Your search keyword '"island biogeography"' showing total 3,510 results

101. Is Sicily an island too far for Papilio saharae? Why is Papilio machaon rushed in where P. saharae is feared to tread? (Lepidoptera: Papilionidae).

Author

Cassar, Louis-F.

Subjects

*LEPIDOPTERA, *LEGUMES, *DNA analysis, *BIOGEOGRAPHY

Abstract

Papilio saharae Oberthür, 1879 (Papilionidae) was reported from Sicily on a handful of occasions in the last decade or so. On at least two instances, the taxon was claimed to have been discovered in museum collections, respectively by Moonen (2012) at the Zoological Museum, Amsterdam (ZMA) and Leraut (2016) at the Muséum National d'Histoire Naturelle in Paris. These records and a proposed nomenclatural change for P. machaon melitensis, were subsequently rejected by Coutsis et al. (2018). The present contribution provides a critique of the methodologies employed by the various authors and acknowledges that there remains much scope to investigate the P. machaon-complex further while maintaining that a more holistic approach is required to better understand the multidimensional dynamics that have shaped the biogeography of the central Mediterranean area. [ABSTRACT FROM AUTHOR]

Published

2023

102. Bird populations and species lost to Late Quaternary environmental change and human impact in the Bahamas

Author

Steadman, David W and Franklin, Janet

Subjects

Earth Sciences, Physical Geography and Environmental Geoscience, Geology, Biological Sciences, Animal Distribution, Animals, Bahamas, Biodiversity, Birds, Extinction, Biological, Fossils, Humans, Models, Theoretical, extinction, human impacts, island biogeography, landbirds, Pleistocene-to-Holocene transition

Abstract

Comparing distributional information derived from fossils with the modern distribution of species, we summarize the changing bird communities of the Bahamian Archipelago across deep ecological time. While our entire dataset consists of 7,600+ identified fossils from 32 sites on 15 islands (recording 137 species of resident and migratory birds), we focus on the landbirds from four islands with the best fossil records, three from the Late Pleistocene (∼25 to 10 ka [1,000 y ago]) and one from the Holocene (∼10 to 0 ka). The Late Pleistocene sites feature 51 resident species that have lost one or more Bahamian populations; 29 of these species do not occur in any of the younger Holocene sites (or in the Bahamas today). Of these 29 species, 17 have their closest affinities to species now or formerly living in Cuba and/or North America. A set of 27 species of landbirds, most of them extant somewhere today, was more widespread in the Bahamas in the prehistoric Holocene (∼10 to 0.5 ka) than they are today; 16 of these 27 species were recorded as Pleistocene fossils as well. No single site adequately captures the entire landbird fauna of the combined focal islands. Information from all sites is required to assess changes in Bahamian biodiversity (including endemism) since the Late Pleistocene. The Bahamian islands are smaller, flatter, lower, and more biotically depauperate than the Greater Antilles, resulting in more vulnerable bird communities.

Published

2020

103. Recent geospatial dynamics of Terceira (Azores, Portugal) and the theoretical implications for the biogeography of active volcanic islands

Author

Rijsdijk, Kenneth F., Buijs, Simon, Quartau, Rui, Aguilée, Robin, Norder, Sietze J., Ávila, Sérgio P., de Medeiros, Sara Maria Teixeira, Nunes, João Carlos Carreiro, Elias, Rui Bento, Melo, Carlos S., Stocchi, Paulo, Koene, Erik F. M., Seijmonsbergen, A. C. (Harry), de Boer, W. M. (Thijs), and Borges, Paulo A.V.

Subjects

Azores, equilibrium theory, general dynamic theory, glacial sensitive theory, island biogeography, lava deltas, sea level change, species pump theory, volcanic oceanic islands

Abstract

Ongoing work shows that species richness patterns on volcanic oceanic islands are shaped by surface area changes driven by longer time scale (>1 ka) geological processes and natural sea level fluctuations. A key question is: what are the rates and magnitudes of the forces driving spatial changes on volcanic oceanic islands which in turn affect evolutionary and biogeographic processes? We quantified the rates of surface-area changes of a whole island resulting from both volcanogenic flows and sea level change over the last glacial-interglacial (GI) cycle (120 ka) for the volcanically active island of Terceira, (Azores, Macaronesia, Portugal). Volcanogenic activity led to incidental but long-lasting surface area expansions by the formation of a new volcanic cone and lava-deltas, whereas sea level changes led to both contractions and expansions of area. The total surface area of Terceira decreased by as much as 24% per time step due to changing sea levels and increased by 37% per time step due to volcanism per time step of 10 ka. However, while sea levels nearly continuously changed the total surface area, volcanic activity only impacted total surface area during two time steps over the past 120 ka. The surface area of the coastal and lowland region (here defined as area

Published

2020

104. Marine lakes as biogeographical islands: a physical model for ecological dynamics in an insular marine lake, Palau

Author

Blanchette, François, Montroy, Sydney, Patris, Sharon, and Dawson, Michael N.

Subjects

Island biogeography, marine lake, model, physical oceanography, limnology, simulations, tunnels, tropical storm, weather

Abstract

Marine lakes are emerging ecological and evolutionary natural experimental systems, with genetically isolated resident populations that exhibit extreme population dynamics and rapid phenotypic change. Marine lakes are posited to be marine islands, however, unlike terrestrial islands for which rich models have been developed over the past half-century, we know little of the mechanisms driving changes in marine lakes. This is a critical knowledge gap in efforts to reconcile theory on, or distinguish differences among, island and island-like systems. To reduce this critical knowledge gap, we present a mathematical model describing marine lakes based on a case study of Jellyfish Lake (Ongeim’l Tketau, Mecherchar: OTM), Palau. Empirical data show that marine lakes exhibit delayed and reduced tidal motions, suggesting exchange of a limited amount of water with the neighboring (‘mainland’) ocean. Our model tracks changes in lake level, allowing determination of an exchange rate that is a physical null model for biological colonization and a proxy for colonization distance in island biogeography theory. In addition, we track horizontally averaged in-lake quantities such as salinity and temperature (i.e., marine weather, climate) and stratification (i.e., habitat) — that are known to influence resident species’ distributions and population dynamics — by solving an advection-diffusion equation. We find that weather, ocean conditions, groundwater, and exchanges through tunnels determine the abiotic environment in OTM. By comparing simulations and data, we estimate the difficult-to-measure properties of the surrounding groundwater — the ‘matrix’ in the vernacular of habitat islands — and give a range of realistic values for the effective diffusion coefficient. This coefficient is found to increase in a tropical storm, suggesting that other drivers can be important during perturbations.

Published

2020

105. A molecular phylogeny of Southeast Asian Cyrtandra (Gesneriaceae) supports an emerging paradigm for Malesian plant biogeography

Author

Atkins, Hannah J., Bramley, Gemma L.C., Johnson, Melissa A., Kartonegoro, Abdulrokhman, Nishii, Kanae, Kokubugata, Goro, Moeller, Michael, and Hughes, Mark

Subjects

ancestral range estimation, biogeographic stochastic mapping, Cyrtandra, floristic exchange, island biogeography, molecular dating, recent divergence, Sahul shelf, Sunda shelf, Wallacea

Abstract

The islands of Southeast Asia comprise one of the most geologically and biogeographically complex areas in the world and are a centre of exceptional floristic diversity, harbouring 45,000 species of flowering plants. Cyrtandra, with over 800 species of herbs and shrubs, is the largest genus in the family Gesneriaceae and is one of the most emblematic and species-rich genera of the Malesian rainforest understorey. The high number of species and tendency to narrow endemism make Cyrtandra an ideal genus for examining biogeographic patterns. We sampled 128 Cyrtandra taxa from key localities across Southeast Asia to evaluate the geo-temporal patterns and evolutionary dynamics of this clade. One nuclear and four chloroplast regions were used for phylogenetic reconstruction, molecular dating, and ancestral range estimation. Results from the dating analysis suggest that the great diversity of Cyrtandra seen in the Malesian region results from a recent radiation, with most speciation taking place in the last five million years. Borneo was recovered as the most likely ancestral range of the genus, with the current distribution of species resulting from a west to east migration across Malesia that corresponds with island emergence and mountain building. Lastly, our investigation into the biogeographic history of the genus indicates high levels of floristic exchange between the islands on the Sunda shelf and the important role of the Philippines as a stepping stone to Wallacea and New Guinea. These patterns underlie much of the plant diversity in the region and form an emerging paradigm in Southeast Asian plant biogeography.

Published

2020

106. Early recognition by Ball and Hooker in 1878 of plant back-colonization (boomerang) events from Macaronesia to Africa

Author

Fernández-Palacios, José María and Whittaker, Robert J.

Subjects

back-colonization, Canary Islands, island biogeography, island evolution, Macaronesia

Abstract

Recent work in island biogeography has shown that back-colonization (‘boomerang’ events) from islands to continents have occurred more frequently than previously understoodWe report possibly the earliest inference of this pattern, by John Ball and Joseph Dalton Hooker in a book published in 1878.

Published

2020

107. Molecular phylogenetics and systematics of two enteric helminth parasites (Baylisascaris laevis and Diandrya vancouverensis) in the Vancouver Island marmot (Marmota vancouverensis)

Author

McIntyre A. Barrera, Jasmine K. Janes, and Jamieson C. Gorrell

Subjects

Phylogeography, Coevolution, Island biogeography, Parasite conservation, Cryptic biodiversity, Zoology, QL1-991

Abstract

Island biogeography can promote rapid diversification and speciation via geographic isolation and novel selection pressures. These same factors can threaten the persistence of island endemics by limiting gene flow and suitable habitat. Host-parasite interactions on islands introduce another dimension of complexity as both species must simultaneously adapt to exogenous and endogenous factors. One example of host-parasite island biogeography is the critically endangered Vancouver Island (VI) marmot (Marmota vancouverensis) which is endemic to VI, Canada, and hosts two enteric helminth parasites: Baylisascaris laevis, an ascarid nematode common in tribe Marmotini, and Diandrya vancouverensis, an anoplocephalid cestode endemic to the VI marmot. Here, we aligned novel sequences from B. laevis (six genes) and D. vancouverensis (two genes) with congeneric sequences from GenBank. Phylogenies reconstructed using Bayesian and maximum parsimony approaches consistently placed B. laevis in a morphoclade, and D. vancouverensis in a monophyletic clade sister to D. composita. Mean pairwise sequence divergence between D. vancouverensis and D. composita (9.06 ± 1.94%) surpassed commonly accepted thresholds for species delimitation, whereas divergence between VI and mainland populations of B. laevis (1.12 ± 0.78%) was comparable to (or sometimes greater than) pairwise divergence values between other Baylisascaris species. Disparity in the genetic divergence of each parasite may reflect differences in their life cycle, host specificity, virulence, and the chronological extent of their isolation. Detailed descriptions of the population genetic structure and effects of both parasites on their shared host are crucial next steps in understanding the history of B. laevis and D. vancouverensis on VI and informing conservation efforts for the VI marmot and its enteric helminth parasites.

