Your search keyword '"Endozoochory"' showing total 691 results

1. Internal seed dispersal of Rhynchotechum discolor (Gesneriaceae) by a freshwater crab.

Author

Suetsugu, Kenji

Subjects

*SEED dispersal by animals, *SEED dispersal, *SEED coats (Botany), *PLANT dispersal, *GRANIVORES, *GERMINATION

Abstract

The article explores the internal seed dispersal of Rhynchotechum discolor by a freshwater crab, Geothelphusa sakamotoana. The study suggests that the crab acts as an internal seed disperser, with intact seeds being defecated and showing a slightly higher germination rate compared to non-consumed seeds. This research sheds light on the diverse mechanisms of seed dispersal and highlights the potential role of invertebrates in plant establishment. Further studies are recommended to understand the broader impact of invertebrates on seed dispersal and plant species diversity. [Extracted from the article]

Published

2024

2. Avian seed dispersal out of the forests: A view through the lens of Pleistocene landscapes.

Author

González‐Varo, Juan P.

Subjects

*SEED dispersal, *FRAGMENTED landscapes, *BIRD habitats, *FRUGIVORES, *TEMPERATE forests

Abstract

Recent evidence supports that, prior to the impact of modern humans, the temperate zone of Europe was not dominated by a closed continuous forest, but consisted of heterogeneous landscapes with grasslands, light woodlands and forests. Until the late Pleistocene, this region held a diverse community of megaherbivores that maintained the open and semi‐open vegetation through grazing and browsing. This new baseline is congruent with the fact that many European woody species are light‐demanding and fail to regenerate in the shaded interiors of temperate forests. Notably, most of these species are dispersed by frugivorous and seed‐caching animals, mostly birds. Nowadays, avian seed dispersers play a key role for the connectivity and expansion of woodland patches in fragmented anthropogenic landscapes. Indeed, avian seed dispersal within and across the deforested matrix is the norm rather than the exception. Here, I reflect on the current patterns of avian seed dispersal in the fragmented anthropogenic landscapes of Europe from a Pleistocene perspective. The aim of this exercise is to discuss linkages between past and present landscapes, seeking an historical understanding of the high spatial complementarity of avian seed dispersal in and out of the forests. Synthesis: I conclude that the spatial patterns of avian seed dispersal in anthropogenic landscapes are congruent with an ecological and evolutionary history with open and semi‐open habitats created and maintained by megaherbivores (ecological memory). By shaping the environmental conditions for millions of years, megaherbivores would have created selective pressures on animals and plants for life in landscape mosaics with forests and open habitats (niche construction). Finally, I discuss differences in landscape patterns today and in the Pleistocene, as well as the generality of these ideas to other biogeographical regions. [ABSTRACT FROM AUTHOR]

Published

2024

3. Beyond pollination: Ants and camel crickets as double mutualists in a non‐photosynthetic plant.

Author

Suetsugu, Kenji and Hashiwaki, Hiromu

Subjects

*BOTANY, *LIFE history theory, *ENDANGERED plants, *GRANIVORES, *SEED coats (Botany), *POLLINATION

Abstract

The article explores the unique relationship between ants, camel crickets, and a non-photosynthetic plant called Balanophora subcupularis. The study reveals that these insects play a dual role as pollinators and seed dispersers for the plant, challenging traditional notions of plant-animal interactions. The findings suggest a rare instance of double mutualism involving invertebrates, highlighting the importance of these insects in the ecosystem. The study was conducted in Japan and sheds light on the evolutionary adaptations of plants in unique ecological niches. [Extracted from the article]

Published

2024

4. Darwin's Digestion Myth: Historical and Modern Perspectives on Our Understanding of Seed Dispersal by Waterbirds.

Author

Green, Andy J. and Wilkinson, David M.

Subjects

*SEED dispersal, *HISTORY of science, *PLANT dispersal, *HISTORICAL errors, *AQUATIC plants, *WATER birds

Abstract

Internal transport (endozoochory) and external transport (epizoochory) by migratory waterbirds are key mechanisms of long-distance dispersal for seeds and other diaspores of plants lacking a fleshy fruit. Beginning with Darwin in 1859, we review how opinions about the relative importance of epizoochory and endozoochory have changed repeatedly over time and how this allows us to reassess our modern understanding of plant dispersal. Darwin was mistaken in asserting that diaspores cannot survive passage through the gut of waterbirds or other granivorous birds. This "digestion myth" led him to underestimate endozoochory and overstate the importance of epizoochory, an approach which is echoed throughout the literature until the present day. Darwin also focused on aquatic plants, yet it is now clear that waterbirds are also major vectors of terrestrial plants. Based on their empirical observations and experiments, other less influential scientists (notably Hesselman in 1897, Guppy in 1906 and Proctor in the 1960s) argued that endozoochory is the more important mechanism for waterbirds. Modern field and experimental studies demonstrate the dominant role for endozoochory. Unfortunately, avian endozoochory of dry-fruited plants continues to be ignored as a dispersal mechanism by many plant ecologists, which we attribute to Darwin's continuing influence. However, this endozoochory has major implications for plant biogeography and requires wider recognition and research. [ABSTRACT FROM AUTHOR]

Published

2024

5. Earwigs and woodlice as some of the world's smallest internal seed dispersal agents: Insights from the ecology of Monotropastrum humile (Ericaceae)

Author

Kenji Suetsugu, Osamu Kimura‐Yokoyama, and Shumpei Kitamura

Subjects

camel cricket, endozoochory, fleshy fruits, frugivore, heterotrophic plant, mycoheterotrophic plant, Environmental sciences, GE1-350, Botany, QK1-989

Abstract

Societal Impact Statement This study illuminates the underappreciated role of invertebrates in seed dispersal, extending beyond the well‐documented contributions of ants. Focusing on Monotropastrum humile (銀竜草 [silver dragon plant] or 水晶蘭 [crystal orchid]), a non‐photosynthetic plant known for its minuscule, dust‐like seeds, the present research uncovers their seed dispersal roles of woodlice and earwigs in Japan. Remarkably, these invertebrates include the smallest known endozoochorous seed dispersers. Summary Endozoochory, or internal seed dispersal through the digestive tracts of animals, has been less studied in invertebrates compared with vertebrates. Nonetheless, endozoochory is plausible whenever seeds are small enough for ingestion by frugivorous animals, suggesting a potential role for invertebrates in seed dispersal, especially for plants with minute seeds. Monotropastrum humile (Ericaceae), characterized by its fleshy fruits and dust‐like seeds, is known to utilize invertebrate agents such as camel crickets and cockroaches for seed dispersal. Here, we investigate this seed dispersal mechanism using time‐lapse photography, feeding experiments, and seed coat anatomy analysis, particularly focusing on interactions among undocumented invertebrate internal seed dispersers. Field observations indicated that in the studied population, M. humile fruits were primarily consumed by camel crickets, woodlice, and earwigs. Their effectiveness as seed dispersers varied, with camel crickets primarily acting as dispersers, whereas earwigs and woodlice were more inclined toward seed predation. Nonetheless, some seeds defecated by earwigs and woodlice remained intact, suggesting that they could also function as dispersal agents. The woodlouse Porcellio scaber is now recognized as the world's smallest internal seed dispersal agent. Combined with earlier discoveries, such as seed dispersal by camel crickets, cockroaches, and ants, and the fact that P. scaber is an exotic species in the study site, M. humile likely depends on a broad spectrum of local invertebrates. The engagement of multiple invertebrate dispersers may enhance seed dispersal across diverse habitats.

Published

2024

6. Earwigs and woodlice as some of the world's smallest internal seed dispersal agents: Insights from the ecology of Monotropastrum humile (Ericaceae).

Author

Suetsugu, Kenji, Kimura‐Yokoyama, Osamu, and Kitamura, Shumpei

Subjects

FRUGIVORES, SEED dispersal, INTRODUCED species, SEED coats (Botany), PLANT dispersal

Abstract

Societal Impact Statement: This study illuminates the underappreciated role of invertebrates in seed dispersal, extending beyond the well‐documented contributions of ants. Focusing on Monotropastrum humile (銀竜草 [silver dragon plant] or 水晶蘭 [crystal orchid]), a non‐photosynthetic plant known for its minuscule, dust‐like seeds, the present research uncovers their seed dispersal roles of woodlice and earwigs in Japan. Remarkably, these invertebrates include the smallest known endozoochorous seed dispersers. Summary: Endozoochory, or internal seed dispersal through the digestive tracts of animals, has been less studied in invertebrates compared with vertebrates. Nonetheless, endozoochory is plausible whenever seeds are small enough for ingestion by frugivorous animals, suggesting a potential role for invertebrates in seed dispersal, especially for plants with minute seeds.Monotropastrum humile (Ericaceae), characterized by its fleshy fruits and dust‐like seeds, is known to utilize invertebrate agents such as camel crickets and cockroaches for seed dispersal. Here, we investigate this seed dispersal mechanism using time‐lapse photography, feeding experiments, and seed coat anatomy analysis, particularly focusing on interactions among undocumented invertebrate internal seed dispersers.Field observations indicated that in the studied population, M. humile fruits were primarily consumed by camel crickets, woodlice, and earwigs. Their effectiveness as seed dispersers varied, with camel crickets primarily acting as dispersers, whereas earwigs and woodlice were more inclined toward seed predation. Nonetheless, some seeds defecated by earwigs and woodlice remained intact, suggesting that they could also function as dispersal agents.The woodlouse Porcellio scaber is now recognized as the world's smallest internal seed dispersal agent. Combined with earlier discoveries, such as seed dispersal by camel crickets, cockroaches, and ants, and the fact that P. scaber is an exotic species in the study site, M. humile likely depends on a broad spectrum of local invertebrates. The engagement of multiple invertebrate dispersers may enhance seed dispersal across diverse habitats. [ABSTRACT FROM AUTHOR]

Published

2024

7. Plant traits determine seed retention times in frugivorous birds: Implications for long‐distance seed dispersal.

Author

Bracho‐Estévanez, Claudio A., Cuadrado, Mariano, Sánchez, Iñigo, Onrubia, Alejandro, and González‐Varo, Juan P.

