglone index than Impatiens parviflora. I. glandulifera also had the highest juglone index compared to all neighboring species studied. The differences between the populations in the content of phenolic compounds, DPPH and ABTS radical scavenging activity were 2.3, 2.2 and 2.7 times for I. glandulifera and 2.6, 5.2 and 2.7 times for I. parviflora. The mean values of total phenolic content, DPPH and ABTS radical scavenging activity of I. glandulifera populations were 2.1, 2.7 and 3.3 times higher than those of I. parviflora populations, respectively. In general, our results about allelopathic potential and phenolics content, as well as free radical scavenging ability, confirm the supreme competitive ability of I. glandulifera compared to both I. parviflora and to the native co-occurring species. [ABSTRACT FROM AUTHOR]

Published

2025

33. Seventies Rule for the Establishment of Non-Native Marine Species.

Author

Coppis, Stan and Gittenberger, Arjan

Subjects

*MARINE ecology, *INTRODUCED species, *RESEARCH personnel, *OCEAN, *PERCENTILES

Abstract

Invasive non-native marine species have significant and far-reaching impacts on ecosystems, recreation, human health, and various industries worldwide. To mitigate this, it is crucial to be able to predict the likelihood of the establishment of non-native species. To that end, we reviewed twenty-two published lists of non-native species from the NE Atlantic and Mediterranean, plus five from other seas and oceans. From 1991 to 2020, 76% of the newly detected species in the NE Atlantic and Mediterranean, on average per region, became established. Similar rates were found for the Baltic Sea, New Zealand, South Africa, and Brazil, respectively: 77%, 73%, 73%, and 67%. A rate of 100% was reported for the Black Sea, however. While percentages fluctuate across regions, they do not significantly seem to differ over time within regions. Where available, using historical data is therefore recommended, taking into account regional circumstances. As a preliminary indicator, we propose the Seventies Rule for predicting the establishment success of newly detected species in the NE Atlantic and Mediterranean. With only five datasets from other areas in our studies, global applicability remains to be demonstrated. Policymakers, managers, and researchers can use our findings to predict establishment and decide on actions for invasive non-native marine species. [ABSTRACT FROM AUTHOR]

Published

2025

34. Non-Indigenous Species (NIS) Know No Geopolitical Borders—An Update of NIS in the Aegean Sea.

Author

Zenetos, Argyro, Doğan, Alper, Bakir, Ahmet Kerem, Chatzigeorgiou, Georgios, Corsini-Foka, Maria, Dağli, Ertan, Evangelopoulos, Athanasios, Meriç, Engin, Stoumboudi, Maria, Taşkin, Ergun, Yokeş, Mehmet Baki, and Galanidi, Marika

Subjects

*INTRODUCED species, *ECOLOGICAL regions, *GEOPOLITICS, *INVENTORIES, *COASTS, *GEOLOGIC hot spots

Abstract

In this work, combined efforts by Greek and Turkish scientists produced an updated validated NIS inventory of the Aegean ecoregion, covering 120 years of records up to August 2024. Of the 342 NIS currently present in the Aegean Sea, the majority (281 species) have invaded the South Aegean, followed by the North Aegean (128 species out of 206 NIS). A total of 73 species were added to the list, while 56 were removed. Overall, unaided spread of Lessepsian immigrants from the Levantine Sea and shipping are equally responsible for NIS reported at the regional level. An increase in publications addressing NIS matches the upward trend of NIS since the mid-1990s, which continues to the present day. While unaided introductions of Lessepsian species and/or direct introductions via the Suez Canal peaked in the South Aegean during 2000–2005, they peaked in 2012–2017 in the North Aegean—a decade later. The opposite pattern was observed in ship-transferred NIS. The spatial distribution of introduction hotspots largely reflects the following phenomena/processes: unaided introduction is witnessed initially in the southeastern Aegean Sea; monitoring efforts are concentrated in vulnerable and at-risk areas; and research efforts relate to the spatial allocation of institutions and marine experts working on marine NIS along the Aegean coasts. [ABSTRACT FROM AUTHOR]