Published

2022

108. Island biogeography, competition, and abiotic filtering together control species richness in habitat islands formed by nurse tree canopies in an arid environment

Author

Ali A. Al-Namazi and Stephen P. Bonser

Subjects

competition, facilitation, island of fertility, island biogeography, nurse plant, plant–plant interactions, Biology (General), QH301-705.5

Abstract

The theory of island biogeography predicts that island size is a key predictor of community species richness. Islands can include any habitat surrounded environments that are inhospitable to the resident species. In arid environments, nurse trees act as islands in an environment uninhabitable to many plant species, and the size of the canopy controls the size of the understory plant community. We predicted that plant species richness will be affected by the area of the habitat and decrease with habitat isolation. We sampled the adult and seedling plant communities at canopy center, canopy edge, and outside canopy microhabitats. We found that species richness in both adult and seedling communities increases with increasing island area. However, richness in seedling communities was greater than in adult communities, and this effect was greatest at the canopy center microhabitat. Competition has been demonstrated to be more important in controlling species distributions near the canopy center, and stress is more important near the canopy edge. Thus, our results suggest that neutral forces, biotic interactions, and abiotic filtering act together to control species richness in these island communities.

Published

2022

109. Fish Distribution in Tropical Bidong Island, South China Sea Under Influence from Nearshore Sea Acidification

Author

Ariffin, Muhammad Syamsul Aznan, Ramlee, Mohd Noor Afiq, Pati, Siddhartha, Edinur, Hisham Atan, Nelson, Bryan Raveen, Chuan, Ong Meng, editor, Martin, Melissa Beata, editor, Nurulnadia, Mohd Yusoff, editor, and Afzan Azmi, Wahizatul, editor

Published

2022

110. Island biodiversity and human palaeoecology in the Philippines : a zooarchaeological study of Late Quaternary faunas

Author

Ochoa, Janine and Barker, Graeme

Subjects

560, faunal change, foraging, tropical forests, oceanic island, conservation, Last Glacial Maximum, Holocene, extinction, translocation, diversity, biostratigraphy, subsistence, Southeast Asia, island biogeography, Palawan, Luzon, vertebrates, mammals, endemism

Abstract

This thesis is a zooarchaeological analysis of Late Quaternary faunal assemblages from the Philippines, ca. 25,000 to 2,000 years ago. The research utilises several approaches within a broad ecological framework. The first element of the ecological approach is informed by zooarchaeology's niche in palaeoecology and its application to modern biodiversity conservation. This approach is crucial for a tropical faunal region known for its exceptionally high levels of biodiversity and endemism but that also has a relative paucity of fossil studies. In this regard, the thesis aims to investigate the evolutionary and biogeographic history of these faunas. The second element of the framework uses the faunal subsistence record to explore human palaeoecology in the Philippines and its relevance to understanding indigenous ecological knowledge systems in the past. Using archaeofaunal material from Luzon and Palawan Islands, the study presents important fossil discoveries and palaeoecological insights into the dynamics of faunal change in the Philippines. The faunal analyses also allow the first attempt to construct Late Quaternary biostratigraphic sequences for the archipelago. For Palawan Island, the thesis presents an MIS-2 (25,000-20,000 cal BP) faunal record based on the re-excavation and re-dating of Pilanduk Cave. This record provides evidence for the presence of the tiger on Palawan during the Last Glacial Maximum and morphological confirmation of the presence of two locally extinct deer taxa. For Luzon Island, the study presents evidence from Minori and Musang Caves for previously unknown and extinct endemic giant cloud rats, as well as for the human translocation of macaques and palm civets. In line with the second element of the framework, the zooarchaeological analyses also provide foraging histories of local human populations in tropical island environments. The subsistence data present the responses and possible roles of humans in observed faunal and environmental changes. Human impacts are possibly implicated in the Late Holocene extirpation of the hog deer of Palawan and two endemic cloud rat species on Luzon. The subsistence records also present island-specific strategies for tropical rainforest foraging across the Holocene. Taken together, the findings offer diachronic perspectives on indigenous ecological knowledge systems as manifested in these changing local settings.

Published

2019

111. Habitat heterogeneity determines species richness on small habitat islands in a fragmented landscape.

Author

Yan, Yongzhi, Jarvie, Scott, Zhang, Qing, Han, Peng, Liu, Qingfu, Zhang, Shuangshuang, and Liu, Pengtao

Subjects

*FRAGMENTED landscapes, *SPECIES diversity, *HABITATS, *BIODIVERSITY conservation, *HETEROGENEITY, *PATH analysis (Statistics)

Abstract

Aim: The small‐island effect (SIE), as an exception to the species–area relationship, has received much attention in true island systems. However, the prevalence and related patterns of the SIE have not been well evaluated in habitat island systems. Here, we aimed to identify the existence of SIE for habitat islands in fragmented landscapes and determine the key factors influencing species richness on small habitat islands. Location: Inner Mongolia Autonomous Region, China. Taxon: Vascular plants. Methods: Based on 78 grassland fragments in fragmented landscapes of the agro‐pastoral ecotone of northern China, we used piecewise regression, path analysis and null models to investigate the SIE of the species–area relationship. We then used a multi‐model selection to evaluate the impacts of four influencing factors (instability, isolation, habitat heterogeneity and surrounding productivity) on species richness (including habitat specialists and generalists) on small habitat islands within the range of SIE. Results: We found an obvious threshold of 5.1 ha in the species–area relationship, below which habitat island area had no direct and indirect effects on species richness. Small habitat islands (<5.1 ha) host a lower percentage of habitat specialists and a higher percentage of generalists. On small habitat islands, species richness was positively affected by habitat heterogeneity while negatively affected by instability and isolation. Habitat heterogeneity had the strongest effect on species richness, positively affecting specialist richness while negatively affecting generalist richness. Main Conclusions: There is an SIE in fragmented landscapes of the agro‐pastoral ecotone of northern China, which should be considered in biodiversity conservation. Habitat heterogeneity had a key role in determining the pattern of species richness, especially for small islands. Habitat specialists and generalists had different SIE‐related patterns. Our study highlights the importance of considering different ecological groups of species to improve our understanding of the SIE in fragmented habitats. [ABSTRACT FROM AUTHOR]

Published

2023

112. Long‐term trajectories of non‐native vegetation on islands globally.

Author

Walentowitz, Anna, Lenzner, Bernd, Essl, Franz, Strandberg, Nichola, Castilla‐Beltrán, Alvaro, Fernández‐Palacios, José María, Björck, Svante, Connor, Simon, Haberle, Simon G., Ljung, Karl, Prebble, Matiu, Wilmshurst, Janet M., Froyd, Cynthia A., de Boer, Erik J., de Nascimento, Lea, Edwards, Mary E., Stevenson, Janelle, Beierkuhnlein, Carl, Steinbauer, Manuel J., and Nogué, Sandra

Subjects

*FOSSIL pollen, *ISLANDS, *VEGETATION dynamics, *INTRODUCED species, *PLANT species

Abstract

Human‐mediated changes in island vegetation are, among others, largely caused by the introduction and establishment of non‐native species. However, data on past changes in non‐native plant species abundance that predate historical documentation and censuses are scarce. Islands are among the few places where we can track human arrival in natural systems allowing us to reveal changes in vegetation dynamics with the arrival of non‐native species. We matched fossil pollen data with botanical status information (native, non‐native), and quantified the timing, trajectories and magnitude of non‐native plant vegetational change on 29 islands over the past 5000 years. We recorded a proportional increase in pollen of non‐native plant taxa within the last 1000 years. Individual island trajectories are context‐dependent and linked to island settlement histories. Our data show that non‐native plant introductions have a longer and more dynamic history than is generally recognized, with critical implications for biodiversity baselines and invasion biology. [ABSTRACT FROM AUTHOR]

Published

2023

113. Small area and low connectivity constrain the diversity of plant life strategies in temporary ponds.

Author

Herceg‐Szórádi, Zsófia, Demeter, László, and Csergő, Anna Mária

Subjects

*PLANT diversity, *PLANT species diversity, *LIFE history theory, *PONDS, *REGULATION of rivers, *SPECIES diversity

Abstract

Aim: (i) To determine whether area and connectivity of temporary ponds can predict plant species diversity, and the diversity and abundance of different plant life histories; (ii) To explore whether pond connectivity with the river prior to river regulation predicts better plant diversity patterns than current pond connectivity, suggestive of possible effects of connectivity loss. Location: Eastern Carpathian Mountains, Romania, Europe. Methods: We fitted linear and generalized linear models (LM and GLM) to examine whether pond area and current distance from the Olt River predict plant species richness, Shannon diversity and relative cover of different social behaviour types and overall plant species richness and Shannon diversity. Using historical maps, we measured pond distance from the river ca. 60 years before the Olt River was regulated, and we refitted the LM and GLM models using pond area and past distance from the river as independent variables. Results: Total plant species richness increased with pond area, and it decreased with the distance from the river, but total plant Shannon diversity index was affected, positively, only by pond area. The strength of responses to pond area and connectivity of species richness, Shannon diversity and relative cover varied across the different social behaviour types. Past and current distances between ponds and riverbeds had similar effects on plant diversity, with some evidence for stronger effect of the present connectivity on specialist species Shannon diversity and a weaker effect on disturbance tolerants, generalists and competitors. Main Conclusions: Pond area and connectivity with the landscape are important predictors of the diversity of plant life history strategies, and therefore, useful tools in pond conservation. Consistent species richness and Shannon diversity responses of wetland specialists to pond area and connectivity make this life history type well suited for monitoring pond condition. [ABSTRACT FROM AUTHOR]

Published

2023

114. Island area and remoteness shape plant and soil bacterial diversity through land use and biological invasion.

Author

Xu, Mingshan, Yang, Anna, Yang, Xiaodong, Cao, Wenting, Zhang, Zengke, Li, Zengyan, Zhang, Yu, Zhang, Huaguo, You, Wenhui, Yan, En‐Rong, and Wardle, David A.