Subjects

*SEED dispersal by animals, *DISPERSAL (Ecology), *RF values (Chromatography), *SEED size

Abstract

Seed dispersal by frugivorous animals is a key process for plant populations and communities. When frugivores consume fruits, seeds are temporarily retained inside their guts until seed deposition. Hence, information on retention times is essential to estimate seed‐dispersal distances. Although it is well known that retention times are affected by the body size of frugivores, there is an important knowledge gap on the effects of plant species traits, such as seed size and pulp content.Here, we comprehensively address whether and which plant traits affect seed retention times in frugivorous birds. On the one hand, we conducted a first set of experiments to assess variation in retention times among 31 plant species dispersed by a single bird species, and a second set to assess variation among five plant species dispersed by a guild of five frugivorous passerines. On the other hand, we conducted a literature review retrieving retention times for 231 interactions involving 155 plant species and 55 bird species from nine different avian orders.Seed size had negative effects on retention times at the three levels addressed in this study: the larger the seeds, the shorter the times. The effects of seed size were higher within a single bird species, intermediate for the small assemblage of five passerine species, and lower for all frugivorous birds included in the compilation. Notably, the effects of seed size on retention times were comparable to that of frugivore body size in Passeriformes. We analysed the effects of the pulp content on a single bird species, but these lacked predictive power. Importantly, the effects of seed size were indirect and mediated by the type of seed ejection (digestive processing): birds generally defecate smaller seeds and regurgitate the larger ones.We provide comprehensive evidence that retention times are intrinsically linked to plant traits and to frugivores' response to such traits, particularly to seed size and the type of seed ejection, respectively. Thus, our study unveils a source of interspecific variability in the capacity of plants to disperse at long distances. Moreover, we provide methodological improvements to trait‐based models that estimate mean retention times and seed‐dispersal distances. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

8. Float, fly, then sink: wetland plant seed buoyancy is lost after internal dispersal by waterbirds.

Author

Navarro-Ramos, María J., Green, Andy J., de Vries, Robin, and van Leeuwen, Casper H. A.

Subjects

*WETLAND plants, *BUOYANCY, *WATER birds, *SEED dispersal, *PLANT species, *AQUATIC plants

Abstract

Seed dispersal distance is an important indicator of how well a plant species can cope with environmental changes. Seeds of wetland plants are primarily dispersed by hydrochory (floating on the water surface) or endozoochory (ingestion and egestion by animals). However, both mechanisms can also be combined (diplochory), which increases dispersal distances. In wetlands, seeds often float on the water surface before ingestion and transport by animals, such as waterbirds. Here, we consider what happens next after endozoochory and test whether seeds dispersed inside waterbirds can then continue to disperse by hydrochory. We experimentally assessed the buoyancy capacity of 41 wetland plant species for 14 weeks before and after simulated passage through avian digestive systems. This revealed that (1) seeds of plants previously assigned a hydrochory dispersal syndrome floated longer than those from other syndromes, but with considerable overlap; (2) fully aquatic and shoreline plant species had seeds with stronger buoyancy than terrestrial plants; and (3) digestive processes negatively affected seed buoyancy capacity for all plant species, which included wetland species with a typical hydrochory syndrome. The capacity for hydrochory is more limited after endozoochory than beforehand, with strong implications for the effectiveness of seed dispersal. [ABSTRACT FROM AUTHOR]

Published

2024

9. Joint evolution of mutualistic interactions, pollination, seed dispersal mutualism, and mycorrhizal symbiosis in trees.

Author

Yamawo, Akira and Ohno, Misuzu

Subjects

*SEED dispersal, *DATABASES, *FOREST biodiversity, *POLLINATION, *SYMBIOSIS, *PLANT dispersal

Abstract

Summary: Mycorrhizal symbiosis, seed dispersal, and pollination are recognized as the most prominent mutualistic interactions in terrestrial ecosystems. However, it remains unclear how these symbiotic relationships have interacted to contribute to current plant diversity.We analyzed evolutionary relationships among mycorrhizal type, seed dispersal mode, and pollination mode in two global databases of 699 (database I) and 10 475 (database II) tree species. Although database II had been estimated from phylogenetic patterns and therefore had lower certainty of the mycorrhizal type than database I, whose mycorrhizal type was determined by direct observation, database II allowed analysis of many more taxa from more regions than database I.We found evidence of joint evolution of all three features in both databases. This result is robust to the effects of both sampling bias and missing taxa. Most arbuscular mycorrhizal‐associated trees had endozoochorous (biotic) seed dispersal and biotic pollination, with long dispersal distances, whereas most ectomycorrhizal‐associated trees had anemochorous (abiotic) seed dispersal and wind (abiotic) pollination mode, with shorter dispersal distances.These results provide a novel scenario in mutualistic interactions, seed dispersal, pollination, and mycorrhizal symbiosis types, which have jointly evolved and shaped current tree diversity and forest ecosystem world‐wide. See also the Commentary on this article by Sinnott‐Armstrong, 243: 1290–1292. [ABSTRACT FROM AUTHOR]

Published

2024

10. Invasive Buttonweed Cotula coronopifolia (Asteraceae) Is Halotolerant and Has High Potential for Dispersal by Endozoochory.

Author

Sánchez-García, Raúl, Green, Andy J., Tomasson, Lina, Hortas, Francisco, and Ortiz, Maria A.

Subjects

INTRODUCED species, INTRODUCED plants, MIGRATORY birds, POPULATION genetics, FIELD research

Abstract

Buttonweed (Cotula coronopifolia) is native to South Africa but invasive in wetlands in Europe, North America, and Australasia, where it excludes native plants. Despite being dry-fruited, field studies suggest migratory waterbirds can disperse its seeds via gut passage (endozoochory), aiding its expansion. To explore the potential for endozoochory in different regions and habitats, we collected seeds from six populations in Spain, Sweden, and the UK. Germination was tested under different salinity levels (0, 5, 10, 15 g/L) and simulated gut passage treatments: scarification, acidification, or both. No germination occurred at 15 g/L. Higher salinity reduced and delayed germination, but full gut passage treatment (i.e., both scarification and acidification) increased germinability and accelerated germination. Scarification or acid treatment alone resulted in intermediate germination patterns. There were significant salinity × population and gut passage × population interactions on germinability. The acceleration effect of gut passage on germination was stronger at 5–10 g/L than at 0 g/L. This study highlights how migratory birds can facilitate the spread of alien plants introduced by humans. Endozoochory by waterbirds is an understudied mechanism for the long-distance dispersal of dry-fruited alien plants. Further research on C. coronopifolia, including population genetics, is necessary to understand dispersal mechanisms and facilitate management strategies. [ABSTRACT FROM AUTHOR]

Published

2024

11. Unlikely allies: Camel crickets play a role in the seed dispersal of an Asian autotrophic shrub.

Author

Suetsugu, Kenji and Tsukaya, Hirokazu

Subjects

*ANIMAL dispersal, *SEED dispersal, *PLANT dispersal, *SEED size, *GESNERIACEAE, *BERRIES

Abstract

Societal Impact Statement Summary Dust seeds, which are minute and contain minimal energy reserves, are often associated with heterotrophy (plants that obtain carbon without photosynthesis). Consequently, previous studies have mainly focused on the relationships between dust seeds and heterotrophy. However, dust seeds are also found in green plants. This manuscript focuses on the seed ecology of the apparently autotrophic shrub Rhynchotechum discolor that produces dust seeds. Using time‐lapse photography, feeding experiments, and germination tests, we show that camel crickets effectively disperse the seeds of this autotrophic shrub. This is the first study to document insect‐mediated internal seed dispersal of an autotrophic plant in regions inhabited by terrestrial mammals, offering new insights into the evolutionary ecology of dust seeds. Although angiosperms exhibit a wide range of seed sizes, the mechanisms driving these differences are poorly understood. The evolution of dust seeds, which contain minimal energy reserves, is traditionally linked to heterotrophy, in which external carbon sources are provided to the embryo or seedling. Dispersal by small animals may be another important but underexplored evolutionary driver of minute seed size. However, insect endozoochory has been documented only in the seeds of heterotrophic species and autotrophic species in New Zealand (i.e., in communities without native terrestrial mammals). Here, we investigate this seed dispersal mechanism in the Japanese shrub Rhynchotechum discolor (Gesneriaceae), which produces white berries with numerous tiny ellipsoid seeds, using time‐lapse photography, feeding experiments, and germination tests, particularly focusing on potential interactions with insect internal seed dispersers. Our time‐lapse photography indicated that camel crickets predominantly feed on fallen fruits of R. discolor. Field sampling revealed that camel crickets excreted numerous intact R. discolor seeds. Feeding experiments confirmed that some camel crickets excreted a high proportion of intact seeds, many of which successfully germinated into autotrophic seedlings. The present study provides the first evidence of insects acting as endozoochorous seed dispersers in fully autotrophic plants within regions inhabited by terrestrial mammals. Our findings suggest that orthopteran‐mediated seed dispersal is more widespread than previously thought, and that dust seeds can evolve from selective pressures beyond heterotrophy, specifically through insect‐mediated seed dispersal. [ABSTRACT FROM AUTHOR]

Published

2024

12. Big rodents disperse small seeds and spores in Neotropical wetlands.

Author

Hoffmann, Pedro Henrique de Oliveira, Adolfo, Andressa, Green, Andy J., Stenert, Cristina, Silva, Giliandro Gonçalves, Weber, Vinicius, and Maltchik, Leonardo

Subjects

*PLANT dispersal, *DISPERSAL (Ecology), *AQUATIC organisms, *AQUATIC plants, *ANGIOSPERMS