Published

2025

35. Detection of Invasive Species (Siam Weed) Using Drone-Based Imaging and YOLO Deep Learning Model.

Author

Gautam, Deepak, Mawardi, Zulfadli, Elliott, Louis, Loewensteiner, David, Whiteside, Timothy, and Brooks, Simon

Subjects

*CHROMOLAENA odorata, *DEEP learning, *INTRODUCED species, *MACHINE learning, *WEED control

Abstract

This study explores the efficacy of drone-acquired RGB images and the YOLO model in detecting the invasive species Siam weed (Chromolaena odorata) in natural environments. Siam weed is a perennial scrambling shrub from tropical and sub-tropical America that is invasive outside its native range, causing substantial environmental and economic impacts across Asia, Africa, and Oceania. First detected in Australia in northern Queensland in 1994 and later in the Northern Territory in 2019, there is an urgent need to determine the extent of its incursion across vast, rugged areas of both jurisdictions and a need for distribution mapping at a catchment scale. This study tests drone-based RGB imaging to train a deep learning model that contributes to the goal of surveying non-native vegetation at a catchment scale. We specifically examined the effects of input training images, solar illumination, and model complexity on the model's detection performance and investigated the sources of false positives. Drone-based RGB images were acquired from four sites in the Townsville region of Queensland to train and test a deep learning model (YOLOv5). Validation was performed through expert visual interpretation of the detection results in image tiles. The YOLOv5 model demonstrated over 0.85 in its F1-Score, which improved to over 0.95 with improved exposure to the images. A reliable detection model was found to be sufficiently trained with approximately 1000 image tiles, with additional images offering marginal improvement. Increased model complexity did not notably enhance model performance, indicating that a smaller model was adequate. False positives often originated from foliage and bark under high solar illumination, and low exposure images reduced these errors considerably. The study demonstrates the feasibility of using YOLO models to detect invasive species in natural landscapes, providing a safe alternative to the current method involving human spotters in helicopters. Future research will focus on developing tools to merge duplicates, gather georeference data, and report detections from large image datasets more efficiently, providing valuable insights for practical applications in environmental management at the catchment scale. [ABSTRACT FROM AUTHOR]

Published

2025

36. Variation in Plumage Coloration of Rosy‐Faced Lovebirds (Agapornis roseicollis): Links to Sex, Age, Nutritional Condition, Viral Infection, and Habitat Urbanization.

Author

McGraw, Kevin J., Hammond, Reilly, Kraberger, Simona, and Varsani, Arvind

Subjects

*PSITTACINE beak & feather disease, *COLOR of birds, *INNER cities, *BLOOD sugar, *INTRODUCED species

Abstract

Expression of vibrant plumage color plays important communication roles in many avian clades, ranging from penguins to passerines, but comparatively less is known about color signals in parrots (order Psittaciformes). We measured variation in coloration from three plumage patches (red face, blue rump, red tail) in an introduced population of rosy‐faced lovebirds (Agapornis roseicollis) in Phoenix, Arizona, USA and examined color differences between the sexes and ages as well as relationships with several indices of quality, including disease presence/absence (infection with beak and feather disease, Circovirus parrot, and a polyomavirus, Gammapolyomavirus avis), nutritional state (e.g., blood glucose and ketone levels), and habitat type from which birds were captured. We found that different plumage colors were linked to different quality indices: (a) adults had redder faces than juveniles, and birds with brighter faces had lower glucose levels and were less likely to have polyomavirus; (b) males had bluer rumps than females; and (c) birds caught farther from the city had redder and darker tail feathers than those caught closer to the urban center. Our findings reveal diverse information underlying variation in the expression of these disparate, ornate feather traits in an introduced parrot species, and suggest that these condition‐dependent and/or sexually dichromatic features may serve important intraspecific signaling roles (i.e., mediating rival competitions or mate choices). Research Highlights: Lovebird adults had redder faces than juveniles, and birds with brighter faces had lower glucose levels and were less likely to have polyomavirus.Male lovebirds had bluer rumps than females.Lovebirds caught farther from the city had redder and darker feathers than those caught closer to the urban center. [ABSTRACT FROM AUTHOR]

Published

2025

37. Navigating new threats: Prey naïveté in native mammals.

Author

McKee, Rebecca K., Hart, Kristen M., Zeitoune, Spencer, and McCleery, Robert A.