Subjects

*BACTERIAL diversity, *BIOLOGICAL invasions, *PLANT-soil relationships, *PINEWOOD nematode, *LAND use, *ISLANDS, *SOIL salinity

Abstract

Biodiversity is declining dramatically due to human‐driven land use change and biological invasion, but our knowledge of how such drivers influence plant and heterotroph diversity on island ecosystems remains limited. Historically island biogeography theory has focused solely on direct effects of island size and remoteness on biodiversity, but these factors can also indirectly affect species gain and/or loss through impacting land use change and biological invasion.We built the structural equation model to explore direct effects of island size and remoteness, and indirect effects of these factors via land use intensity and pinewood nematode invasion, on the diversity of plants and soil bacteria across 37 continental shelf islands in the largest land‐bridge archipelago in eastern China.As expected we found that increasing island area directly promoted plant diversity. However, land use intensity increased with island area which also promoted plant diversity, and loss of pine forest by the pinewood nematode invasion increased with island remoteness which reduced plant diversity. Island remoteness only indirectly reduced plant diversity through increasing pine forest loss. Soil bacterial diversity was directly negatively impacted by island remoteness, and indirectly negatively impacted by island remoteness through increased soil electrical conductivity likely caused by greater salinity from sea spray. Furthermore, soil bacterial diversity was indirectly promoted by island area through increased plant diversity and decreased soil electrical conductivity, and indirectly reduced by pine forest loss through decreased plant diversity.Our findings highlight that island biogeography theory has relevance to understanding human impacts in the Anthropocene, and that there is a need to more explicitly recognizing how island size and remoteness affect biodiversity not only directly, but also indirectly via their effects on human‐induced drivers of biodiversity, such as land use change and biological invasion. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2023

115. Small islands and large biogeographic barriers have driven contrasting speciation patterns in Indo-Pacific sunbirds (Aves: Nectariniidae).

Author

Marcaigh, Fionn Ó, Kelly, David J, O'Connell, Darren P, Analuddin, Kangkuso, Karya, Adi, McCloughan, Jennifer, Tolan, Ellen, Lawless, Naomi, and Marples, Nicola M

Subjects

*ARCHIPELAGOES, *GENETIC speciation, *GENETIC distance, *BIOLOGISTS, *FEATHERS

Abstract

Birds of the Indo-Pacific have provided biologists with many foundational insights. This study presents evidence for strong phylogeographic structure in two sunbird species from the heart of this region, the olive-backed sunbird, Cinnyris jugularis , and the black sunbird, Leptocoma aspasia. We assessed population divergence using morphological, plumage, bioacoustic and molecular data (mitochondrial ND2 / ND3). Our findings indicate that the olive-backed sunbird should be recognized as multiple species, because birds from Sulawesi and the Sahul Shelf are closely related to each other, but widely separated from those in other regions. In addition, we provide evidence for an endemic species on the Wakatobi Islands, an archipelago of deep-sea islands off south-east Sulawesi. That a small bird could exhibit a range all the way from Sulawesi to Australia, while diverging on a small archipelago within this range, illustrates the complex interplay between dispersal and speciation. Our black sunbird genetic data also suggest unrecognized population structure, despite relatively weak plumage divergence. Black sunbirds in Sulawesi are likely to be a separate species from those in New Guinea, with a mean genetic distance of 9.1%. Current taxonomy suggests these sunbird species transcend classic biogeographic barriers, but our results suggest that these barriers are not easily bypassed. [ABSTRACT FROM AUTHOR]

Published

2023

116. Fruit Size in Indo-Malayan Island Plants Is More Strongly Influenced by Filtering than by In Situ Evolution.

Author

Brodie, Jedediah F., Henao-Diaz, L. Francisco, Pratama, Bayu, Copeland, Conner, Wheeler, Travis, and Helmy, Olga E.

Subjects

*ISLAND plants, *ARCHIPELAGOES, *FRUIT, *COMMUNITIES, *SPANNING trees, *WOODY plants

Abstract

Community trait assembly, the formation of distributions of phenotypic characteristics across coexisting species, can occur via two main processes: filtering of trait distributions from the regional pool and in situ phenotypic evolution in local communities. But the relative importance of these processes remains unclear, largely because of the difficulty in determining the timing of evolutionary trait changes and biogeographic dispersal events in phylogenies. We assessed evolutionary and biogeographic transitions in woody plant species across the Indo-Malay archipelago, a series of island groups where the same plant lineages interact with different seed disperser and seed predator assemblages. Fruit size in 2,650 taxa spanning the angiosperm tree of life tended to be smaller in the Sulawesi and Maluku island groups, where frugivores are less diverse and smaller bodied, than in the regional source pool. While numerous plant lineages (not just small-fruited ones) reached the isolated islands, colonists tended to be the smaller-fruited members of each clade. Nearly all of the evolutionary transitions to smaller fruit size predated, often substantially, organismal dispersal to the islands. Our results suggest that filtering rather than within-island evolution largely determined the distribution of fruit sizes in these regions. [ABSTRACT FROM AUTHOR]

Published

2023

117. Genetic differentiation within species exhibiting widespread gene flow; phylogeography of the downstream-inhabiting species Ephemera orientalis (Insecta: Ephemeroptera).

Author

Takenaka, Masaki, Kogawara, Hiroaki, Bae, Yeon Jae, and Tojo, Koji

Subjects

*GENE flow, *MAYFLIES, *INSECTS, *PHYLOGEOGRAPHY, *NUCLEAR DNA

Abstract

Elucidating the mechanism of formation of biota on islands will contribute to our understanding of the evolutionary mechanisms that generate biodiversity. In this study, we focus on the evolutionary history of Ephemera orientalis , which is distributed in East Asia. Phylogenetic analyses were performed using the mitochondrial DNA 16S rRNA, cytochrome oxidase subunit I and the nuclear DNA histone H3 regions. We found that these mayflies exhibit genetic differentiation between the Japanese and Korean populations. The Tsushima population, which is located between the Japanese Islands and the Korean Peninsula, was positioned genetically as a continental clade. The populations of the Fuji-Goko Lakes and Lake Ashino-ko in Central Japan were genetically differentiated from the other populations. The genetic structures over a wide area of the Japanese Islands were confirmed and a loose genetic regionality was observed, which was thought to result from secondary contact of the north-eastern and south-western lineages after their long separation by a geohistorical division event. We have gathered important knowledge regarding the evolutionary history of organisms on islands and investigated the colonization and isolation of biological populations within a species with high dispersal ability. [ABSTRACT FROM AUTHOR]

Published

2023

118. Habitat diversity, resource availability and island age in the species‐area relationship.

Author

Carey, Mark, Boland, John, and Keppel, Gunnar

Subjects

*HABITATS, *RANDOM effects model, *ARCHIPELAGOES

Abstract

Aim: The island species–area relationship (ISAR) assumes that the area of islands is homogeneous, or scales with environmental heterogeneity across an archipelago, which is not always the case. We compare the performance of models that adjust or substitute for island area with measures of habitat diversity, island age and resource availability for two taxonomic groups. Location: Five hotspot archipelagos (Azores, Galapagos, Hawaii, Cape Verde, Canary Islands). Taxa: Vascular plants, birds. Methods: We used the mathematical framework of the power law to compare relevant models, treating the one containing only area as a null model against which others were compared. Data were collated from databases and the literature. Models were compared using linear regression within archipelagos and via mixed effect models with archipelago as a random effect. Results: Weighting of island area by habitat diversity and resource availability systematically improved statistical significance and model fits versus the area only power law. Models including island age did not show the same systematic improvement in model fits. For vascular plants, weighting islands by resource availability (energy and water) performed better than weighting by habitat diversity, although for birds these weightings performed equally well. Main Conclusions: Given that islands within archipelagos are fairly heterogeneous in climate, topography and geology, it is worth accounting for this in ISARs. Our results suggest that, for islands in volcanic hotspot archipelagos, this is best done by using direct measures of habitat diversity and resource availability rather than using island age as a proxy. We, therefore, recommend using direct measures, rather than proxies, when investigating the drivers of biodiversity patterns on islands. [ABSTRACT FROM AUTHOR]

Published

2023

119. Island plant functional syndromes and competition with invasive species.

Author

Barton, Kasey E. and Fortunel, Claire

Subjects

*PLANT competition, *ISLAND plants, *INTRODUCED species, *INVASIVE plants, *PLANT performance, *SPECIES diversity, *GEOLOGIC hot spots

Abstract

Island floras are diverse with exceptionally high rates of endemicity, and they are also severely threatened. Invasive plants are widespread on islands, but whether islands are particularly susceptible to invasion or island species are more vulnerable to displacement, or both, remains unclear. As part of the "island plant syndrome," it has been predicted that island plants have convergently evolved conservative resource use, slow growth rates, and weak competitive abilities in response to moderate climates and the presumed absence of competition in communities with relatively low species richness. Yet, functional trait approaches have provided mixed evidence to support this prediction, and direct tests of competition as neighbour effects on plant performance are lacking. Considering the extensive environmental heterogeneity that exists within islands and among islands, it seems more likely that diverse functional strategies, spanning conservative to acquisitive, have evolved in island plants. Furthermore, assessing island plant syndrome predictions through comparisons with invasive species, which are nonrandom subsets of continental plants, is a flawed approach. Future studies that compare functional strategies of native island versus native continental plants and direct tests for competition between native and invasive island plants within the local scale at which competition occurs, and that consider non‐additivities with other simultaneous global threats, are urgently needed to conserve these biodiversity hotspots. [ABSTRACT FROM AUTHOR]

Published

2023

120. Links to rare climates do not translate into distinct traits for island endemics.

Author

Cutts, Vanessa, Hanz, Dagmar M., Barajas‐Barbosa, Martha Paola, Schrodt, Franziska, Steinbauer, Manuel J., Beierkuhnlein, Carl, Denelle, Pierre, Fernández‐Palacios, José María, Gaüzère, Pierre, Grenié, Matthias, Irl, Severin D. H., Kraft, Nathan, Kreft, Holger, Maitner, Brian, Munoz, François, Thuiller, Wilfried, Violle, Cyrille, Weigelt, Patrick, Field, Richard, and Algar, Adam C.