Abstract

The role of large frugivores in the dispersal of tropical trees has been well‐studied, whereas the importance of the world's largest rodents for plant dispersal has previously been ignored. We studied plant dispersal by gut passage (endozoochory) in Neotropical wetlands by the largest extant rodent, the capybara Hydrochoerus hydrochaeris. We compared it with another of the world's 10 largest rodents, the nutria or coypu Myocastor coypus.We collected 96 faecal samples (50 capybara, 46 nutria) from 10 sites within the Taim Ramsar site in southern Brazil, and extracted intact propagules from 10 g subsamples. Propagules from 27 plant taxa (24 angiosperms, and three aquatic ferns) were recovered, representing 13 plant families. Whole Spirodela (duckweed) plants were dispersed. Seeds from 14 angiosperm taxa were germinated in the laboratory.Taxonomic composition of propagules was significantly different for the two mammals, but propagule size was not. Capybara dispersed more terrestrial propagules per sample, and nutrias more aquatic propagules. When total faecal production was taken into account, an estimated 1025 propagules (including 133 fern spores) were dispersed by each capybara per day, compared with 691 propagules for nutrias (including 566 fern spores). Capybaras have larger home ranges and likely dispersed plants over a greater distance.Synthesis: This is the first demonstration that rodents disperse aquatic pteridophytes as well as flowering plants. Our results suggest that capybaras and nutrias play important, complementary roles in dispersing a variety of aquatic and terrestrial plant species within Neotropical wetlands. Our study indicates that the role of herbivorous mammals as vectors of plants with small seeds and non‐fleshy fruits has been overlooked in the neotropics and that defaunation of large herbivores can have negative consequences, in a manner similar to that previously highlighted for frugivores. [ABSTRACT FROM AUTHOR]

Published

2024

13. Bird‐mediated endozoochory as a potential dispersal mechanism of bony fishes.

Author

Lovas‐Kiss, Ádám, Antal, László, Mozsár, Attila, Nyeste, Krisztián, Somogyi, Dóra, Kiss, Balázs, Tóth, Richárd, Tóth, Flórián, Lilla Fazekas, Dorottya, Vitál, Zoltán, Halasi‐Kovács, Béla, Tóth, Pál, Szabó, Nándor, Löki, Viktor, Vincze, Orsolya, and András Lukács, Balázs

Subjects

*OSTEICHTHYES, *WATER birds, *FISH eggs, *FISH larvae, *FISH migration, *AQUATIC habitats

Abstract

The dispersal of fish into distant and isolated habitats remains a topic of continuous discussion in the field of fish biogeography. This is particularly relevant due to the perceived limitation of fish movement to what is known as active dispersal. Fish migration is often confined to interconnected water bodies, underscoring the significance of dispersal for fish inhabiting isolated aquatic habitats. However, empirical evidence for a natural (i.e. not human‐mediated) mechanism has been limited. Here we explore and provide evidence for waterbird‐mediated endozoochory as a possible dispersal mechanism in various fish species and families. We force‐fed mallardsAnas plathyrynchoswith fertilised eggs of nine bony fish species, covering nine taxonomic families. We recovered viable embryos of five fish taxa in the faeces of mallard, proving the ability of fish eggs to survive the passing of the digestive system of waterbirds. Moreover, the recovered eggs successfully hatched into larvae in two fish species. Taking into the flight speed and numerosity of mallards, as well as the high abundance of fish eggs, our results highlight endozoochory of fish eggs by waterbirds as a possible significant, although likely rare natural dispersal mechanism that can occur across more species than previously known in freshwater fish. [ABSTRACT FROM AUTHOR]

Published

2024

14. Apex predators can structure ecosystems through trophic cascades: Linking the frugivorous behaviour and seed dispersal patterns of mesocarnivores.

Author

Burgos, Tamara, Escribano‐Ávila, Gema, Fedriani, Jose M., González‐Varo, Juan P., Illera, Juan Carlos, Cancio, Inmaculada, Hernández‐Hernández, Javier, and Virgós, Emilio

Subjects

*TOP predators, *SEED dispersal, *PREDATION, *TROPHIC cascades, *OMNIVORES, *ECOSYSTEMS, *LYNX

Abstract

Current global change scenarios demand knowledge on how anthropogenic impacts affect ecosystem functioning through changes in food web structure. Frugivorous mesocarnivores are a key link in trophic cascades because, while their abundance and behaviour are usually controlled by apex predators, they can provide high‐quality seed‐dispersal services to plant communities. Thus, the recent rewilding of large carnivores worldwide can trigger cascading effects for plants.We investigated the top‐down effects of an apex predator (Iberian lynx Lynx pardinus) on seed‐dispersal services mediated by two mesocarnivore species (red fox Vulpes vulpes and stone marten Martes foina) at the plant community level by comparing areas with and without lynx in a Mediterranean mountain range in Southern Spain.We collected scats of mesocarnivores (n = 1575) to assess frugivory and seed dispersal of 15 plant species over two consecutive fruiting seasons and two habitat types (open and forest). Specifically, we assessed the effect of lynx presence on (i) seed occurrence and fleshy‐fruit biomass per scat, (ii) number of scats containing seeds and (iii) diversity of dispersed seeds.The quantity and diversity of dispersed seeds drastically decreased under predation risk for both mesocarnivore's species. Seed dispersal by stone martens was negatively affected by the presence of lynx, with a marked reduction in the number of scats with seeds (93%) and the diversity of dispersed seeds (46%). Foxes dispersed 68% fewer seeds in open habitats when coexisting with lynx, probably leading to differential contributions to seed‐dispersal effectiveness among habitats.Our study reveals a novel trophic cascade from apex predators to plant communities. The behavioural responses of frugivorous mesocarnivores to predation risk and the reduction in the intensity of their faecal deposition pattern are probably related to their lower abundance when co‐occurring with apex predators. While rewilding apex predators is a successful conservation tool, attention should be paid to cascading effects across food webs, particularly where frugivore megafauna is missing and mesocarnivores provide unique services to plants. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

15. Seed dispersal by frugivores without seed swallowing: Evaluating the contributions of stomatochoric seed dispersers.

Author

McConkey, Kim R., Sushma, H. S., and Sengupta, Asmita

Subjects

*PLANT dispersal, *SEED dispersal, *CERCOPITHECIDAE, *SEEDS, *ANIMAL communities, *FRUIT seeds, *FRUGIVORES

Abstract

The process of seed dispersal that underpins ecosystem maintenance is performed by diverse arrays of fruit‐eating animals. However, seed dispersal studies are primarily focused on a subset of these animal communities that disperse seeds by endozoochory. Stomatochory (seed dispersal in which seeds are carried externally and are not swallowed) is rarely considered to be effective, despite an increasing number of taxa‐focused studies that indicate otherwise.We collated the available information on stomatochory to provide a quantitative overview of the dispersal mechanism, including plant types and fruit traits dispersed, dispersal distances and germination potential for all available taxa. We compared seed sizes dispersed, dispersal distances and germination potential with corresponding data on endozoochory for bats and primates. We also identified the main taxa dispersing seeds by stomatochory and assessed what factors influenced the distances that they carried seeds to.Stomatochoric dispersers can displace large quantities of seeds, including large seeds and those of large fruits, and over short to long distances (>1 km). Compared with similar‐sized endozoochoric dispersers, they can disperse larger seeds, but over shorter distances, on average. Similar to endozoochory, seed handling by stomatochory also improves the germination potential of dispersed seeds. Dispersal distances achieved by stomatochory were influenced by body mass, daily path length, seed width, fruit type and seed handling techniques.Five main taxonomic groups of stomatochoric dispersers were identified: bats, parrots, squirrels, corvids and Old World monkeys (cercopithecines). Parrots perform dispersal services for the largest fruits and over the longest distances. However, given the lack of research on stomatochory, it is likely other taxa are also important stomatochoric dispersers but have not been identified yet.More research attention must be directed towards seed dispersal services that are not provided by endozoochory. Many stomatochoric dispersers are common animals within communities and could be playing dominant seed dispersal roles, even without swallowing seeds. Community‐wide studies should incorporate all seed dispersal interactions, rather than focusing solely on endozoochory. This will ensure a more robust understanding of community‐wide patterns. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

16. Germination, overcoming seed dormancy and endozoochory dispersal by cattle of native species from natural grassland.

Author

de Azevedo, Eduardo Bohrer, Pagel, Reimar, Maggio, Lilian Pedroso, Chiapinotto, Diego Martins, Conterato, Ionara Fátima, Schneider, Angelo Alberto, Schaedler, Carlos Eduardo, and de David, Diego Bitencourt

Subjects

*SEED dormancy, *GRASSLAND restoration, *SEEDS, *GERMINATION, *GRASSLANDS, *SOIL seed banks

Abstract

Natural grasslands, one of the main ecosystems worldwide, are under threat and native species are desired when addressing restoration issues. The main processes for grasslands restoration success are plant establishment and seed addition in the soil. Thus, it requires overcoming barriers that prevent germination and seed dispersal strategies. This study aimed to assess the germination potential, treatments to overcome seed dormancy and endozoochory dispersal of forage native species by cattle. Seeds from 21 native species from the four most common botanical families (Poaceae, Asteraceae, Fabaceae and Cyperaceae) were collected in a natural grassland area (Pampa Biome) and used in the experiments. Experiment I: germination under controlled conditions of all species was carried out and compared to commercial forage (Paspalum notatum cv. "Pensacola"). Experiment II: three treatments to overcome seed dormancy (mechanical and chemical scarification; priming agent) were tested in six species. Experiment III: the recovery, viability and germination of native P. notatum Flüggé and Desmodium incanum DC seeds from cattle faeces were evaluated. The results show that Paspalum umbrosum Trin. and Saccharum angustifolium Nees have high germination potential when compared to commercial forage. The treatments to overcome seed dormancy increased the germination of D. incanum, Paspalum plicatulum Michx. and Paspalum dilatatum Poir. Total seed recovery of 15% (P. notatum) and 26% (D. incanum), without affecting seed viability, show that cattle are able to supply the soil seed bank with native species. Germination potential, treatments to overcome seed dormancy and endozoochory dispersal of forage native species may be exploited in natural grassland restoration. [ABSTRACT FROM AUTHOR]

Published

2024

17. Evaluation of the Potential Seed Dispersal Effectiveness of Malus sieversii (Lebed.) M. Roem. by Cattle.

Author

Bai, Shilin, Xu, Jiang, Lv, Yaya, Shi, Xiaojun, and Tan, Dunyan

Subjects

*SEED dispersal, *CATTLE, *PLANT reproduction, *ALIMENTARY canal, *BOTANICAL gardens, *SEEDS