Subjects

*RACCOON, *INTRODUCED species, *PREDATION, *PREDATORY animals, *CROTALUS

Abstract

Invasive predators pose a substantial threat to global biodiversity. Native prey species frequently exhibit naïveté to the cues of invasive predators, and this phenomenon may contribute to the disproportionate impact of invasive predators on prey populations. However, not all species exhibit naïveté, which has led to the generation of many hypotheses to explain patterns in prey responses. These hypotheses primarily fall into two categories: system‐centric hypotheses related to biogeographic isolation (BIH) and species‐centric hypotheses, like the archetype similarity hypothesis (ASH). We tested the predictions of these hypotheses by assessing the response of the common raccoon (Procyon lotor) and hispid cotton rat (Sigmodon hispidus), two native mammal species with divergent snake predation histories, to the cues of the invasive Burmese python (Python bivittatus) in the Florida Everglades (USA). Using giving‐up densities (GUDs), we assessed the responses of both cotton rats and raccoons to life‐size replicas of Burmese pythons and two North American predators—eastern diamondback rattlesnakes (Crotalus adamanteus) and coyotes (Canis latrans). Although cotton rats increased their GUD in the presence of all three predators relative to the novel‐object control, raccoons only increased their GUD in coyote treatments. These results align with the predictions of the ASH but not the BIH, and mirror observed patterns of population declines in invaded areas of the Florida Everglades. More broadly, our findings suggest that naïveté may contribute to the vulnerability of some species to invasive predators even in large continental systems. [ABSTRACT FROM AUTHOR]

Published

2025

38. Anthropogenic forests simplify seed‐ but not pollen‐dispersal networks.

Author

DA SILVA, Luis P., COUTINHO, António Pereira, RAMOS, Jaime A., and HELENO, Ruben H.

Subjects

*SEED dispersal, *ANTHROPOGENIC effects on nature, *POLLEN dispersal, *FOREST regeneration, *INTRODUCED species, *EUCALYPTUS

Abstract

Natural native forests are rapidly being replaced by anthropogenic forests often with a strong presence of invasive alien plant species. Eucalypt species are widely planted worldwide, with Eucalyptus globulus plantations being particularly expressive in Portugal. Poor forestry practices often lead to the associated expansion of invasive species, such as Acacia dealbata. However, we still know relatively little about the functioning of anthropogenic forests, such as seed and pollen dispersal services. Here, we compared bird abundance and richness and the seed and pollen dispersal networks in both forest types. Anthropogenic forests presented lower bird abundance, and smaller, more simplified, and more random (abundance‐based) seed dispersal services than those of natural forests. Interestingly, the pollen dispersal network was more similar than the seed dispersal network for both forest types and dominated by opportunistic and neutral processes, given the absence of specialized nectarivorous. The proportion of birds transporting seeds decreased, while those carrying pollen significantly increased in the anthropogenic forest compared to the native forest. Our work highlights the impact of anthropogenic forests on bird abundance, with consequences for seed dispersal services and forest regeneration. [ABSTRACT FROM AUTHOR]

Published

2025

39. Effects of the non-native Arapaima gigas on native fish species in Amazonian oxbow lakes (Bolivia).

Author

Rejas, Danny, Winder, Monika, Cholima, Reinaldo, and Oberdorff, Thierry

Subjects

*NATIVE fishes, *INTRODUCED fishes, *ECOLOGICAL impact, *INTRODUCED species, *FLOODPLAINS