Subjects

*FLOWERING of plants, *ADAPTIVE radiation, *SPECIES diversity, *LEAF area, *ISLANDS, *BIOTIC communities

Abstract

Current models of island biogeography treat endemic and non‐endemic species as if they were functionally equivalent, focussing primarily on species richness. Thus, the functional composition of island biotas in relation to island biogeographical variables remains largely unknown. Using plant trait data (plant height, leaf area and flower length) for 895 native species in the Canary Islands, we related functional trait distinctiveness and climate rarity for endemic and non‐endemic species and island ages. Endemics showed a link to climatically rare conditions that is consistent with island geological change through time. However, functional trait distinctiveness did not differ between endemics and non‐endemics and remained constant with island age. Thus, there is no obvious link between trait distinctiveness and occupancy of rare climates, at least for the traits measured here, suggesting that treating endemic and non‐endemic species as functionally equivalent in island biogeography is not fundamentally wrong. [ABSTRACT FROM AUTHOR]

Published

2023

121. Spatial differentiation of background matching strategies along a Late Pleistocene range expansion route.

Author

Spadavecchia, Giada, Chiocchio, Andrea, Costantini, David, Liparoto, Anita, Bisconti, Roberta, and Canestrelli, Daniele

Subjects

PLEISTOCENE Epoch, HYLIDAE, PREDATION, ANIMAL populations, CLIMATE change, PHENOTYPIC plasticity, ANIMAL population density

Abstract

Late Pleistocene climate changes have deeply impacted the range dynamics of temperate species. While the genetic legacy of these dynamics has been widely investigated, little is known about their phenotypic consequences. Anti-predatory strategies offer intriguing opportunities to study phenotypic evolution in response to dispersal dynamics since the ability to avoid predation can be pivotal for populations colonising new environments. Here we investigated the spatial differentiation of background colour matching strategies along a Late Pleistocene range expansion route of a temperate species, the Tyrrhenian tree frog Hyla sarda. Using common-garden experiments, we tested whether individuals from the source area (Sardinia) and individuals from the newly founded area (Corsica) differ in two components of the camouflage strategy: colour change abilities and background choice behaviour. We found a remarkable spatial structure in both colour change abilities and background choice behaviour, across the expansion range. Tree frogs from the source area displayed higher colour change abilities and a more pronounced preference for a greener background, with respect to tree frogs from the newly colonised area. Our results support the intriguing hypothesis that Late Pleistocene biogeographic history might be an overlooked major player in shaping current spatial patterns of phenotypic traits variation across animal populations. [ABSTRACT FROM AUTHOR]

Published

2023

122. Evolutionary biogeography of the Revillagigedo Archipelago, Mexico.

Author

García-Navarrete, Patricia G., Escalante, Tania, Espinosa, David, and Morrone, Juan J.

Subjects

*ARCHIPELAGOES, *BIOGEOGRAPHY, *CLADISTIC analysis, *ANIMAL species, *PLANT species, *COASTS

Abstract

The biotic assembly of the Revillagigedo Archipelago, Mexico, was analysed under an evolutionary biogeographic framework. We undertook a parsimony analysis of endemicity with progressive character elimination of 194 plant and animal species, which allowed us to identify the archipelago as a complex area or node where Nearctic and Neotropical biotic components overlap. We undertook a cladistic biogeographic analysis using the phylogenetic information of 42 taxon-area cladograms, from which one general-area cladogram was obtained: (Revillagigedo, (Sonoran, (Baja California, (Veracruzan, Pacific Lowlands)))). These results suggest that the Revillagigedo Archipelago may be classified as a province, although we prefer to keep it as a district of the Pacific Lowlands province. We identified two cenocrons (temporally integrated set of taxa) that can be dated to the Pliocene–Pleistocene: one Nearctic that dispersed from the Baja California Peninsula, and another Neotropical where the species dispersed from the Pacific coast to the islands. The geological information and the general-area cladograms allowed us to propose a geobiotic scenario for the archipelago where the islands are probably the result of volcanism associated with the oceanic Mathematician Ridge, and the arrival of the cenocrons to the archipelago may have occurred during the Pliocene–Pleistocene, after the islands were available for colonisation. [ABSTRACT FROM AUTHOR]

Published

2023

123. Biogeographic origins and drivers of alien plant invasions in the Canary Islands.

Author

Morente‐López, Javier, Arjona, Yurena, Salas‐Pascual, Marcos, Reyes‐Betancort, J. Alfredo, del Arco‐Aguilar, Marcelino J., Emerson, Brent C., García‐Gallo, Antonio, Jay‐García, Louis S., Naranjo‐Cigala, Agustín, and Patiño, Jairo

Subjects

*PLANT invasions, *INTRODUCED plants, *ISLANDS, *NUMBERS of species, *ARCHIPELAGOES, *INTRODUCED species, *INVASIVE plants

Abstract

Aim: Understanding the historical and contemporaneous drivers of invasion success in island systems can decisively contribute to identifying sources and pathways that are more likely to give rise to new invaders. Based on a floristic‐driven approach, we aimed at determining the origins of the invasive alien flora of the Canary Islands and shedding light in the mechanisms shaping their distribution within the archipelago. Location: Canary Islands. Taxon: Vascular plants. Methods: An updated checklist of the invasive alien flora of the Canary Islands was assembled along with complementary information related to the native biogeographical regions, stage of invasiveness and dates of naturalization. Statistical models were employed to describe differences in the number of species over space and time. We also used multivariate techniques to evaluate competing hypotheses related to the mechanisms driving invasive floristic composition within the archipelago. Results: We provided a list of 149 alien plant species with a certain degree of invasiveness. The greatest number of invasive species originated from the Neotropics followed by the Cape Region, tropical Africa and the Mediterranean Basin. We observed a slow but steady increase in numbers of invasive species until the 1950s, followed by a stronger rise thereafter. In order to explain composition dissimilarity of the invasive flora among islands, a climatic matching hypothesis was fully supported, with geographic isolation and contemporary human‐mediated connectivity hypotheses receiving less and null support respectively. Main Conclusions: We showed that the Neotropical region is the main source of plant invasions to the Canary Islands, outnumbering those from other regions with a Mediterranean‐type bioclimate. The assembly of the invasive flora within the archipelago appears to be driven primarily by climate, but with geographic distance also playing a role. This study calls for archipelago‐dependent assessments of the underlying mechanisms that contribute to plant invasion success within insular systems. [ABSTRACT FROM AUTHOR]

Published

2023

124. The 'island syndrome' is an alternative state.

Author

Terborgh, John

Subjects

*PREDATION, *COMMUNITIES, *ISLANDS, *BIRD communities, *SPECIES diversity, *ANOLES

Abstract

Aim: In the half‐century since publication of the Theory of Island Biology, ecologists have come to recognize the importance of predation as a decisive determinant of alternate states in many ecosystems. Island species are notorious for their vulnerability to introduced predators, yet the strength of island predator regimes has not been fully incorporated into our understanding of the forces that structure island consumer communities. Location: The Greater and Lesser Antilles. Taxon: Birds and Anolis lizards. Methods: Field surveys of sclerophyll and rainforest sites on islands ranging in size from 3.5 km2 Terre‐de‐Haut to 76,000 km2 Hispaniola. Results: Evidence gathered in the 1970s and 1980s shows that Antillean anoles live at higher densities on fewer resources, grow more slowly, reproduce later and live longer than mainland counterparts in conformity with the 'island syndrome'. Data from this period show that Antillean bird communities display density overcompensation, community saturation, size‐structured foraging guilds, low species diversity and low species packing, all traits consistent with the island syndrome and a regime of low predation and intense competition. Mainland species and communities display none of these features. Main conclusions: I propose that the island syndrome is an alternative state that distinguishes low‐predation island communities from high‐predation mainland counterparts. It follows that strong mainland predation regimes tend to prevent island species from colonizing. Conversely, invasion‐resistant, size‐structured island communities, despite low species diversity, prevent mainland species from colonizing islands. These predictions are experimentally testable with Anolis lizards and, if confirmed, could set island biogeography on a new course. [ABSTRACT FROM AUTHOR]

Published

2023

125. Can we ignore trait-dependent colonization and diversification in island biogeography?

Author

Xie, Shu, Valente, Luis, and Etienne, Rampal S

Subjects

*COLONIZATION (Ecology), *BIOGEOGRAPHY, *PHYLOGENETIC models, *ISLANDS, *GENETIC speciation

Abstract

The application of state-dependent speciation and extinction models to phylogenetic trees has shown an important role for traits in diversification. However, this role remains comparatively unexplored on islands, which can include multiple independent clades resulting from different colonization events. To explore whether assuming no dependence on traits leads to bias in inference on island dynamics, we extend an island biodiversity model, DAISIE (Dynamic Assembly of Islands through Speciation, Immigration, and Extinction) to include trait-dependent diversification simulations, and evaluate the robustness of the inference model which ignores this trait-dependence. Our results indicate that when the differences between colonization, extinction, and speciation rates between trait states are moderate, the model shows negligible error for a variety of island diversity metrics, suggesting that island diversity dynamics can be accurately estimated without the need to explicitly model trait dependence. We conclude that for many biologically realistic scenarios with trait-dependent diversification and colonization, this simple trait-less inference model is informative and robust to trait effects on colonization, speciation, and extinction. Nonetheless, our new simulation model may provide a useful tool for studying patterns of trait variation. [ABSTRACT FROM AUTHOR]

Published

2023

126. Inter- and intra-island speciation and their morphological and ecological correlates in Aeonium (Crassulaceae), a species-rich Macaronesian radiation.