Abstract

The success of plant reproduction is highly dependent on effective seed dispersal. This study aimed to evaluate the potential seed dispersal effectiveness of cattle for Malus sieversii. The impact of cattle on the dispersal quantity and dispersal quality of M. sieversii seeds was explored based on camera trapping, GPS tracking, and germination trials. The results showed that, on average, cattle visited M. sieversii trees 477.33 times during a two-month observation period. Out of these visits, 315 were specifically for fruit removal. The fruit removal rate per cattle visit was as high as 96.67%. Additionally, cattle were able to disperse M. sieversii seeds up to a maximum distance of 533.67 m, with an average dispersal distance of 134.62 m. The average distance of cattle movement was recorded as 176.95 m/h, with peak activity observed during 11:00–13:00 and 19:00–21:00. The germination rate of M. sieversii seeds that passed through the digestive tract of cattle was significantly higher than that of control seeds. Finally, the emergence rate and survival rate of seeds dispersed by cattle to forest edges and gaps were significantly higher than those dispersed to understory. These findings suggest that cattle can serve as effective long-distance dispersers of M. sieversii seeds and may play a crucial role in the regeneration and expansion of M. sieversii populations in the Ili Botanical Garden. [ABSTRACT FROM AUTHOR]

Published

2023

18. EuDiS - A comprehensive database of the seed dispersal syndromes of the European flora

Author

Pablo Vargas, Ruben Heleno, and José Costa

Subjects

anemochory, ballochory, endozoochory, epizoochory, Biology (General), QH301-705.5

Abstract

Seed dispersal is a critical process in plant colonisation and demography. Fruits and seeds can be transported by several vectors (typically animals, wind and water), which may have exerted strong selective pressures on plant’s morphological traits. The set of traits that favour dispersal by a specific vector have been historically considered as seed dispersal syndromes. As seed dispersal syndromes have a great potential to predict how seeds move (i.e. the relative importance of the standard mechanisms of seed dispersal), they have attracted the attention of naturalists and researchers for centuries. However, given that observations of actual dispersal events and colonisation are seldom reported, there is still much confusion in current studies failing to properly discriminate between seed dispersal syndromes (i.e. sets of traits that favour a particular mechanism) and actual seed dispersal (i.e. the vector that moves a given seed in one dispersal event). This distinction is important because the presence of any seed dispersal syndrome does not preclude the seed being occasionally dispersed by other non-standard mechanisms (i.e. different from the one predicted). Similarly, the absence of seed dispersal syndromes does not prevent seeds from being dispersed. The correct coding of seed dispersal syndromes thus requires a systematic and evolutive, rather than a phenomenological approach. Unfortunately, such approach has rarely been implemented at a community-level and no comprehensive datasets of seed dispersal syndromes are yet available for any entire flora.This database contains categorisation of the native European flora into eight seed dispersal syndromes. Information for a total of 9,874 species retrieved from the volumes of Flora Europaea were analysed. Earlier versions of this database, which only coded for the presence of four long-distance dispersal syndromes (endozoochorous, epizoochorous, thalassochorous and anemochorous diaspores), were used in four previous studies. Here, we present a fully revised and expanded database, including the presence of four additional short-distance dispersal syndromes (myrmecochorous, vertebrate hoarding, freshwater hydrochorous and ballochorous diaspores), a nomenclatural update for all species and the codification of 416 additional species.Roughly half (51.3%) of the native European flora produce diaspores without traits clearly associated with facilitating seed dispersal. The other half (48.7%) of the European plant species produces diaspores with some specialised traits associated with seed dispersal, most of which (79.9%) with a potential to facilitate long-distance dispersal events. The most common diaspores are those with anemochorous (23.5%), epizoochorous (8.0%), endozoochorous (7.8%), myrmecochorous (7.2%), thalassochorous (2.3%), freshwater dispersal (2.1%), ballochorous (4.6%) and vertebrate hoarding associated traits (0.2%). Two-thirds (66.3%) of the European shrub and tree species have diaspores with some specialisation for biotic seed dispersal.

Published

2023

19. Invasive Buttonweed Cotula coronopifolia (Asteraceae) Is Halotolerant and Has High Potential for Dispersal by Endozoochory

Author

Raúl Sánchez-García, Andy J. Green, Lina Tomasson, Francisco Hortas, and Maria A. Ortiz

Subjects

endozoochory, dry-fruited seeds, dispersal syndromes, salinity, gut passage, non-indigenous species, Botany, QK1-989

Abstract

Buttonweed (Cotula coronopifolia) is native to South Africa but invasive in wetlands in Europe, North America, and Australasia, where it excludes native plants. Despite being dry-fruited, field studies suggest migratory waterbirds can disperse its seeds via gut passage (endozoochory), aiding its expansion. To explore the potential for endozoochory in different regions and habitats, we collected seeds from six populations in Spain, Sweden, and the UK. Germination was tested under different salinity levels (0, 5, 10, 15 g/L) and simulated gut passage treatments: scarification, acidification, or both. No germination occurred at 15 g/L. Higher salinity reduced and delayed germination, but full gut passage treatment (i.e., both scarification and acidification) increased germinability and accelerated germination. Scarification or acid treatment alone resulted in intermediate germination patterns. There were significant salinity × population and gut passage × population interactions on germinability. The acceleration effect of gut passage on germination was stronger at 5–10 g/L than at 0 g/L. This study highlights how migratory birds can facilitate the spread of alien plants introduced by humans. Endozoochory by waterbirds is an understudied mechanism for the long-distance dispersal of dry-fruited alien plants. Further research on C. coronopifolia, including population genetics, is necessary to understand dispersal mechanisms and facilitate management strategies.

Published

2024

20. Long term impacts of endozoochory and salinity on germination of wetland plants after entering simulated seed banks.

Author

Espinar, José L., Figuerola, Jordi, and Green, Andy J.

Subjects

WETLAND plants, GERMINATION, COASTAL wetlands, SALINITY, COASTAL plants, SEED dispersal, PHRAGMITES, CYPERUS

Abstract

Migratory waterbirds disperse a broad range of angiosperms by endozoochory (seed dispersal via gut passage), especially plants in coastal wetlands. However, there is no previous information about the capacity of seeds to remain in the seed bank after waterbird endozoochory, and very little about how wetland salinity can influence the effect of gut passage on germination. We collected seeds of Juncus subulatus (Juncaceae), Bolboschoenus maritimus, and Schoenoplectus litoralis (Cyperaceae) from Doñana marshes in Spain. All three species are considered to have physiological dormancy. After gut passage following ingestion by ducks, seeds were stored in darkness in solutions with six different conductivities (1, 2, 4, 8, 16, and 32 dSm-1), for periods of 1, 6, or 12 months to simulate presence in a seed bank. After storage, 1800 seeds of each plant species assigned to these treatments were subjected to germination tests in demineralized water, together with 1800 control seeds that had not been ingested before storage. All species germinated readily after storage, with or without gut passage beforehand. Storage time and salinity both had important effects on germinability and time to germination, which differed between control and ingested seeds, and between plant species. After ≥6 months, germinability of Cyperaceae was enhanced by gut passage (≤25% higher than control seeds) at some salinities. Only J. subulatus showed consistently lower germinability after passage (≤30%). Only B. maritimus showed consistently slower germination after passage (≤33%). Salinity effects were more complex after passage, but increasing salinity did not generally have a negative impact on germination of ingested seeds. When compared to additional seeds that had not been stored before germination tests, storage reduced germinability in J. subulatus (≤39% reduction), but increased it in B. maritimus (≤17%) and S. litoralis (≤46%). Seeds dispersed by waterbird endozoochory may be easily incorporated into wetland seed banks, where they can remain halotolerant and delay germination until conditions become suitable. This can benefit wetland plants by increasing rates of long-distance dispersal, gene flow, and establishment of new populations. Avian gut passage can have positive and species-specific effects on germination in plants with persistent seed banks and/or physiological dormancy [ABSTRACT FROM AUTHOR]

Published

2023

21. Assessing the diet and seed dispersal ability of non‐native sambar deer (Rusa unicolor) in native ecosystems of south‐eastern Australia.

Author

Quin, Matthew J., Morgan, John W., and Murphy, Nicholas P.

Subjects

*SEED dispersal, *DEER, *MOUNTAIN ecology, *INTRODUCED species, *PLANT conservation, *PLANT dispersal, *ECOSYSTEMS, *SHRUBS

Abstract

Understanding the influence of non‐native herbivores on ecosystems by means of dietary foraging and seed dispersal is important for understanding how non‐native species can alter an invaded landscape, yet requires multiple methodologies. In south‐eastern Australia, introduced sambar deer (Rusa unicolor) are rapidly expanding in range and placing native ecosystems at risk through browsing and as vectors for seed dispersal. We simultaneously investigated sambar deer dietary composition and seed dispersal using DNA sequencing and germination trials, from faecal pellets collected in alpine and wet forest ecosystems. This allowed us to contrast the dietary impacts of introduced sambar deer in different environments, and to explore the potential for habitat‐specific variation in diet. DNA sequencing of the trnL, ITS2 and rbcL gene regions revealed a diverse plant species dietary composition comprising 1003 operational taxonomic units (OTUs). Sambar deer exhibited intermediate feeder behaviours dominated by forbs in alpine and shrubs in wet forest ecosystems. A large proportion of plant OTUs were considered likely to be native, however, the proportion of exotic species in the diet in both ecosystems was greater than would be expected based on the proportion of exotic species in each of the two landscapes. Seed germination trials indicated that sambar deer can disperse a substantial number of native and exotic species in both alpine and wet forest ecosystems. In alpine ecosystems, an individual sambar deer was estimated to disperse on average 816 (±193) seeds per day during the study period, of which 652 (±176) were exotic. Synthesis and applications. Our results suggest that native plant species comprise the majority of sambar deer diets in Australian ecosystems and that the introduced species is dispersing both native and exotic plant species via endozoochory. However, exotic species seedling germination numbers were significantly higher in alpine ecosystems, and given the large daily movements of sambar deer, represents a significant vector for the spread of exotic plant species. Management of native plant species and vegetation communities of conservation significance, or at risk to sambar deer browsing is of high priority, through either the removal of sambar deer or implementation of exclusion‐based methods. [ABSTRACT FROM AUTHOR]