Abstract

The introduction of non-native fish species into new environments has raised global concerns due to potential ecological impacts on recipient ecosystems. A previous study focusing on the introduced fish species Arapaima gigas in Bolivian Amazon waters showed that its isotopic niche significantly overlapped with most co-occurring native fish species, suggesting potential competition. To evaluate this hypothesis, we extended here the investigation by comparing the trophic position and isotopic niche width of eleven abundant native fish species inhabiting both colonized and non-colonized floodplain lakes. We found lower trophic positions in colonized versus non-colonized lakes only for native piscivores, mostly driven by a shift towards increased dietary proportion of detritivorous fishes. Conversely, results showed that the isotopic niche width of most fish species analyzed (i.e. 10 over 11 species) did not significantly decrease in colonized compared to non-colonized lakes. Our overall results suggest potentially low competitive interactions between A. gigas and native fishes, with the notable exception of piscivorous species. We attribute our findings to the high abundance of available resources in Amazon oxbow lakes. [ABSTRACT FROM AUTHOR]

Published

2025

40. Culturomics and iEcology provide novel opportunities to study human and social dimensions of alien species introductions.

Author

Novoa, Ana, Jarić, Ivan, Pipek, Pavel, and Pyšek, Petr

Subjects

*INTRODUCED species, *SOCIAL factors, *HUMAN experimentation, *BIODIVERSITY

Abstract

To prevent future invasions, it is essential to understand the multiple factors that determine which alien species are being introduced and where. It is not yet fully understood how ecological factors and a set of human and social factors together shape alien species introductions. The emerging fields of conservation culturomics and iEcology offer low-cost and broad-scale valuable tools for studying the factors influencing the introduction of alien species. By adopting an interdisciplinary approach, we can advance our understanding of the factors determining alien species introductions and plan conservation outcomes more effectively. Invasive alien species negatively impact ecosystems, biodiversity, human societies, and economies. To prevent future invasions, it is crucial to understand both the ecological and the human and social factors determining whether a species is picked up, transported, and introduced beyond their native range. However, we often have little or no information on key human and social factors. Here, we explore how alien species introductions are shaped by a combination of ecological and human and social factors and highlight the potential of the emerging fields of conservation culturomics and iEcology for disentangling their relative importance. We argue that quantifying and assessing the relative importance of the human and social dimensions of alien species introductions can substantially improve our understanding of the invasion process. [ABSTRACT FROM AUTHOR]

Published

2025

41. Considering Invasive Alien Species as A Food Source: Current Motivations and Future Implications for Controlling Through Consumption.

Author

Seaman, Alana N., Franzidis, Alexia, and Nelson, Miranda

Subjects

*INTRODUCED species, *LOCAL foods, *MOTIVATION (Psychology), *GASTRONOMY, *POPULARITY

Abstract

Invasive alien species (IAS) represent a largely untapped yet environmentally friendly, healthy, and often flavorful food source. Defined as organisms living in nonnative environments wherein they adversely impact their host ecosystems, IAS are inherently a condition of geography. Control through consumption, or harvesting IAS for the purpose of eating them, appears to be a viable option in both curbing the proliferation of many problem species and providing a source of fresh local food. Anecdotal evidence suggests interest in the practice is gaining popularity. Thus, the purpose of this exploratory study is to examine what motivates people to engage in grassroots control-through-consumption efforts. The findings revealed that people were motivated to pursue control-through-consumption activities by several factors, including flavors, versatilely, and the challenge of using invasive-based ingredients; level of commitment; environmental benefits; medicinal usage; and as an outlet for leisure. Overlapping benefits were particularly powerful in motivating participation. [ABSTRACT FROM AUTHOR]

Published

2025

42. Tolerance of neonates of freshwater snails to starvation and desiccation and its relationship to invasiveness.

Author

Amondarain, Rocío Pilar, Tamburi, Nicolás Eduardo, and Martín, Pablo Rafael

Subjects

*FRESHWATER snails, *POMACEA canaliculata, *ECOLOGICAL impact, *NEWBORN infants, *INTRODUCED species