Author

Messerschmid, Thibaud F E, Abrahamczyk, Stefan, Bañares-Baudet, Ángel, Brilhante, Miguel A, Eggli, Urs, Hühn, Philipp, Kadereit, Joachim W, Santos, Patrícia dos, Vos, Jurriaan M de, and Kadereit, Gudrun

Subjects

*SYMPATRIC speciation, *CRASSULACEAE, *ISLANDS, *GENETIC speciation, *RADIATION

Abstract

Background and Aims The most species-rich and ecologically diverse plant radiation on the Canary Islands is the Aeonium alliance (Crassulaceae). In island radiations like this, speciation can take place either within islands or following dispersal between islands. Aiming at quantifying intra- and inter-island speciation events in the evolution of Aeonium , and exploring their consequences, we hypothesized that (1) intra-island diversification resulted in stronger ecological divergence of sister lineages, and that (2) taxa on islands with a longer history of habitation by Aeonium show stronger ecological differentiation and produce fewer natural hybrids. Methods We studied the biogeographical and ecological setting of diversification processes in Aeonium with a fully sampled and dated phylogeny inferred using a ddRADseq approach. Ancestral areas and biogeographical events were reconstructed in BioGeoBEARS. Eleven morphological characters and three habitat characteristics were taken into account to quantify the morphological and ecological divergence between sister lineages. A co-occurrence matrix of all Aeonium taxa is presented to assess the spatial separation of taxa on each island. Key Results We found intra- and inter-island diversification events in almost equal numbers. In lineages that diversified within single islands, morphological and ecological divergence was more pronounced than in lineages derived from inter-island diversification, but only the difference in morphological divergence was significant. Those islands with the longest history of habitation by Aeonium had the lowest percentages of co-occurring and hybridizing taxon pairs compared with islands where Aeonium arrived later. Conclusions Our findings illustrate the importance of both inter- and intra-island speciation, the latter of which is potentially sympatric speciation. Speciation on the same island entailed significantly higher levels of morphological divergence compared with inter-island speciation, but ecological divergence was not significantly different. Longer periods of shared island habitation resulted in the evolution of a higher degree of spatial separation and stronger reproductive barriers. [ABSTRACT FROM AUTHOR]

Published

2023

127. Annotated checklist of the beetles (Coleoptera) of the California Channel Islands.

Author

Gimmel, Matthew L., Johnston, M. Andrew, and Caterino, Michael S.

Subjects

BEETLES, LITERATURE reviews, ELECTRONIC records, ISLANDS, SPECIES diversity

Abstract

The beetle fauna of the California Channel Islands is here enumerated for the first time in over 120 years. We provide an annotated checklist documenting species-byisland diversity from an exhaustive literature review and analysis of a compiled dataset of 26,609 digitized specimen records to which were added over 3,000 individual specimen determinations. We report 825 unique species from 514 genera and 71 families (including 17 new family records) comprising 1,829 species-by-island records. Species totals for each island are as follows: Anacapa (74); San Clemente (197); San Miguel (138); San Nicolas (146); Santa Barbara (64); Santa Catalina (370); Santa Cruz (503); and Santa Rosa (337). This represents the largest list of species published to date for any taxonomic group of animals on the Channel Islands; despite this, we consider the checklist to be preliminary. We present evidence that both inventory and taxonomic efforts on Channel Islands beetles are far from complete. Rarefaction estimates indicate there are at least several hundred more species of beetles yet to be recorded from the islands. Despite the incomplete nature of existing records, we found that species diversity is highly correlated with island area. We report 56 species which are putatively geographically restricted (endemic) to the Channel Islands, with two additional species of questionable endemic status. We also report 52 species from the islands which do not natively occur in the southern California region. [ABSTRACT FROM AUTHOR]

Published

2023

128. Host and geography together drive early adaptive radiation of Hawaiian planthoppers.

Author

Goodman, Kari, Prost, Stefan, Bi, Ke, Brewer, Michael, and Gillespie, Rosemary

Subjects

Nesosydne, exon capture, island biogeography, planthopper, population genomics, Adaptation, Physiological, Animals, Computational Biology, Ecology, Exons, Genetics, Population, Geography, Hawaii, Hemiptera, Host Specificity, Islands, Male, Metagenomics, Phylogeny, Plants, Species Specificity, Transcriptome

Abstract

The interactions between insects and their plant host have been implicated in driving diversification of both players. Early arguments highlighted the role of ecological opportunity, with the idea that insects escape and radiate on new hosts, with subsequent hypotheses focusing on the interplay between host shifting and host tracking, coupled with isolation and fusion, in generating diversity. Because it is rarely possible to capture the initial stages of diversification, it is particularly difficult to ascertain the relative roles of geographic isolation versus host shifts in initiating the process. The current study examines genetic diversity between populations and hosts within a single species of endemic Hawaiian planthopper, Nesosydne umbratica (Hemiptera, Delphacidae). Given that the species was known as a host generalist occupying unrelated hosts, Clermontia (Campanulaceae) and Pipturus (Urticaceae), we set out to determine the relative importance of geography and host in structuring populations in the early stages of differentiation on the youngest islands of the Hawaiian chain. Results from extensive exon capture data showed that N. umbratica is highly structured, both by geography, with discrete populations on each volcano, and by host plant, with parallel radiations on Clermontia and Pipturus leading to extensive co-occurrence. The marked genetic structure suggests that populations can readily become established on novel hosts provided opportunity; subsequent adaptation allows monopolization of the new host. The results support the role of geographic isolation in structuring populations and with host shifts occurring as discrete events that facilitate subsequent parallel geographic range expansion.

Published

2019

129. Leap‐frog dispersal and mitochondrial introgression: Phylogenomics and biogeography of Limnonectes fanged frogs in the Lesser Sundas Archipelago of Wallacea

Author

Reilly, Sean B, Stubbs, Alexander L, Karin, Benjamin R, Bi, Ke, Arida, Evy, Iskandar, Djoko T, and McGuire, Jimmy A

Subjects

Genetics, Climate Action, amphibians, exon-capture, genomics, Indonesia, island biogeography, phylogeography, Earth Sciences, Environmental Sciences, Biological Sciences, Ecology

Abstract

Aim: The Lesser Sunda Islands are situated between the Sunda and Sahul Shelves, with a linear arrangement that has functioned as a two-way filter for taxa dispersing between the Asian and Australo-Papuan biogeographical realms. Distributional patterns of many terrestrial vertebrates suggest a stepping-stone model of island colonization. Here we investigate the timing and sequence of island colonization in Asian-origin fanged frogs from the volcanic Sunda Arc islands with the goal of testing the stepping-stone model of island colonization. Location: The Indonesian islands of Java, Lombok, Sumbawa, Flores and Lembata. Taxon: Limnonectes dammermani and L. kadarsani (Family: Dicroglossidae). Methods: Mitochondrial DNA was sequenced from 153 frogs to identify major lineages and to select samples for an exon-capture experiment. We designed probes to capture sequence data from 974 exonic loci (1,235,981 bp) from 48 frogs including the outgroup species, L. microdiscus. The resulting data were analysed using phylogenetic, population genetic and biogeographical model testing methods. Results: The mtDNA phylogeny finds L. kadarsani paraphyletic with respect to L. dammermani, with a pectinate topology consistent with the stepping-stone model. Phylogenomic analyses of 974 exons recovered the two species as monophyletic sister taxa that diverged ~7.6 Ma with no detectable contemporary gene flow, suggesting introgression of the L. dammermani mitochondrion into L. kadarsani on Lombok resulting from an isolated ancient hybridization event ~4 Ma. Within L. kadarsani, the Lombok lineage diverged first while the Sumbawa and Lembata lineages are nested within a Flores assemblage composed of two parapatrically distributed lineages meeting in central Flores. Biogeographical model comparison found strict stepping-stone dispersal to be less likely than models involving leap-frog dispersal events. Main conclusions: These results suggest that the currently accepted stepping-stone model of island colonization might not best explain the current patterns of diversity in the archipelago. The high degree of genetic structure, large divergence times, and absent or low levels of migration between lineages suggests that L. kadarsani represents five distinct species.

Published

2019

130. The evolution of plant syndromes on islands

Author

Whittaker, Robert J.

Subjects

island evolution, island syndromes, island plants, island biogeography

Published

2019

131. A study on coupling of the grassland pattern and the flood process in Poyang Lake based on the island biogeography theory

Author

Shiqi Luo, Wenbo Chen, Qiongbing Xiong, and Lei He

Subjects

flooding process, grassland, island biogeography, landscape diversity, poyang lake, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350

Abstract

As a typical type of landscape in Poyang Lake, the largest freshwater lake in China, grassland has been deeply disturbed by the flooding process. However, how the vegetation landscape diversity responds to the flooding process of Poyang Lake remains unclear. In this paper, we randomly selected 10 grasslands in the period of a normal water level from 2010 to 2019 to study the coupling relationship between the vegetation landscape diversity and flooding process, and established the related models based on the island biogeography theory. The results are as follows. (1) There is a positive correlation between the grassland vegetation landscape diversity and grassland area, the best fitting model is the logarithmic function. (2) Using the general dynamic model of island biogeography as a reference, the model of diversity–area–flooding established by using the area of grassland and duration as predictor variables has the highest goodness-of-fit. (3) If grassland was flooded for 120–130 days and the maximum depth of flooding is not more than 2.5 m every year, the vegetation landscape diversity in grasslands will be the highest. The findings have provided an extension to the study of the response of vegetation to flooding processes, and provide a certain theoretical basis for the protection and management of the Poyang Lake ecosystem. HIGHLIGHTS The vegetation landscape diversity is positively correlated with the grassland area in Poyang Lake, China. The island biogeography theory can well explain the vegetation landscape diversity.; Flooding duration affects the vegetation landscape diversity more than maximum depth.; When the grassland is flooded for 120–130 days and the flooding depth does not exceed 2.5 m, the vegetation landscape diversity will be the highest.;

Published

2022

132. Annotated checklist of the beetles (Coleoptera) of the California Channel Islands

Author

Matthew L. Gimmel, M. Andrew Johnston, and Michael S. Caterino

Subjects

Island biogeography, Biodiversity informatics, Taxonomy, Nomenclature, Conservation, Endemism, Medicine, Biology (General), QH301-705.5

Abstract

The beetle fauna of the California Channel Islands is here enumerated for the first time in over 120 years. We provide an annotated checklist documenting species-by-island diversity from an exhaustive literature review and analysis of a compiled dataset of 26,609 digitized specimen records to which were added over 3,000 individual specimen determinations. We report 825 unique species from 514 genera and 71 families (including 17 new family records) comprising 1,829 species-by-island records. Species totals for each island are as follows: Anacapa (74); San Clemente (197); San Miguel (138); San Nicolas (146); Santa Barbara (64); Santa Catalina (370); Santa Cruz (503); and Santa Rosa (337). This represents the largest list of species published to date for any taxonomic group of animals on the Channel Islands; despite this, we consider the checklist to be preliminary. We present evidence that both inventory and taxonomic efforts on Channel Islands beetles are far from complete. Rarefaction estimates indicate there are at least several hundred more species of beetles yet to be recorded from the islands. Despite the incomplete nature of existing records, we found that species diversity is highly correlated with island area. We report 56 species which are putatively geographically restricted (endemic) to the Channel Islands, with two additional species of questionable endemic status. We also report 52 species from the islands which do not natively occur in the southern California region.