Published

2023

22. Plant traits associated with seed dispersal by ducks and geese in urban and natural habitats.

Author

Tóth, Pál, Green, Andy J., Wilkinson, David M., Brides, Kane, and Lovas‐Kiss, Ádám

Subjects

*SEED dispersal, *GEESE, *CANADA goose, *PLANT dispersal, *DUCKS, *INTRODUCED species, *WETLANDS, *AQUATIC plants

Abstract

Ducks and geese are little studied dispersal vectors for plants lacking a fleshy fruit, and our understanding of the traits associated with these plants is limited. We analyzed 507 faecal samples of mallard (Anas platyrhynchos) and Canada goose (Branta canadensis) from 18 natural and urban wetlands in England, where they are the dominant resident waterfowl. We recovered 930 plant diaspores from 39 taxa representing 18 families, including 28 terrestrial and five aquatic species and four aliens. Mallards had more seeds and seed species per sample than geese, more seeds from barochory and hydrochory syndromes, and seeds that on average were larger and from plants with greater moisture requirements (i.e., more aquatic). Mallards dispersed more plant species than geese in natural habitats. Plant communities and traits dispersed were different between urban (e.g., more achenes) and natural (e.g., more capsules) habitats. Waterfowl can readily spread alien species from urban into natural environments but also allow native terrestrial and aquatic plants to disperse in response to climate heating or other global change. Throughout the temperate regions of the Northern Hemisphere, the mallard is accompanied by a goose (either the Canada goose or the greylag goose) as the most abundant waterfowl in urbanized areas. This combination provides a previously overlooked seed dispersal service for plants with diverse traits. [ABSTRACT FROM AUTHOR]

Published

2023

23. Take me for a ride: Herbivores can facilitate plant reinvasions.

Author

Sullivan, Lauren L. and Shaw, Allison K.

Subjects

*PLANT dispersal, *HERBIVORES, *PLANT invasions, *PLANT populations

Abstract

Herbivores shape plant invasions through impacts on demography and dispersal, yet only demographic mechanisms are well understood. Although herbivores negatively impact demography by definition, they can affect dispersal either negatively (e.g., seed consumption), or positively (e.g., caching). Exploring the nuances of how herbivores influence spatial spread will improve the forecasting of plant movement on the landscape. Here, we aim to understand how herbivores impact how fast plant populations spread through varying impacts on plant demography and dispersal. We strive to determine whether, and under what conditions, we see net positive effects of herbivores, in order to find scenarios where herbivores can help to promote spread. We draw on classic invasion theory to develop a stage-structured integrodifference equation model that incorporates herbivore impacts on plant demography and dispersal. We simulate seven herbivore "syndromes" (combinations of demographic and/or dispersal effects) drawn from the literature to understand how increasing herbivore pressure alters plant spreading speed. We find that herbivores with solely negative effects on plant demography or dispersal always slow plant spreading speed, and that the speed slows monotonically as herbivore pressure increases. However, we also find that plant spreading speed can be hump shaped with respect to herbivore pressure: plants spread faster in the presence of herbivores (for low herbivore pressure) and then slower (for high herbivore pressure). This result is robust, occurring across all syndromes in which herbivores have a positive effect on plant dispersal, and is a sign that the positive effects of herbivores on dispersal can outweigh their negative effects on demography. For all syndromes we find that sufficiently high herbivore pressure results in population collapse. Thus, our findings show that herbivores can speed up or slow down plant spread. These insights allow for a greater understanding of how to slow invasions, facilitate native species recolonization, and shape range shifts with global change. [ABSTRACT FROM AUTHOR]

Published

2023

24. Long term impacts of endozoochory and salinity on germination of wetland plants after entering simulated seed banks

Author

José L. Espinar, Jordi Figuerola, and Andy J. Green

Subjects

Anatidae, dormancy, endozoochory, germination, salinity, seed banks, Plant culture, SB1-1110

Abstract

Migratory waterbirds disperse a broad range of angiosperms by endozoochory (seed dispersal via gut passage), especially plants in coastal wetlands. However, there is no previous information about the capacity of seeds to remain in the seed bank after waterbird endozoochory, and very little about how wetland salinity can influence the effect of gut passage on germination. We collected seeds of Juncus subulatus (Juncaceae), Bolboschoenus maritimus, and Schoenoplectus litoralis (Cyperaceae) from Doñana marshes in Spain. All three species are considered to have physiological dormancy. After gut passage following ingestion by ducks, seeds were stored in darkness in solutions with six different conductivities (1, 2, 4, 8, 16, and 32 dSm-1), for periods of 1, 6, or 12 months to simulate presence in a seed bank. After storage, 1800 seeds of each plant species assigned to these treatments were subjected to germination tests in demineralized water, together with 1800 control seeds that had not been ingested before storage. All species germinated readily after storage, with or without gut passage beforehand. Storage time and salinity both had important effects on germinability and time to germination, which differed between control and ingested seeds, and between plant species. After ≥6 months, germinability of Cyperaceae was enhanced by gut passage (≤25% higher than control seeds) at some salinities. Only J. subulatus showed consistently lower germinability after passage (≤30%). Only B. maritimus showed consistently slower germination after passage (≤33%). Salinity effects were more complex after passage, but increasing salinity did not generally have a negative impact on germination of ingested seeds. When compared to additional seeds that had not been stored before germination tests, storage reduced germinability in J. subulatus (≤39% reduction), but increased it in B. maritimus (≤17%) and S. litoralis (≤46%). Seeds dispersed by waterbird endozoochory may be easily incorporated into wetland seed banks, where they can remain halotolerant and delay germination until conditions become suitable. This can benefit wetland plants by increasing rates of long-distance dispersal, gene flow, and establishment of new populations. Avian gut passage can have positive and species-specific effects on germination in plants with persistent seed banks and/or physiological dormancy.

Published

2023

25. EuDiS - A comprehensive database of the seed dispersal syndromes of the European flora.

Author

Vargas, Pablo, Heleno, Ruben, and Costa, José M.

Subjects

DATA analysis, DEMOGRAPHY, SEED dispersal, FRESH water, BIOTIC communities

Abstract

Background Seed dispersal is a critical process in plant colonisation and demography. Fruits and seeds can be transported by several vectors (typically animals, wind and water), which may have exerted strong selective pressures on plant’s morphological traits. The set of traits that favour dispersal by a specific vector have been historically considered as seed dispersal syndromes. As seed dispersal syndromes have a great potential to predict how seeds move (i.e. the relative importance of the standard mechanisms of seed dispersal), they have attracted the attention of naturalists and researchers for centuries. However, given that observations of actual dispersal events and colonisation are seldom reported, there is still much confusion in current studies failing to properly discriminate between seed dispersal syndromes (i.e. sets of traits that favour a particular mechanism) and actual seed dispersal (i.e. the vector that moves a given seed in one dispersal event). This distinction is important because the presence of any seed dispersal syndrome does not preclude the seed being occasionally dispersed by other non-standard mechanisms (i.e. different from the one predicted). Similarly, the absence of seed dispersal syndromes does not prevent seeds from being dispersed. The correct coding of seed dispersal syndromes thus requires a systematic and evolutive, rather than a phenomenological approach. Unfortunately, such approach has rarely been implemented at a community-level and no comprehensive datasets of seed dispersal syndromes are yet available for any entire flora. New information This database contains categorisation of the native European flora into eight seed dispersal syndromes. Information for a total of 9,874 species retrieved from the volumes of Flora Europaea were analysed. Earlier versions of this database, which only coded for the presence of four long-distance dispersal syndromes (endozoochorous, epizoochorous, thalassochorous and anemochorous diaspores), were used in four previous studies. Here, we present a fully revised and expanded database, including the presence of four additional short-distance dispersal syndromes (myrmecochorous, vertebrate hoarding, freshwater hydrochorous and ballochorous diaspores), a nomenclatural update for all species and the codification of 416 additional species. Roughly half (51.3%) of the native European flora produce diaspores without traits clearly associated with facilitating seed dispersal. The other half (48.7%) of the European plant species produces diaspores with some specialised traits associated with seed dispersal, most of which (79.9%) with a potential to facilitate long-distance dispersal events. The most common diaspores are those with anemochorous (23.5%), epizoochorous (8.0%), endozoochorous (7.8%), myrmecochorous (7.2%), thalassochorous (2.3%), freshwater dispersal (2.1%), ballochorous (4.6%) and vertebrate hoarding associated traits (0.2%). Two-thirds (66.3%) of the European shrub and tree species have diaspores with some specialisation for biotic seed dispersal. [ABSTRACT FROM AUTHOR]

Published

2023

26. Wind and small mammals are complementary fungal dispersers.

Author

Borgmann‐Winter, Benjamin W., Stephens, Ryan B., Anthony, Mark A., Frey, Serita D., D'Amato, Anthony W., and Rowe, Rebecca J.