Abstract

Biological invasions threaten biodiversity and cause severe ecological and socioeconomic impacts. Freshwater snails are very diverse and many became invasive or have the potential to do so. Studies on the relationship between bioecological traits and invasiveness are needed to prevent new invasions. The tolerance to environmental stressors of the neonate, one of the most vulnerable ontogenetic phases, may be an important component of invasiveness in freshwater snails. We hypothesize that tolerance of neonates to environmental stressors increases the chances of population establishment and persistence and hence of becoming an invader. We predict that the neonates of invasive freshwater snails will show higher survival under starvation and desiccation than those of non-invasive ones and tested this experimentally for three species of each type. We also estimated neonate volume as a proxy of tolerance. We found that the desiccation stress was more severe than the starvation one. The tolerance to starvation of two of the invasive species (Melanoides tuberculata and Pomacea canaliculata) was much higher than that of remaining species but the pattern was less clear for desiccation, which was more directly related to neonate volume. None of the non-invasive species showed high tolerance to these stressors and the invasive Physella acuta groups with them in this regard. On the whole our prediction about the relationship between neonate tolerance and invasiveness stands for five out of the six species tested, indicating that the tolerance of neonates of freshwater snails merits more research effort on other stressors to gain a sounder comprehension of their invasiveness. [ABSTRACT FROM AUTHOR]

Published

2025

43. Characterizing spatial patterns among freshwater fishes and shrimps of the Poso River (Sulawesi, Indonesia) using DNA barcoding.

Author

Wibowo, Arif, Kurniawan, Kurniawan, Prakoso, Vitas Atmadi, Ginanjar, Rendy, Rochman, Fathur, Zamroni, Mochammad, Atminarso, Dwi, Sumarto, Bayu Kreshna Adhitya, Chadijah, Andi, Irawan, Deni, Deniansen, Tri, Suriani, Irma, Syamsi, Agus Noor, Achmadi, Andi, Surbani, Indah Lestari, Akbar, Sabda Alam, Hubert, Nicolas, Robinson, Wayne, Stuart, Ivor G., and Baumgartner, Lee J.

Subjects

*CYTOCHROME oxidase, *ECOSYSTEM health, *FISHWAYS, *INTRODUCED species, *GENETIC barcoding, *FISH conservation

Abstract

Fish biodiversity assessments are vital for understanding threats and aquatic ecosystem health. In the Poso River, Central Sulawesi, changes in biodiversity are influenced by habitat alteration, non-native species, and overfishing. This study evaluates fish and crustacean biodiversity in the Poso River system to address these challenges for improving fisheries management, conservation, and fish passage integration into hydropower development. The present biodiversity study utilized a comprehensive methodology that encompassed both traditional taxonomic approaches and DNA barcoding, specifically targeting the mitochondrial cytochrome c oxidase subunit-1 (COI) gene for accurate species identification and spatial boundary validation. The survey was conducted in the upstream, hydropower area and downstream areas of the river. We found 27 species of fish in the Poso River, including both native (e.g., Anguilla celebesensis, Oryzias nebulosus, Rhyacichthys aspro) and non-native species (e.g., Melanochromis auratus, Amphilophus trimaculatus, Oreochromis niloticus). Two International Union for Conservation of Nature (IUCN) red listed endangered species were also observed (e.g., Adrianichthys poptae and Mugilogobius sarasinorum). DNA barcoding was performed to examine species spatial boundaries. The fish population in the Poso River was dominated by non-native species, accounting for 85.70% of the total population. The upstream reaches had the highest fish abundance and diversity, while the downstream reaches had the lowest. There was, however, no significant difference in species richness and diversity across different locations and seasons. The dominance of non-native species in the Poso River necessitates the improvement of existing fishways within the hydropower dams potentially through the development of selective technology that can block the distribution of these non-native species. This research highlights the critical issue of non-native species proliferation and the potential threat they pose to native fish populations, providing valuable insights for conservation and management efforts in Indonesia and similar ecosystems worldwide. [ABSTRACT FROM AUTHOR]