Published

2023

133. First records of six species of Lepidoptera from Kunashir Island (Russia)

Author

Elizaveta A. Spitsyna and Vitaly M. Spitsyn

Subjects

biodiversity, island biogeography, lithosiini, kurile islands, russian far east, catocala, argynnis sagana, Biology (General), QH301-705.5

Abstract

This article presents the first records of six species of moths and butterflies from Kunashir Island. We report on the first records of Aemene obscura (Leech, 1889) from Russia (Kunashir Island), as well as Catocala dula Bremer, 1861, C. lara Bremer, 1861, C. dissimilis Bremer, 1861, Sphragifera sigillata (Menetries, 1859), and Argynnis sagana Doubleday, [1847] from Kunashir Island. Additionally, we provide commentary on distribution of Aberrasine aberrans (Butler, 1877).

Published

2023

134. Variations in Soil Blue Carbon Sequestration between Natural Mangrove Metapopulations and a Mixed Mangrove Plantation: A Case Study from the World's Largest Contiguous Mangrove Forest.

Author

Chowdhury, Abhiroop, Naz, Aliya, and Maiti, Subodh Kumar

Subjects

*MANGROVE forests, *CARBON sequestration, *MANGROVE plants, *CARBON in soils, *PLANTATIONS, *TIDAL flats

Abstract

Sundarban is the world's largest mangrove wetland. This study, conducted in 2016, to compare blue carbon sequestration with different natural metapopulations and a four-year-old Avicennia marina (30% area)-Rhizophora mucronata (70% area)-mixed mangrove plantation under anthropoganic stress. The aims of the study is to find out the variations in soil ecological function indicators (pH, electrical conductivity, bulk density, soil texture, available nitrogn, phosphorus and soil organic carbon) and key ecological service indicator (soil blue carbon pool) between sites. Simpson's Index of dominance, diversity and Shannon-Weiner Index revealed that all the sites are under ecological stress, with the Suaeda maritima-dominated mudflat having the least biodiversity. It is also revealed that pH and electrical conductivity were highest in Suaeda maritima and Phoenix padulosa-dominated metapopulations, whereas organic carbon was the highest under the mangrove plantation and Avicennia marina-dominated site. Available nitrogen was recorded highest in the community with the Sonneretia sp.-Avicennia marina association. The mixed mangrove plantation had the highest blue carbon pool. The species diversity was not found to be related with the distance from the nearby conserved mangrove forest, contrary to the island biogeography theory. This study concludes with a recommendation of mixed mangrove plantations to restore the degraded saline mudflats along the human settlements across the globe. [ABSTRACT FROM AUTHOR]

Published

2023

135. Population genomics of the island thrush elucidates one of earth's great archipelagic radiations.

Author

Reeve, Andrew Hart, Gower, Graham, Pujolar, José Martín, Smith, Brian Tilston, Petersen, Bent, Olsson, Urban, Haryoko, Tri, Koane, Bonny, Maiah, Gibson, Blom, Mozes P K, Ericson, Per G P, Irestedt, Martin, Racimo, Fernando, and Jønsson, Knud Andreas

Subjects

*THRUSHES, *MOUNTAIN forests, *GENOMICS, *ISLANDS, *ARCHIPELAGOES, *PASSERIFORMES, *GENE flow

Abstract

Tropical islands are renowned as natural laboratories for evolutionary study. Lineage radiations across tropical archipelagos are ideal systems for investigating how colonization, speciation, and extinction processes shape biodiversity patterns. The expansion of the island thrush across the Indo-Pacific represents one of the largest yet most perplexing island radiations of any songbird species. The island thrush exhibits a complex mosaic of pronounced plumage variation across its range and is arguably the world's most polytypic bird. It is a sedentary species largely restricted to mountain forests, yet it has colonized a vast island region spanning a quarter of the globe. We conducted a comprehensive sampling of island thrush populations and obtained genome-wide SNP data, which we used to reconstruct its phylogeny, population structure, gene flow, and demographic history. The island thrush evolved from migratory Palearctic ancestors and radiated explosively across the Indo-Pacific during the Pleistocene, with numerous instances of gene flow between populations. Its bewildering plumage variation masks a biogeographically intuitive stepping stone colonization path from the Philippines through the Greater Sundas, Wallacea, and New Guinea to Polynesia. The island thrush's success in colonizing Indo-Pacific mountains can be understood in light of its ancestral mobility and adaptation to cool climates; however, shifts in elevational range, degree of plumage variation and apparent dispersal rates in the eastern part of its range raise further intriguing questions about its biology. [ABSTRACT FROM AUTHOR]

Published

2023

136. Nearby large islands diminish biodiversity of the focal island by a negative target effect.

Author

Wang, Duorun, Zhao, Yuhao, Tang, Shupei, Liu, Xiangxu, Li, Wande, Han, Peng, Zeng, Di, Yang, Yangheshan, Wei, Guangpeng, Kang, Yi, and Si, Xingfeng

Subjects

*ISLANDS, *SPECIES diversity, *BIRD breeding, *DYNAMIC balance (Mechanics), *ARCHIPELAGOES, *BIODIVERSITY

Abstract

The Equilibrium Theory of Island Biogeography postulates that larger and closer islands support higher biodiversity through the dynamic balance of colonization and extinction processes. The negative diversity–isolation (i.e. the distance to the mainland) relationship is derived based on the assumption that the mainland is the only source pool for island biotas. However, nearby islands could also act as species sources for focal islands via a source effect. In this study, we move a further step and hypothesize that nearby islands may reduce bird colonizers of the focal island and diminish its biodiversity, resulting in a negative target effect.To test our hypothesis, we assessed the effects of island area and isolation (metrics considering both the mainland and nearby islands) on taxonomic (i.e. species richness), functional and phylogenetic diversity of terrestrial breeding birds on 42 islands in the largest archipelago of China, the Zhoushan Archipelago. Furthermore, we compared the predictive power of the distance to the large island under a set of relative area thresholds and the relative area of nearby islands on species richness under a set of distance thresholds to explore the role of nearby islands as a source and/or target island.We found that island area had a positive effect on species richness, phylogenetic diversity and functional diversity, while the distance to the mainland had a negative effect only on species richness. Species richness on the focal island increased with increasing distance to the nearest larger island, indicating the negative target effect. Furthermore, the negative target effect depended on the area of nearby islands relative to the area of the focal island.Our finding of the negative target effect suggests islands located between the mainland and the focal island can be not only sources or stepping stones, but also colonization targets. This result demonstrates the importance of considering multiple geographical attributes of islands in island biogeographic studies, especially the characteristics related to source and/or target effects. [ABSTRACT FROM AUTHOR]

Published

2023

137. Contemporizing island biogeography theory with anthropogenic drivers of species richness.

Author

Gleditsch, Jason M., Behm, Jocelyn E., Ellers, Jacintha, Jesse, Wendy A. M., and Helmus, Matthew R.

Subjects

*SPECIES diversity, *BIOLOGICAL extinction, *BIOGEOGRAPHY, *INTRODUCED species, *HABITATS, *ISLANDS, REPRODUCTIVE isolation

Abstract

Aim: Island biogeography theory states that species richness increases with habitat diversity and decreases with isolation from source pools. However, ecological theory must incorporate effects of human activity to explain contemporary patterns of biodiversity. We contemporized island biogeography theory by conceptualizing island trajectories of how species richness changes over time with accelerating land development and economic trade, which increase extinction and immigration rates, respectively. With this contemporized theory, we then articulate and empirically assess expected relationships of native, introduced and total species richness with natural and anthropogenic metrics of habitat diversity and isolation from source pools. Location: Greater Caribbean region. Time period: Database finalized in 2020. Methods: We built a database of 1,042 native and introduced reptiles and amphibians (herps) for 840 Caribbean islands. For each island, we calculated natural and anthropogenic metrics of island habitat diversity and isolation from source pools and used linear model averaging to assess the expected relationships under the contemporized theory for 15 major herp clades. Results: Natural habitat diversity metrics exhibited positive relationships with native and introduced species richness, strengthening total species richness–area relationships across herp clades. Geographic isolation exhibited negative relationships with native and positive relationships with introduced species richness, weakening total species richness–isolation relationships. Economic area, based on developed land, and economic isolation, based on maritime trade, exhibited negative relationships with native species richness, but positive and negative relationships, respectively, with introduced species richness. Total species richness relationships with these two anthropogenic metrics were strongest in clades with many introduced species. Main conclusions: A contemporized island biogeography theory that includes the effects of land development and economic trade on species extinction and immigration explained current Caribbean herp species richness patterns. As human activity continues to accelerate, the contemporized theory we articulate here will increasingly predict island biogeography of the Anthropocene. [ABSTRACT FROM AUTHOR]

Published

2023

138. The island biogeography of human population size.

Author

Mologni, Fabio and Burns, Kevin C.

Subjects

*HUMAN geography, *BIOGEOGRAPHY, *ISLANDS, *ARCHIPELAGOES

Abstract

For decades, biogeographers have sought a better understanding of how organisms are distributed among islands. However, the island biogeography of humans remains largely unknown. Here, we investigate how human population size varies among 486 islands at two spatial scales. At a global scale, we tested whether population size increases with island area and declines with island elevation and nearest mainland, as is common in non-human species, or whether humans escape such biogeographic constraints. At a regional scale, we tested whether population sizes vary among islands within archipelagos according to the positioning of different cultural source pools. Results illustrate that on a global scale, human populations increased in size with island area, similar to non-human species, yet they did not decline in size with elevation and distance to nearest mainland. At a regional scale, human population size often varied among islands within archipelagos relative to the location of different cultural source pools. Despite broad-scale similarities in the geographical distribution of human and non-human species among islands, results from this study indicate that the island biogeography of humans may also be influenced by archipelago-specific social, political and historical circumstances. [ABSTRACT FROM AUTHOR]

Published

2023

139. Near‐shore island lizard fauna shaped by a combination of human‐mediated and natural dispersal.

Author

Salerno, Patricia E., Chan, Lauren M., Pauly, Gregory B., Funk, W. Chris, and Robertson, Jeanne M.