Subjects

*VESICULAR-arbuscular mycorrhizas, *MYCORRHIZAL fungi, *WOOD-decaying fungi, *MAMMALS, *FUNGAL morphology, *LOGGING, *SAPROPHYTES, *RAIN forests

Abstract

Following a disturbance, dispersal shapes community composition as well as ecosystem structure and function. For fungi, dispersal is often wind or mammal facilitated, but it is unclear whether these pathways are complementary or redundant in the taxa they disperse and the ecosystem functions they provide. Here, we compare the diversity and morphology of fungi dispersed by wind and three rodent species in recently harvested forests using a combination of microscopy and Illumina sequencing. We demonstrate that fungal communities dispersed by wind and small mammals differ in richness and composition. Most wind‐dispersed fungi are wood saprotrophs, litter saprotrophs, and plant pathogens, whereas fungi dispersed in mammal scat are primarily mycorrhizal, soil saprotrophs, and unspecified saprotrophs. We note substantial dispersal of truffles and agaricoid mushrooms by small mammals, and dispersal of agaricoid mushrooms, crusts, and polypores by wind. In addition, we find mammal‐dispersed spores are larger than wind‐dispersed spores. Our findings suggest that wind‐ and small‐mammal‐facilitated dispersal are complementary processes and highlight the role of small mammals in dispersing mycorrhizal fungi, particularly following disturbances such as timber harvest. [ABSTRACT FROM AUTHOR]

Published

2023

27. Owl-mediated diploendozoochorous seed dispersal increases dispersal distance and supports seedling establishment

Author

Laura Godó, Sándor Borza, Orsolya Valkó, Zoltán Rádai, and Balázs Deák

Subjects

Barn owl, Endozoochory, Farmland birds, Nocturnal raptor, Pellet, Rodent, Ecology, QH540-549.5

Abstract

Seed dispersal is an essential process contributing to the maintenance of plant populations. Zoochory is a widespread way of plant dispersal in every terrestrial ecosystem that can ensure the long-distance dispersal of seeds. Secondary seed dispersal (SSD) by far-ranging raptors is a special type of zoochory, which might have a role in colonizing new habitats. We used the barn owl (Tyto alba) as model species to test the effectivity and seasonality of SSD in open semi-natural landscapes. We collected 582 pellets from six sites in East-Hungary throughout one year. We identified prey items in the pellets and determined the viable seed content of the pellets by germination experiments. We found that herbivorous Microtus arvalis L. was the most abundant prey item through which most of the seeds spread. Owls dispersed the seeds of generalist and disturbance-tolerant plants, indicating the habitat type where small mammals occur abundantly. In another experiment we tested the effect of the pellet material on the seedling survival and found that prey remains enhanced establishment of seedlings. Our study suggests that SSD by barn owl is occasional but important event in long-distance seed dispersal. Since the studied owl species uses several habitat types and has larger mobility than the rodents, the revealed dispersal mechanism can considerably increase seed dispersal distance and seed exchange between habitat types.

Published

2023

28. Vitality of mycobionts and photobionts after passing through the digestive tract of Constrictotermes cyphergaster (Isoptera) workers

Author

A. M. Barbosa-Silva, A. Vasconcellos, and M. L. L. Buril

Subjects

caatinga, endozoochory, dispersive mutualism, neotropical region, termites, Science, Biology (General), QH301-705.5, Zoology, QL1-991, Botany, QK1-989

Abstract

Abstract Termites are among the insects that consume lichens and may be potential dispersers of these symbionts. This study evaluated the vitality of photobionts and mycobionts after passing through the digestive tract of Constrictotermes cyphergaster. The percentage of live and dead algae was verified throughout the alimentary canal of 450 workers, originating from five sampled colonies in the Caatinga Dry Forest, NE, Brazil. A progressive growth in algae mortality was observed in the crop, paunch and rectum, however more than 40% of the algae found in faeces presented signs of vitality. Photobiont morphology was different between cells extracted from thallus in natura and algae present in termite faeces. The photobiont cells presented more shrunken cytoplasms after passing through the alimentary canal of C. cyphergaster. There was also an increase between the cell wall space and the cytoplasm membrane of algae found in the termite faecal pellets. Only four broken spores were found in the intestine, which made the vitality analysis unfeasible for these cells. The record of photobiont vitality in termite faecal pellets is indicative of endozoochoric dispersal, suggesting that this relationship between insects and lichens extends beyond a trophic interaction.

Published

2023

29. A non‐photosynthetic plant provides the endangered Amami rabbit with vegetative tissues as a reward for seed dispersal.

Author

Suetsugu, Kenji and Hashiwaki, Hiromu

Subjects

*SEED dispersal, *POLLINATORS, *RABBITS, *ENDANGERED plants, *WILDLIFE conservation, *LARVAL dispersal, *PLANT diversity, *EUROPEAN rabbit

Abstract

A non-photosynthetic plant provides the endangered Amami rabbit with vegetative tissues as a reward for seed dispersal Moreover, because I B. yuwanensis i is a host-specific obligate parasite (Su et al., [18]), its efficient seed dispersal probably requires not only seed transport but also seed placement near the appropriate host roots. Keywords: Balanophora; dry fruit; endozoochory; herbivorous mammals; lagomorphs; mutualism; Pentalagus furnessi; Ryukyu Islands; seed ecology EN Balanophora dry fruit endozoochory herbivorous mammals lagomorphs mutualism Pentalagus furnessi Ryukyu Islands seed ecology 1 5 5 04/05/23 20230401 NES 230401 Rabbits (Leporidae) play a role in ecosystem services because of their wide distribution and potentially high population densities (Delibes-Mateos et al., [6]). Feeding experiments also indicated that I P. furnessi i acted as seed dispersers of I B. yuwanensis i , although the passage of the seeds through their gut reduced the seed survival from 54.9 ± 8.7% ( I n i = 4) to 29.8 ± 12.4% ( I n i = 12) ( I p i < 0.01). [Extracted from the article]

Published

2023

30. Seed Size, Not Dispersal Syndrome, Determines Potential for Spread of Ricefield Weeds by Gulls.

Author

Peralta-Sánchez, Juan Manuel, Ansotegui, Albán, Hortas, Francisco, Redón, Stella, Martín-Vélez, Víctor, Green, Andy J., Navarro-Ramos, María J., Lovas-Kiss, Adam, and Sánchez, Marta I.

Subjects

SEED size, GERMINATION, GULLS, CYPERUS, WEEDS, ENTEROMORPHA, SOLANUM nigrum, PADDY fields

Abstract

Recent field data suggest that migratory gulls disperse many rice field weeds by gut passage (endozoochory), most of which are dry fruited and widely assumed to have no long-distance dispersal mechanisms, except via human activity. We investigated this mechanism with a feeding experiment, in which seeds of five common rice field weeds (in order of increasing seed size: Juncus bufonius, Cyperus difformis, Polypogon monspeliensis, Amaranthus retroflexus, and the fleshy-fruited Solanum nigrum) were fed to seven individuals of lesser black-backed gulls Larus fuscus held in captivity. We quantified seed survival after collecting faeces at intervals for 33 h after ingestion, then extracting intact seeds and running germination tests, which were also conducted for control seeds. All five species showed high seed survival after gut passage, of >70%. Gut retention times averaged 2–4 h, but maxima exceeded 23 h for all species. Germinability after gut passage was 16–54%, and gut passage accelerated germination in J. bufonius and S. nigrum, but slowed it down in the other species. All species had lower germinability after gut passage compared to control seeds (likely due to stratification prior to the experiment), but the loss of germinability was higher in smaller seeds. There was no evidence that the different dispersal syndromes assigned to the five species (endozoochory, epizoochory or barochory) had any influence on our results. In contrast, mean gut retention time was strongly and positively related to seed size, likely because small seeds pass more quickly from the gizzard into the intestines. Non-classical endozoochory of dry-fruited seeds by waterbirds is a major but overlooked mechanism for potential long-distance dispersal, and more research into this process is likely essential for effective weed management. [ABSTRACT FROM AUTHOR]

Published

2023

31. Long-Term Seed Dispersal within an Asymmetric Lizard-Plant Interaction.

Author

Pérez-Cembranos, Ana and Pérez-Mellado, Valentín

Subjects

*SEED dispersal, *PREY availability, *FOOD shortages, *PLANT populations, *PLANT spacing

Abstract

Simple Summary: For 24 years, we studied the interaction of the endemic Balearic lizard Podarcis lilfordi) and the dead horse arum (Helicodicerosmuscivorus) on Aire Island, a small coastal islet of the Balearic Archipelago (Spain). From a small initial plant population, the frugivorous activity of lizards apparently resulted in an extraordinary increase in plant abundance over the entirety of Aire Island. The intensity of seed dispersal by lizards was higher in years with lower rainfall and, consequently, with lower availability of other food resources. Thus, the fruits of the dead horse arum were an alternative food strongly exploited during years of food shortage. During the last 24 years, the mutualistic interaction between the dead horse arum, Helicodiceros muscivorus, and the Balearic lizard, Podarcis lilfordi, was studied on Aire Island (Balearic Islands, Spain). From a small population of a hundred plants, the dead horse arum expanded extraordinarily throughout the island, reaching the highest known densities of the species and occupying areas of the island where it was not previously present. The current abundance of plants is a direct effect of the frugivorous activity of the Balearic lizard, which is the main, if not the only, effective seed disperser of the plant on Aire Island. However, abiotic factors predominated over biotic factors in driving abundance of plants. Over the years, plant densities varied significantly depending on the aridity of the island, with higher densities recorded in drier years. Lizards' frugivorous activity and dispersal intensity was inversely correlated with annual rainfall. We found higher dispersal intensity in years with lower rainfall. We propose that the years of lower rainfall are those in which there is a lower prey availability. In such years, lizards compensate the shortage of other trophic resources with a more intense consumption of dead horse arum fruits. The mutualistic interaction is therefore asymmetric, since there is a greater influence of the frugivorous activity of the lizards on the plants than of the plants on lizards. It is, in short, a system chronically out of balance. [ABSTRACT FROM AUTHOR]

Published

2023

32. A giant gardener of the Floodplains: The Amazonian manatee.

Author

Gil Guterres-Pazin, Michelle, Lopes, Aline, Fernando Volpato Pazin, Victor, Garcia de Santana, Denise, Marmontel, Miriam, and Teresa Fernandez Piedade, Maria

Subjects

AQUATIC plants, HERBACEOUS plants, HYDROLOGIC cycle, PLANT succession, PLANT diversity