Published

2025

44. Swimming capacity and behaviour of juvenile round goby (Neogobius melanostomus).

Author

Chow, Eddie, Zarini, Sina, Coffield, Olivia, Chippindale, Quinn, and Balshine, Sigal

Subjects

*NEOGOBIUS, *SWIMMING, *GOBIIDAE, *INTRODUCED species, *SWIMMERS, *FISH locomotion

Abstract

The round goby (Neogobius melanostomus) is an example of an invasive species where the adults are unimpressive swimmers and yet via human activities, they have managed to rapidly invade the Laurentian Great Lakes, the Baltic Sea and many rivers in Western Europe. The secondary spread from human‐impacted sites has been attributed to adult life stages, despite their poor swimming capacity. However, the swimming capacity of early life stages of round goby has not been considered before. We therefore quantified critical swimming performance (Ucrit), sprint swimming performance (Usprint), burst swimming speeds and swimming behaviours in early juvenile round goby that ranged between 10 and 25 mm in body length. The average Ucrit, Usprint and burst speeds of these fish were an impressive 0.22, 0.34 and 0.67 m/s respectively, with the capacity of these early juveniles ranging between 41 and 79% of what has been documented for adults. Notably, fish spent more time actively swimming as current speed increased, while station holding decreased. Taken together, our findings highlight that despite their small size, early juvenile round goby are not simply passively moved by currents but have movement capacities that approach that of the much larger adults. Our study emphasizes the need to consider the swimming capacity of all life stages as this information will better predict dispersal and range expansion and will help to design mitigation efforts to potentially prevent the spread of this and other invasive species. [ABSTRACT FROM AUTHOR]

Published

2025

45. Antennal sensory array in the Argentine ant, Linepithema humile, and two carpenter ants, Camponotus mus and Camponotus aethiops.

Author

Moauro, Mariel Alejandra, Crespo, José Emilio, and Josens, Roxana

Subjects

CARPENTER ants, NATIVE species, STATISTICAL sampling, FOOD habits, INTRODUCED species

Abstract

Ants play a crucial role in both natural settings, impacting ecosystem functions, and in human-altered environments, where they can potentially cause harm. The Argentine ant, Linepithema humile , is recognized globally as an important invasive species, known for its ability to colonize diverse habitats and causing significant ecological and economic damage. In contrast, species of the Camponotus genus, while sharing similar food habits, typically have more restricted ranges and are also highly adapted to human-modified environments. This study serves as a foundational investigation into the antennal morphology of L. humile and two Camponotus species—one native and one from the invasive range of L. humile. We employed a systematic sampling method to analyse the distribution and relative abundance of chaetic, basiconic, and trichoidea sensilla along the last antennomere. Our results indicate that Camponotus and. L. humile have similar proportions of the sensilla analysed, with chaetic and basiconic sensilla increasing towards the tip, while trichoidea sensilla tended to decrease. Notably, both native species of Argentina, L. humile and Camponotus mus , exhibited significantly higher abundances of chaetic and trichoidea curvata sensilla compared to Camponotus aethiops from France. This study establishes a framework for future research aimed at exploring the chemosensory responses associated with these sensilla, paving the way for deeper insights into how these ants interact with their environment. [ABSTRACT FROM AUTHOR]

Published

2025

46. First Record of the Ambrosia Beetle Xylosandrus compactus (Coleoptera, Curculionidae) in Croatia.

Author

Pernek, Milan, Hrašovec, Boris, Lacković, Nikola, Domjan, Ozana, and Avtzis, Dimitrios