Subjects

*ARCHIPELAGOES, *LIZARDS, *ABSOLUTE sea level change, *MITOCHONDRIAL DNA, *ISLANDS, *COLONIZATION (Ecology)

Abstract

Aim: Island biotas provide opportunities to study colonization and adaptation to novel environments. Islands, especially near‐shore islands, may have a long record of human habitation such that some lineages result from human‐assisted introductions. Here, we combine phylogenetic analyses with fossil data and historical specimen records to reconstruct colonization histories, characterize among‐island divergence and assess the role of humans in shaping the evolutionary history of lizards inhabiting a near‐shore island archipelago. Location: Channel Islands and adjacent mainland of California, United States. Taxa: Western fence lizard (Sceloporus occidentalis), southern alligator lizard (Elgaria multicarinata), common side‐blotched lizard (Uta stansburiana). Methods: We sequenced mitochondrial DNA (ND1, cyt‐b) from each of three lizard species, covering their entire island distributions plus the adjacent mainland. For each, we estimated diversity within and among each island, obtained maximum likelihood bootstrapped phylogenies, constructed haplotype networks and tested for population expansion. We used museum specimen records and microfossil evidence to infer colonization scenarios. Results: Sceloporus occidentalis is characterized by a single island‐colonization event, and exhibits the deepest divergences from mainland relatives and the highest among‐island divergence. Elgaria multicarinata and Uta stansburiana each have at least three distinct colonization events, with fossil and historical data indicating that some of these occurred after humans arrived to the islands. Main Conclusions: The evolution of Channel Island lineages for two lizard taxa has been mediated by ancient and contemporary anthropogenic activity, while the evolution of the third is shaped by natural dispersal and vicariance caused by sea‐level rise. Genetic divergence corroborates the treatment of S. occidentalis as an endemic island species, Sceloporus becki. The unique histories of these three taxa are synthesized with other Channel Island lineages highlighting that taxa inhabiting islands with long histories of human activity should be carefully studied to assess the role of people in facilitating colonization and subsequent gene flow. [ABSTRACT FROM AUTHOR]

Published

2023

140. Fifty-year habitat subdivision enhances soil microbial biomass and diversity across subtropical land-bridge islands.

Author

Ying Wu, Bing Wang, Liji Wu, Shengen Liu, Lingyan Yue, Jianping Wu, and Dima Chen

Subjects

MICROBIAL diversity, HABITATS, SOILS, SOIL microbiology, SOIL acidity, ISLANDS

Abstract

Although habitat loss and subdivision are considered main causes of sharp declines in biodiversity, there is still great uncertainty concerning the response of soil microbial biomass, diversity, and assemblage to habitat subdivision at the regional scale. Here, we selected 61 subtropical land)bridge islands (with small, medium, and large land areas) with a 50-year history of habitat subdivision and 9 adjacent mainland sites to investigate how habitat subdivision-induced unequal-sized patches and isolation affects biomass, diversity, and assemblages of soil bacteria and fungi. We found that the soil bacterial and fungal biomass on all unequal-sized islands were higher than that on mainland, while soil bacterial and fungal richness on the medium-sized islands were higher than that on mainland and other-sized islands. The habitat subdivision-induced increases in microbial biomass or richness were mainly associated with the changes in subdivision-specified habitat heterogeneities, especial for soil pH and soil moisture. Habitat subdivision reduced soil bacterial dissimilarity on medium-sized islands but did not affect soil fungal dissimilarity on islands of any size. The habitat fragment-induced changes in soil microbial dissimilarity were mainly associated with microbial richness. In summary, our results based on the responses of soil microbial communities from subtropical land-bridge islands are not consistent with the island biogeographical hypotheses but are to some extent consistent with the tradeoff between competition and dispersal. These findings indicate that the response of soil microbial communities to habitat subdivision differed by degree of subdivision and strongly related to habitat heterogeneity, and the distribution of microbial diversity among islands is also affected by tradeoff between competition and dispersal. [ABSTRACT FROM AUTHOR]

Published

2022

141. Passive sampling hypothesis did not shape microbial species–area relationships in open microcosm systems.

Author

Deng, Wei, Cheng, Yi‐Ting, Li, Zheng‐Qiang, Zhou, Fa‐Ping, Yang, Xiao‐Yan, and Xiao, Wen

Subjects

*ENVIRONMENTAL sampling, *SPECIES diversity, *NUCLEOTIDE sequencing, *HYPOTHESIS, *SAMPLING errors, *EXPERIMENTAL design, *ARCHIPELAGOES, *HABITATS, *DISPERSAL (Ecology)

Abstract

The passive sampling hypothesis is one of the most important hypotheses used to explain the mechanism of species–area relationships (SAR) formation. This hypothesis has not yet been experimentally validated due to the confusion between passive sampling (a larger area may support more colonists when fully sampled) and sampling effects (more sampling effort will result in increased species richness when sampling is partial). In this study, we created an open microcosm system with homogeneous habitat, consistent total resources, and biodiversity background using Chinese paocai soup, a fermented vegetable, as a substrate. We made efforts to entirely exclude the influence of sampling effects and to exclusively obtain microorganisms from dispersal using microcosm and high‐throughput sequencing techniques. However, in this study, passive sampling based on dispersal failed to shape SAR, and community differences were predominantly caused by species replacement, with only minor contributions from richness differences. Ecological processes including extinction and competitive exclusion, as well as underlying factors like temporal scales and the small island effects, are very likely to have been involved in the studied system. To elucidate the mechanism of SAR development, future studies should design experiments to validate the involvement of dispersal independently. [ABSTRACT FROM AUTHOR]

Published

2022

142. The effect of seabird presence and seasonality on ground‐active spider communities across temperate islands.

Author

Pascoe, Penelope, Houghton, Melissa, Jones, Holly P., Weldrick, Christine, Trebilco, Rowan, and Shaw, Justine

Subjects

*SEA birds, *COMMUNITIES, *WOLF spiders, *COLONIAL birds, *SEXUAL cycle, *INVERTEBRATE populations, *PITFALL traps, *ECOSYSTEMS

Abstract

Seabirds influence island ecosystems through nutrient additions and physical disturbance. These influences can have opposing effects on an island's invertebrate predator populations. Spiders (order: Araneae) are an important predator in many terrestrial island ecosystems, yet little is known about how seabird presence influences spider communities at the intraisland scale, or how they respond to seasonality in seabird colony attendance.We investigated the effects of seabird presence and seasonality on ground‐active spider community structure (activity‐density, family‐level richness, age class, and sex structure) and composition at the family‐level across five short‐tailed shearwater breeding islands around south‐eastern Tasmania, Australia. Using 75 pitfall traps (15 per island), spiders were collected inside, near, and outside seabird colonies on each island, at five different stages of the short‐tailed shearwater breeding cycle over a year. Pitfall traps were deployed for a total of 2674 days, capturing 1592 spiders from 26 families with Linyphiidae and Lycosidae the most common. Spider activity‐density was generally greater inside than outside seabird colonies, while family‐level richness was generally higher outside seabird colonies. For these islands, seabird breeding stage did not affect activity‐densities, but there were some seasonal changes in age class and sex structures with more adult males captured during winter. Our results provide some of the first insights into the spatial and temporal influences seabirds have on spider communities. We also provide some of the first records of spider family occurrences for south‐eastern Tasmanian islands, which will provide an important baseline for assessing future change. [ABSTRACT FROM AUTHOR]

Published

2022

143. Stream diatom biodiversity in islands and continents—A global perspective on effects of area, isolation and environment.

Author

Jamoneau, Aurélien, Soininen, Janne, Tison‐Rosebery, Juliette, Boutry, Sébastien, Budnick, William R., He, Siwen, Marquié, Julien, Jyrkänkallio‐Mikkola, Jenny, Pajunen, Virpi, Teittinen, Anette, Tupola, Vilja, Wang, Beixin, Wang, Jianjun, Blanco, Saúl, Borrini, Alex, Cantonati, Marco, Valente, Adelaide Clode, Delgado, Cristina, Dörflinger, Gerald, and Gonçalves, Vítor

Subjects

*ISLANDS, *ENVIRONMENTAL chemistry, *STRUCTURAL equation modeling, *FOSSIL diatoms, *DIATOMS, *CONTINENTS, *SPECIES diversity, *SPECIES pools

Abstract

Aim: The species–area relationship (SAR) is one of the most distinctive biogeographic patterns, but global comparisons of the SARs between island and mainland are lacking for microbial taxa. Here, we explore whether the form of the SAR and the drivers of species richness, including area, environmental heterogeneity, climate and physico‐chemistry, differ between islands and similarly sized areas on mainland, referred to as continental area equivalents (CAEs). Location: Global. Taxon: Stream benthic diatoms. Methods: We generated CAEs on six continental datasets and examined the SARs of CAEs and islands (ISAR). Then, we compared CAEs and islands in terms of total richness and richness of different ecological guilds. We tested the factors contributing to richness in islands and CAEs with regressions. We used structural equation models to determine the effects of area versus environmental heterogeneity, climate and local conditions on species richness. Results: We found a non‐significant ISAR, but a significant positive SAR in CAEs. Richness in islands was related to productivity. Richness in CAEs was mainly dependent on area and climate, but not directly on environmental heterogeneity. Species richness within guilds exhibited inconsistent relationships with island isolation and area. Main conclusions: Ecological and evolutionary processes shaping diatom island biogeography do not depend on area at the worldwide scale probably due to the presence of distinct species pool across islands. Conversely, area was an important driver of diatom richness in continents, and this effect could be attributed to dispersal. Continents had greater richness than islands, but this was a consequence of differences in environmental conditions such as specific island climatic conditions. We stress the need for more island data on benthic diatoms, particularly from archipelagos, to better understand the biogeography of this most speciose group of algae. [ABSTRACT FROM AUTHOR]

Published

2022

144. Island biogeography, competition, and abiotic filtering together control species richness in habitat islands formed by nurse tree canopies in an arid environment.

Author

Al-Namazi, Ali A. and Bonser, Stephen P.