Abstract

• Extreme drought revealed seeds and seedlings in manatee feces. • The Amazonian manatee is an endozoochoric disperser of aquatic herbaceous plants. • Manatee migrations aid the spread of herbaceous plants in floodplains. • Manatee endozoochory contributes to the maintenance and diversity of macrophytes. • As a wetland gardener, manatee conservation is even more relevant. During an unusual event of extreme drought and rainfall scarcity in the Amazon in October 2023, we found 96 feces of the Amazonian manatee on the beaches of Lake Amanã (Central Amazon, Brazil). All feces contained seeds and some of them seedlings of aquatic herbaceous species, offering the opportunity to study the role of the manatee as an endozoochoric dispersal agent in the Amazonian floodplains. The feces were collected, analyzed, and the intact seeds were separated, identifying 9 morphotypes of aquatic herbaceous plants. Whole seeds were sectioned and immersed in a tetrazolium solution to assess viability of the embryos. The seeds of the species Luziola spruceana were present in all fecal samples. In 17 feces, 79 seedlings of L. sprucena , Eleocharis subarticulata , Bacopa egensis , Cyperus blepharoleptos , and Cyperus sp. were observed. The Amazon manatee migrates annually between different types of floodable environments due to the rise and fall of water levels. In these two phases of the hydrological cycle there is the availability of fruiting aquatic herbaceous plants on which it feeds. In this way, the Amazonian manatee can be considered a gardener of the Amazon floodplains, as it fertilizes the waters with nutrients that favor plant productivity and acts in the dispersal, colonization and plant succession in these environments. This fact opens a range of research opportunities and considerably elevates the importance of the manatee in the maintenance and diversity of aquatic plants, as well as in maintaining the balance of trophic chains in its living areas. [ABSTRACT FROM AUTHOR]

Published

2024

33. Metabolically active angiosperms survive passage through the digestive tract of a large-bodied waterbird

Author

Simona Paolacci, Marcel A. K. Jansen, Vlastimil Stejskal, Thomas C. Kelly, and Neil E. Coughlan

Subjects

Anatidae, avian vectors, duckweed, endozoochory, plant dispersal, vegetative propagule, Science

Abstract

Avian vectors, such as ducks, swans and geese, are important dispersers of plant propagules. Until recently, it was thought that small vegetative propagules were reliant on adherence to vectors and are unlikely to survive passage through the avian digestive tract. Here, we conclusively demonstrate that metabolically active angiosperms can survive passage through the digestive tract of a large-bodied waterbird. In addition, we show that extended periods of air exposure for up to 7 days does not inhibit the survival of plantlets embedded in faecal matter. Following air exposure, plantlets (n = 3000) were recovered from 75 faecal samples of mute swans, Cygnus olor, with the survival of 203 plantlets. The number of recovered and surviving plantlets did not significantly differ among durations of air exposure. For recovered plantlets, the long-term viability and clonal reproduction of two duckweed species, Lemna minor and L. gibba, were confirmed following greater than eight months of growth. These data further amplify the key role of waterbirds as vectors for aquatic plant dispersal and demonstrate the internal transport (i.e. endozoochory) of metabolically active plantlets. These data suggest dispersal of vegetative plant propagules by avian vectors is likely to be a common occurrence, underpinning connectivity, range expansion and invasions of some aquatic plants.

Published

2023

34. Seed dispersal by waterbirds: a mechanistic understanding by simulating avian digestion.

Author

van Leeuwen, Casper H. A., Soons, Merel B., Vandionant, Laura G. V. T. I., Green, Andy J., and Bakker, Elisabeth S.

Subjects

*WATER birds, *SEED dispersal, *GERMINATION, *LARVAL dispersal, *PLANT dispersal, *AQUATIC plants, *SEED size, *DIGESTION

Abstract

Waterbirds disperse plant species via ingestion and egestion of seeds (endozoochory). However, our understanding about the regulating effects of seed traits, underlying mechanisms and possible (co)evolutionary processes is limited by our traditional reliance on data from feeding experiments with living waterbirds. Here, we overcome these limitations by developing and applying a new bioassay that realistically simulates digestive processes for Anseriformes waterbirds. We test three hypotheses: 1) seed survival and germination are most affected by mechanical digestion in the waterbird gizzard; 2) seed size, hardness, imbibition and shape regulate seed survival; and 3) plants growing in aquatic habitats benefit most from endozoochory by waterbirds. Experiments with 28 200 seeds of 48 plant species demonstrated species‐specific seed survival that was entirely determined by digestion in the avian gizzard. Intestinal digestion did not affect seed survival but affected seed establishment (germinability and germination time) for 21% of the species. Large, hard seeds survived the simulations the best, in contrast to generally higher seed survival for smaller seeds during in vivo experiments. This mechanistically explains that small seeds escape digestive processes rather than being inherently more resistant (the 'escape mechanism'), while large seeds are retained until fully digested or regurgitated (the 'resistance and regurgitation mechanism'). Plants growing in wetter habitats had similar seed survival, but digestive processes stimulated their germinability and accelerated their germination more than for terrestrial plants. This indicates a relative advantage of endozoochory for plant species growing in wet habitats, possibly reflecting a co‐evolutionary response related to dormancy breaking by gut passage. Simulating seed gut passage using a bioassay allowed establishing mechanisms and identifying relevant seed traits involved in seed dispersal by waterbirds. This information enhances our understanding of how animal species shape plant species distributions, which is extremely relevant now that current anthropogenic pressures already severely impact plant dispersal capacities. [ABSTRACT FROM AUTHOR]

Published

2023

35. Geographic patterns of tree dispersal modes in Amazonia and their ecological correlates.

Author

Correa, Diego F., Stevenson, Pablo R., Umaña, Maria Natalia, Coelho, Luiz de Souza, Lima Filho, Diógenes de Andrade, Salomão, Rafael P., Amaral, Iêda Leão do, Wittmann, Florian, Matos, Francisca Dionízia de Almeida, Castilho, Carolina V., Phillips, Oliver L., Guevara, Juan Ernesto, Carim, Marcelo de Jesus Veiga, Magnusson, William E., Sabatier, Daniel, Molino, Jean‐François, Irume, Mariana Victória, Martins, Maria Pires, Guimarães, José Renan da Silva, and Bánki, Olaf S.

Subjects

*RAIN forests, *WIND speed, *TREES, *WATERSHEDS, *SEED dispersal by animals

Abstract

Aim: To investigate the geographic patterns and ecological correlates in the geographic distribution of the most common tree dispersal modes in Amazonia (endozoochory, synzoochory, anemochory and hydrochory). We examined if the proportional abundance of these dispersal modes could be explained by the availability of dispersal agents (disperser‐availability hypothesis) and/or the availability of resources for constructing zoochorous fruits (resource‐availability hypothesis). Time period: Tree‐inventory plots established between 1934 and 2019. Major taxa studied: Trees with a diameter at breast height (DBH) ≥ 9.55 cm. Location: Amazonia, here defined as the lowland rain forests of the Amazon River basin and the Guiana Shield. Methods: We assigned dispersal modes to a total of 5433 species and morphospecies within 1877 tree‐inventory plots across terra‐firme, seasonally flooded, and permanently flooded forests. We investigated geographic patterns in the proportional abundance of dispersal modes. We performed an abundance‐weighted mean pairwise distance (MPD) test and fit generalized linear models (GLMs) to explain the geographic distribution of dispersal modes. Results: Anemochory was significantly, positively associated with mean annual wind speed, and hydrochory was significantly higher in flooded forests. Dispersal modes did not consistently show significant associations with the availability of resources for constructing zoochorous fruits. A lower dissimilarity in dispersal modes, resulting from a higher dominance of endozoochory, occurred in terra‐firme forests (excluding podzols) compared to flooded forests. Main conclusions: The disperser‐availability hypothesis was well supported for abiotic dispersal modes (anemochory and hydrochory). The availability of resources for constructing zoochorous fruits seems an unlikely explanation for the distribution of dispersal modes in Amazonia. The association between frugivores and the proportional abundance of zoochory requires further research, as tree recruitment not only depends on dispersal vectors but also on conditions that favour or limit seedling recruitment across forest types. [ABSTRACT FROM AUTHOR]

Published

2023

36. Weaker Plant-Frugivore Trait Matching Towards the Tropics and on Islands.

Author

Huang X, Dalsgaard B, and Chen SC

Subjects

Animals, Tropical Climate, Feeding Behavior, Plants, Birds physiology, Fruit anatomy & histology, Islands, Beak anatomy & histology

Abstract

Biotic interactions play an important role in species diversification and maintenance and, thus, are regarded as the architecture of biodiversity. Since Darwin and Wallace, biologists have debated whether biotic interactions are stronger towards the tropics and on continents, when compared to temperate regions and islands. Here, based on 354 avian frugivory networks accounting for 22,199 interactions between 1247 bird species and 2126 plant species, we quantified trait matching strength, which reflects interaction strength and specificity, across gradients of latitude and insularity globally. We found that matching between beak size and fruit size was significantly stronger towards the poles and on continents, when compared with the tropics and on islands. As underlining ecological factors, trait matching was stronger with a larger proportion of frugivory (measured as the mean proportion of fruits in bird diets) and network-level mean beak size, and with a smaller proportion of fleshy-fruited species (measured as the proportion of fleshy-fruited plant species in the botanical country where the network was located). These findings suggest that the latitudinal and insular patterns in trait matching are driven by biotic factors that may relate to trait co-evolution between interacting species and optimal foraging for bird species., (© 2025 The Author(s). Ecology Letters published by John Wiley & Sons Ltd.)

Published

2025

37. Effects of Aeschynomene histrix Poir. seed treatment on germination

Author

Sébastien Adjolohoun, Dourossimi Adam Adenile, and Marcel Houinato

Subjects

scarification, endozoochory, thermal treatment, physical dormancy, benin, Biotechnology, TP248.13-248.65, Environmental sciences, GE1-350

Abstract

Description of the subject. Poor germination associated with physical dormancy was experienced in the legume Aeschynomene histrix Poir. seeds and can reduce the establishment and growth of this species. Objectives. To evaluate the effects of different pre-planting treatments, including digestion by Lagune cattle or other preplanting treatments on the germinability of A. histrix seeds. Method. The experiment was divided into three phases. Firstly, six Lagune cattle (three young bulls and three heifers) were fed individually with 1,000 seeds and these seeds were subsequently collected from faeces. Secondly, seed germination was compared among seeds defecated by cattle and seeds submitted to seven other pre-planting treatments: control (intact untreated seeds); seeds scarified using sandpaper; and seeds immersed in 80 °C-hot water for 2, 4, 6, 8, and 10 min. Thirdly, we also assessed the effect of crumbling cattle faeces on A. histrix germinability. Results. The results show that Lagune cattle can disperse seeds of A. histrix with maximum recovery on the second day after ingestion. Of the number of seeds fed 13.42% were recovered. The germination percentage was greatest for sandpaper scarified seeds (96%) and seeds pre-heated during 2 min (86%), but least for digested seeds (4.27%). Breaking-down the dung doubled seedling emergence from digested seeds. Conclusions. As it is desirable to break dormancy of A. histrix seeds, the use of mechanical scarification using sandpapering or hot water scarification 80 °C at 2 min may be more beneficial than cattle digestion.