Subjects

AMBROSIA beetles, BARK beetles, INTRODUCED species, WOODY plants, CURCULIONIDAE

Abstract

(1) Background: The invasive ambrosia beetle Xylosandrus compactus (Coleoptera, Curculionidae, Scolytinae) poses an increasing risk of being introduced into new environments, mostly unintentionally, via wood products, live plants, and wood packaging materials. It is already spreading across Europe and causing growing concern due to its destructive behavior and by infesting a wide range of woody plants. The aim of this research is to identify X. compactus in Croatia and compile a list of recorded host plants. (2) Methods: Fieldwork was conducted through the assessment of beetle presence and infestation levels on host plants showing visible symptoms of attack, as well as through sampling of the beetles. Adult specimens of bark beetles were examined under a microscope, and molecular analysis was done. DNA was extracted from three randomly chosen individuals. The sequences were compared using the BLAST tool in the NCBI GenBank database. (3) Results and Conclusions: X. compactus was confirmed as a new record in Croatia, infesting laurel (Laurus nobilis), holm oak (Quercus ilex), laurestine (Viburnum tinus), olive (Olea sp.), myrtle (Myrtus communis), strawberry tree (Arbutus unedo), and pittosporum (Pittosporum tobira). [ABSTRACT FROM AUTHOR]

Published

2025

47. Generalist Pests Cause High Tree Infestation, but Specialist Pests Cause High Mortality.

Author

Guo, Qinfeng and Potter, Kevin M.

Subjects

TREE mortality, FOREST monitoring, PEST control, HOST plants, INTRODUCED species

Abstract

Whether specialist pests can cause more damage to their host plants than generalist pests is a critical issue in both basic biology and nonnative species management. To date, there is no consensus on how we define "specialist vs. generalist" pests and how we should assess forest damage or impacts (volume loss vs. mortality). Here, we comparatively investigate whether nonnative generalist pests may cause more damage to US forests than nonnative specialist pests using two frameworks: (1) the "binary or dichotomous approach" through a largely arbitrary classification of specialist and generalist pests, and (2) the "specialist-generalist continuum". We measure damage or impact in two ways, one by the total host volume infested and the other by total host mortality. In the binary comparison, generalists infested more host tree volume per pest species than specialists, but the latter (mostly pathogens) caused higher mortality of host trees. The "specialist-generalist continuum" concept could reveal a different pattern regarding pest invasions and impacts when there is no clear separation between generalists and specialists in a community or region. Therefore, we suggest using the "continuum" approach to address related questions in future studies, thus offering new insights into pest invasions that have deeper implications for forest pest monitoring and management. [ABSTRACT FROM AUTHOR]

Published

2025

48. FLORISTIC DIVERSITY OF THE STARA DRAVA WATER BODY NEAR BILJE (NORTHEAST CROATIA).

Author

Mazur, Dora, Ozimec, Siniša, and Prlić, Dragan

Subjects

BODIES of water, INTRODUCED species, PLANT diversity, FRESHWATER plants, PLANT species

Abstract

The Stara Drava water body, located near the village of Bilje, northeast Croatia, with diverse aquatic, wetland and land habitats, maintains numerous wild fauna and flora species. The vascular flora of the Stara Drava was studied in the period from May to September 2020. A total of 142 plant species belonging to 116 genera and 53 families were recorded. The most species-rich plant families were Asteraceae, Poaceae and Lamiaceae, while the most common life forms were hemicryptophytes, hydrophytes and therophytes. Freshwater macrophytes comprise 24 species and have the significant role in the aquatic ecosystem. Alien flora is represented by 19 species, of which 14 are invasive alien plant species. According to their conservation status, five species are designated in one of the threats, and four species are proclaimed as strictly protected species in Croatia. [ABSTRACT FROM AUTHOR]

Published

2025

49. Local inventories for effective management of alien species: insights from the alien flora of Jammu, Kashmir, and Ladakh, India.