Subjects

*SPECIES diversity, *ISLANDS, *COMMUNITIES, *PLANT canopies, *HABITATS, *COMPETITION (Biology), REPRODUCTIVE isolation

Abstract

The theory of island biogeography predicts that island size is a key predictor of community species richness. Islands can include any habitat surrounded environments that are inhospitable to the resident species. In arid environments, nurse trees act as islands in an environment uninhabitable to many plant species, and the size of the canopy controls the size of the understory plant community. We predicted that plant species richness will be affected by the area of the habitat and decrease with habitat isolation. We sampled the adult and seedling plant communities at canopy center, canopy edge, and outside canopy microhabitats. We found that species richness in both adult and seedling communities increases with increasing island area. However, richness in seedling communities was greater than in adult communities, and this effect was greatest at the canopy center microhabitat. Competition has been demonstrated to be more important in controlling species distributions near the canopy center, and stress is more important near the canopy edge. Thus, our results suggest that neutral forces, biotic interactions, and abiotic filtering act together to control species richness in these island communities. [ABSTRACT FROM AUTHOR]

Published

2022

145. Relict lineages with extreme ecology and physiology: metal hyperaccumulation on ultramafic substrates in New Caledonian Alseuosmineae (Asterales).

Author

Gotty, Karine, Kergoat, Gael J., Jouannais, Pierre, Invernon, Vanessa, Merlot, Sylvain, and Pillon, Yohan

Subjects

*FLUORESCENCE spectroscopy, *X-ray fluorescence, *BOTANICAL specimens, *METALS, *EXTREME environments, *PHYSIOLOGICAL adaptation

Abstract

Relict lineages are an important component of biodiversity, but it is unclear under what circumstances these groups persist. A potential example of such a group is the Alseuosmineae (Asterales) of Oceania. This clade contains the three small families – Alseuosmiaceae, Argophyllaceae and Phellinaceae. The clade has highest diversity in New Caledonia, where there are extensive ultramafic substrates, creating an extreme edaphic environment. Using several lines of evidence we aimed to show that Alseuosmineae qualify as a relict lineage, with specialised adaptations for ultramafic substrates. Molecular phylogenetic and dating analyses were carried out on representatives from all Alseuosmineae genera. Metal concentration in 33 out of 44 Alseuosmineae species was measured in herbarium specimens with X-ray fluorescence spectrometry. Dating analyses indicated that Alseuosmineae began diversifying about 75–80 million years ago, and had much slower net diversification rates than other Asterales groups. One-third of the species occur on ultramafic substrates in New Caledonia. Six are categorised as nickel hyperaccumulators, and two as manganese hyperaccumulators. Extinction was probably paramount in the history of Alseuosmineae, especially for continental species. We postulate that their adaptation to ultramafic substrates and metal accumulation may have contributed to their survival until today. [ABSTRACT FROM AUTHOR]

Published

2022

146. Frugivore distributions are associated with plant dispersal syndrome diversity in the Caribbean archipelagos.

Author

Kim, Seokmin, Sales, Lilian, Carreira, Daiane, Galetti, Mauro, and Thuiller, Wilfried

Subjects

*PLANT dispersal, *ABIOTIC environment, *ANIMAL communities, *ARCHIPELAGOES, *PLANT diversity, *PHYTOGEOGRAPHY, *SPECIES diversity

Abstract

Aim: Many plants rely on interactions with frugivores for dispersal, suggesting that animal communities may affect plant occupancy and diversity. However, the contribution of these interaction‐led biotic variables on plant diversity is poorly understood, especially in archipelagic hotspots such as the Caribbean. In island ecosystems, biogeographic theories suggest that island configurations drive colonization‐extinction dynamics, while macroecology argues for the importance of climatic drivers of biodiversity. Within this context, we examine how frugivore‐driven biotic factors are associated with fruiting plant species richness in relation to abiotic (climatic and geologic) and island configuration characteristics. Location: Caribbean archipelagos. Methods: We compiled a review of the diversity and distributions of 6039 plants and 326 vertebrate frugivores across 105 islands within the Caribbean. We then identified characteristics related to plant‐frugivore interactions and assigned each species as having either abiotic (wind, water, etc.) or zoochoric (frugivory‐dependent) dispersal syndromes. We related plant richness and dispersal syndromes to the regional diversity and characteristics of frugivorous animals, abiotic environments and island configuration characteristics through stepwise multivariate regression with generalized linear models and model selection. Results: We found that 44.6% of Caribbean plants are dispersed through frugivory (endozoochory). Frugivore‐related characteristics, namely accumulated body mass of island bird assemblages, were the best predictors of the diversity of seed dispersal syndromes. To a lesser degree, reptile richness and soil variety were also considered important predictors for zoochoric plant distribution, while island areas affected abiotically‐dispersed plants. Main conclusion: We found that biotic characteristics of frugivore communities are important predictors of plant diversity in the Caribbean archipelagos. However, this may also be influenced by climate and colonization history. Given the importance of biotic metrics in explaining plant diversity, we suggest that fruit‐frugivore interactions are important components of island biogeography and that frugivorous communities should be accounted for plant biodiversity predictions and forecast models. [ABSTRACT FROM AUTHOR]

Published

2022

147. Factors in the Distribution of Mycorrhizal and Soil Fungi.

Author

Janowski, Daniel and Leski, Tomasz

Subjects

*SOIL fungi, *MYCORRHIZAL fungi, *ECTOMYCORRHIZAL fungi, *FUNGAL communities, *SOIL acidity

Abstract

Soil fungi are crucial microorganisms in the functioning of ecosystems. They shape the soil properties, facilitate nutrient circulation, and assist with plant growth. However, their biogeography and distribution studies are limited compared to other groups of organisms. This review aims to provide an overview of the main factors shaping the spatial distribution of soil fungi (with a special focus on mycorrhizal fungi). The review also tries to identify the field frontier where further studies are needed. The main drivers of soil fungal distribution were classified and reviewed into three groups: soil properties, plant interactions, and dispersal vectors. It was apparent that ectomycorrhizal and arbuscular fungi are relatively overrepresented in the body of research, while the other mycorrhiza types and endophytes were grossly omitted. Notwithstanding, soil pH and the share of ectomycorrhizal plants in the plant coverage were repeatedly reported as strong predictors of mycorrhizal fungal distribution. Dispersal potential and vector preferences show more variation among fungi, especially when considering long-distance dispersal. Additionally, special attention was given to the applications of the island biogeography theory to soil fungal assemblages. This theory proves to be a very efficient framework for analyzing and understanding not only the soil fungal communities of real islands but even more effective islands, i.e., isolated habitats, such as patches of trees discontinuous from more enormous forests. [ABSTRACT FROM AUTHOR]

Published

2022

148. Molecular and morphological species delimitation suggest a single species of the beetle-spider genus Ballus in Sri Lanka (Araneae: Salticidae).

Author

Bopearachchi, Dilini P., Eberle, Jonas, and Benjamin, Suresh P.

Subjects

*JUMPING spiders, *NUCLEAR DNA, *MITOCHONDRIAL DNA, *SPECIES, *DNA sequencing, *GENETIC variation

Abstract

Ballus Koch, 1850 is a beetle-like jumping spider genus encountered in montane evergreen rainforests of the Central and Uva Provinces of Sri Lanka. The taxonomic literature documents three species of the genus for the island. However, neither the taxonomic validity nor the systematics of any of the three species have been previously examined. We used nuclear and mitochondrial DNA sequences (28S rRNA, H3, COI) as well as morphological characters to investigate the genetic and taxonomic diversity of Ballus populations in Sri Lanka, including specimens from type localities. No Ballus specimens were found outside of the central highlands. Results of molecular species delimitation and morphological analysis suggest the presence of only a single species of Ballus in Sri Lanka. We therefore propose B. sellatusSimon, 1900 to be a junior synonym of B. segmentatusSimon, 1900, while B. clathratus Simon, 1901 remains a nomen nudum. Further, we discuss the implications of our results for conservation planning. [ABSTRACT FROM AUTHOR]

Published

2022

149. Mitogenomes resolve the phylogeography and divergence times within the endemic New Zealand Callaeidae (Aves: Passerida).

Author

Lubbe, Pascale, Rawlence, Nicolas J, Kardailsky, Olga, Robertson, Bruce C, Day, Robert, Knapp, Michael, and Dussex, Nicolas

Subjects

*MOLECULAR phylogeny, *ENDEMIC birds, *SEXUAL dimorphism, *PHYLOGEOGRAPHY, *PALEOGENE, *OLIGOCENE Epoch, *CHLOROPLAST DNA

Abstract

The biogeographical origins of the endemic birds of New Zealand (Aotearoa) are of great interest, particularly Palaeogene lineages such as Callaeidae, a passerine family characterized by brightly coloured wattles behind the beak and, in some cases, extreme sexual dimorphism in bill size and shape. Ancestral representatives of Callaeidae are thought to have split from their closest relatives outside New Zealand in the Oligocene, but little is known about the timing of divergences within the family. We present a fully dated molecular phylogeny of Callaeidae mitogenomes and discuss the biogeographical implications. Our results suggest that formation of Pliocene marine seaways, such as the Manawatu Strait, are likely to have played a significant role in the differentiation of North Island and South Island kōkako (Callaeas spp.) and saddlebacks/tīeke (Philesturnus spp.). [ABSTRACT FROM AUTHOR]

Published

2022

150. Ants (Hymenoptera, Formicidae) of North African archipelago (Kerkennah).

Author

Oueslati, Wala, Tlili, Haithem, and Nouira, Said

Subjects

*ARCHIPELAGOES, *ANTS, *HYMENOPTERA, *COMPETITION (Biology), *ISLANDS, *ENDANGERED species

Abstract

Keywords: diversity; first record; island biogeography; myrmecofauna; taxonomic studies EN diversity first record island biogeography myrmecofauna taxonomic studies 1301 1310 10 11/30/22 20221201 NES 221201 INTRODUCTION The management of biological diversity is a prior objective for the insular environment. The link between geological phenomena, which led to the formation of the Kerkennah archipelago and the distribution of island species on the continental part of Tunisia (following our bibliographic study), means that this fauna can be considered an indigenous species (native species). B Distribution in Tunisia: b According to Emery (1884), it is considered as rare species in Tunisia (Exotic species: native to Afrotropical bioregion). B Distribution in Tunisia: b Ubiquitous species colonises the arid and desert terrestrial environments of Tunisia; it is also collected in Djerba (Bernard, 1971; Emery, 1884, 1891; Forel, 1890). [Extracted from the article]

Published

2022