Author

Zargar, Shabir A., Reshi, Zafar A., Ganie, Aijaz H., Dutt, Harish Chander, Shah, Manzoor A., and Sharma, Namrata

Subjects

BIOLOGICAL invasions, INTRODUCED plants, INTRODUCED species, PLANT species, LIFE sciences

Abstract

The broad-scale inventories of alien species reveal macroecological patterns, but these often fall short in guiding local-level management strategies. Local authorities, tasked with on-the-ground management, require precise knowledge of the occurrence of invasive species tailored to their jurisdictional boundaries. What proves critical at the local scale may not hold the same significance at national or regional levels. In this context, we present a comprehensive inventory of alien vascular plant species across the ecologically diverse Jammu, Kashmir, and Ladakh (JKL) regions of India. Our study identifies 312 alien plant species belonging to 210 genera and 61 families. These alien plant species are predominantly herbaceous dicots. Of these, ca. 62% are naturalized, and 28% exhibit invasive behavior in the region. Introductions have been primarily unintentional, with a notable fraction (26%) introduced for ornamental purposes. The families with the highest number of alien plant species are Asteraceae (46 species), Fabaceae (28 species), and Amaranthaceae (23 species). The genera with the most species are Amaranthus (10 species), Solanum (8 species), Iris (7 species), and Oenothera (5 species). The Jammu region has the highest number of alien plant species, with 221 documented species, including 99 unique to this region. This is followed by the Kashmir Himalaya, with 212 alien species, 70 of which are exclusive to the area. In Ladakh, 76 alien species are recorded, with only one exclusive to the region. Fifty-five alien species are common across all three regions. In each region, more than 50% of species are naturalized, while invasive species constitute about 30% of the total. Therophytes are the dominant life-form category across all regions. Only 18% of species are shared across the three regions. Our findings emphasize the imperative of integrating local-scale knowledge into invasion management frameworks, ensuring targeted and effective strategies aligned with local administrative capacities. By bridging the gap between broad ecological patterns and localized management needs, our study advocates for a nuanced approach to invasive species management that accounts for regional and local specificity. [ABSTRACT FROM AUTHOR]

Published

2025

50. People's Perception and Awareness towards Plant Invasion, Its Impacts on Forest Ecosystem Services and Livelihood: A Tale of Central Himalayas.

Author

Kumar, Mukesh and Garkoti, Satish Chandra

Subjects

INTRODUCED species, LIFE sciences, NATIVE species, INTRODUCED plants, NATIVE plants

Abstract

Plant invasion is a leading threat to biodiversity, ecosystem services and human wellbeing worldwide. In the central Himalayas intentionally or accidentally introduced invasive alien plant species (IAPS) facilitate their own establishment and spread, which is altering forest structure, vegetation composition, species diversity and livelihood. To understand the perception and awareness amongst local communities about invasive alien and native plants and its effect on local livelihood, a questionnaire-based study was conducted in 10 villages of Nainital district, Uttarakhand, India. Household data of 179 respondents were triangulated with key informants such as community leaders, teachers and older people. A majority of the respondents were found to be more familiar with the native species (Berberis asiatica, Pyracantha crenulata and Rubus ellipticus) than IAPS (Ageratina adenophora and Lantana camara). Both the IAPS negative impacts on native biodiversity, ecosystem services and livelihood. During the last two decades IAPS have encroached on various forests and caused a decrease in native species in the study area. According to the local perception, deforestation, forest fire, climate change, increased transport, light weight seed, no use and grazing etc. have been the main factors behind the spread of IAPS. A. adenophora invaded both chir pine (Pinus roxburghii) and banj oak (Quercus leucotrichophora) forests while L. camara remained more prominent in low elevation open canopy chir pine forest. Uprooting is the primary method used to control IAPS in crop fields and forests. The studied villages have not reported awareness and education programs about the IAPS. Our study demonstrates the wide range of perspectives on the threat posed by IAPS to forest ecosystems and natural resources. Education could help to raise awareness about the issue and could be beneficial in managing and controlling invasion in the Himalayan region. [ABSTRACT FROM AUTHOR]

Published

2025