Published

2021

38. Seed traits matter—Endozoochoric dispersal through a pervasive mobile linker

Author

Jonas Stiegler, Katrin Kiemel, Jana Eccard, Christina Fischer, Robert Hering, Sylvia Ortmann, Lea Strigl, Ralph Tiedemann, Wiebke Ullmann, and Niels Blaum

Subjects

agricultural landscapes, endozoochory, Lepus europaeus, mobile links, seed dispersal, seed dispersal syndrome, Ecology, QH540-549.5

Abstract

Abstract Although many plants are dispersed by wind and seeds can travel long distances across unsuitable matrix areas, a large proportion relies on co‐evolved zoochorous seed dispersal to connect populations in isolated habitat islands. Particularly in agricultural landscapes, where remaining habitat patches are often very small and highly isolated, mobile linkers as zoochorous seed dispersers are critical for the population dynamics of numerous plant species. However, knowledge about the quali‐ or quantification of such mobile link processes, especially in agricultural landscapes, is still limited. In a controlled feeding experiment, we recorded the seed intake and germination success after complete digestion by the European brown hare (Lepus europaeus) and explored its mobile link potential as an endozoochoric seed disperser. Utilizing a suite of common, rare, and potentially invasive plant species, we disentangled the effects of seed morphological traits on germination success while controlling for phylogenetic relatedness. Further, we measured the landscape connectivity via hares in two contrasting agricultural landscapes (simple: few natural and semi‐natural structures, large fields; complex: high amount of natural and semi‐natural structures, small fields) using GPS‐based movement data. With 34,710 seeds of 44 plant species fed, one of 200 seeds (0.51%) with seedlings of 33 species germinated from feces. Germination after complete digestion was positively related to denser seeds with comparatively small surface area and a relatively slender and elongated shape, suggesting that, for hares, the most critical seed characteristics for successful endozoochorous seed dispersal minimize exposure of the seed to the stomach and the associated digestive system. Furthermore, we could show that a hare's retention time is long enough to interconnect different habitats, especially grasslands and fields. Thus, besides other seed dispersal mechanisms, this most likely allows hares to act as effective mobile linkers contributing to ecosystem stability in times of agricultural intensification, not only in complex but also in simple landscapes.

Published

2021

39. Endozoochorous seed dispersal by Korean water deer (Hydropotes inermis argyropus) in Taehwa Research Forest, South Korea

Author

Seung-Kyung Lee, Youngil Ryu, and Eun Ju Lee

Subjects

Endozoochory, Forest habitat, Korean water deer, Plant-animal interactions, Taehwa Research Forest, Ecology, QH540-549.5

Abstract

Endozoochorous seed dispersal by ungulates can facilitate the dispersal of seeds over long distances. Endozoochorous seed dispersal can also result in the ecological filtering of plant species by dispersing plant seeds with distinctive traits. The Korean water deer (Hydropotes inermis argyropus) is a potential long-distance seed dispersal vector in lowland areas of South Korea. In this study, to test the endozoochorous seed dispersal role of Korean water deer in forested areas, we collected 202 fresh fecal pellet group samples in Taehwa Research Forest, Gwangju City, Gyeonggi Province, South Korea. Additionally, we conducted a vegetation survey to compare the traits of dispersed seeds from feces with the seed traits of flora in the study site. To test whether the composition of species traits dispersed by endozoochory is consistent with that of lowland areas, which consist of forested hills, arable land, and wetlands, we compared the results with a former study conducted in the lowlands. From the seedling emergence method applied to feces, we found a total of 22 species and 115 seedlings. Among 202 fecal pellet groups, 19.8% had at least one germinable seed. Species of forbs, with small-sized seeds (≤2 mm in length), from open habitat, and seeds without special morphology for dispersal are most frequently dispersed through Korean water deer endozoochory. These traits were consistent with the former endozoochory study conducted in a lowland area, irrespective of the different available flora. Therefore, we suggest that deer can potentially disperse seeds with the aforementioned traits to forest plant communities, acting as a consistent ecological filter through endozoochory.

Published

2022

40. Effect of frugivory on the germination of cumbaru (Dipteryx alata) seeds ingested by tapirs (Tapirus terrestris) in the area of Cerrado, Brazil

Author

ADEMIR KLEBER M. DE OLIVEIRA, ROSEMARY MATIAS, RICHARD MATHEUS FERNANDES, and JOSÉ CARLOS PINA

Subjects

Endozoochory, humic acids, seedlings growth, tapir latrines, Science

Abstract

Abstract Endozoochory refers to the ingestion of fruits by animals and their release through faeces as it plays an important role in maintaining ecosystems. This study aimed to evaluate the effect of cumbaru fruit ingestion by tapirs on cumbaru seed germination. In latrines, fruits ingested and excreted by the animals were collected among tapir faeces. The collected material was taken to the laboratory and placed in a germination chamber and greenhouse. Fruit ingestion and its subsequent defection propitiated a higher germination rate and germination vigor compared to non-ingested fruit grown in a germination chamber and greenhouse. The results in the greenhouse showed that the latrines (decomposing organic matter) have different thermal conditions (higher temperature), in relation to the external environment, which probably accelerated the germination processes. Evaluation of seedlings grown in a greenhouse and germination chamber indicated that growth in the greenhouse was better due to humic and fulvic acids, which are common stimulants of seed germination and seedling growth. Therefore, tapirs can be considered good fruit dispersers and inducers of cumbaru seeds germination.

Published

2022

41. Differentiation and seasonality in suitable microsites of seed dispersal by an assemblage of omnivorous mammals

Author

Kahoko Tochigi, Sam M.J.G. Steyaert, Tomoko Naganuma, Koji Yamazaki, and Shinsuke Koike

Subjects

Endozoochory, Frugivore, Mammal, Microhabitat, Temperate forest, Fleshy-fruited species, Ecology, QH540-549.5

Abstract

In endozoochorous seed dispersal, the ecological characteristics of each disperser determine the quantitative and qualitative aspects of the dispersal mechanism. To understand the role of different frugivores in multispecies seed dispersal networks, it is necessary to focus on the community structure and investigate where in the landscape seed deposition occurs. The aim of this research was to assess the quantitative and qualitative aspects of a mammalian endozoochorous seed dispersal network in a temperate forest ecosystem and identify the seasonal dispersal niche of each member of the assemblage. We hypothesized that differences among dispersers and seasons would occur in (H1) the proportion of scats that contain seeds, seed abundance in scats, and the number of seed species dispersed per scat, and in (H2) the probability of dispersing seeds to suitable microsites for germination of each species and seed abundance. We also hypothesized (H3) that the microhabitat variables of deposition sites would vary among dispersers, and (H4) that complementary structures would occur in terms of dispersers, dispersed species, and deposition sites. From summer (June–August) to autumn (September–November) in 2003 and 2004, we collected scats of five mammalian frugivorous species and recorded eight microhabitat variables at each deposition site in central Japan. We recorded the presence and number of seeds in scats and identified all seed at the species level. We considered a deposition site as suitable when the habitat type (interior forest, treefall gap, forest edge, and outside the forest) at a deposition site matched the microhabitat required for the for the dispersed species to germinate and survive as seedlings. A total of 341 scats containing seeds of 16 fleshy-fruited species were collected. Among these, 213 (62.5 %) scats were dispersed to suitable habitats (summer: 68.8 %, autumn: 54.8 %). We found that the seed abundance in the scat varied among dispersers and was higher in autumn (H1–2). The probability of dispersing seeds to suitable microsites switched among dispersers from summer to autumn (H2). The distinctive microhabitat variables and variation in microhabitat at deposition sites differed among dispersers across seasons (H3). Disperser-plant and disperser-deposition site networks were specialized and modular in structure compared to random networks during both seasons, but there was a less nested structure in summer compared to autumn (H4). The five mammal species showed differences and seasonality in seed dispersal niches. Because of these differences, these mammal species may play redundant and complementary roles in the seed dispersal network.

Published

2022

42. Recovery and Germination of Malus sieversii (Ledeb.) M. Roem. (Rosaceae) Seeds after Ingestion by Cattle, Horses, and Sheep.

Author

Xu, Jiang, Zhang, Zongfang, Bai, Shilin, Lv, Yaya, Shi, Xiaojun, and Tan, Dunyan

Abstract

Livestock can transport seeds long distances by endozoochory due to their large home range and capacity to move among different habitats. However, differences in digestive system and body size between different livestock species may result in variations in the dispersal of domestic livestock. To test such effects, we explore the effects of endozoochorous seed dispersal of Malus sieversii by three livestock: cattle, horse, and sheep in the Ili Botany Garden, northwest of China. We collected seeds of M. sieversii and fed them to cattle, horses and sheep. After feeding, we collected all the seeds from their feces every 24 h for 6 days and determined the seed recovery percent, mean retention time, and germination percent of seeds after the effects of the digestive tracts of those three livestock species. Seed recovery percent in three livestock species feces were cattle (CS) (54.05%) > horse (HS) (4.83%) > sheep (SS) (0.45%). The mean retention time of seeds in the digestive tract of cattle, horses and sheep were 53 h, 57 h, and 45 h. The seed weight and seed coat thickness decreased significantly after the treatment of the digestive tract. After 80 days cold stratification of seeds, the germination percent of CK, CS, and HS were 61%, 69%, and 18%, respectively. The results indicated cattle is an effective seed disperser of M. sieversii, with a recovery and germination percent in endozoochorous seed dispersal by cattle than that of horse and sheep. Our findings may also provide a theoretical basis about regarding seed-centric grazing management decisions and keeping horse and sheep out of pastures during the fruit of M. sieversii shedding period. [ABSTRACT FROM AUTHOR]

Published

2022

43. Dispersal Patterns of One-Seed Juniper Seeds Contained in Mammal Scats and Bird Pellets.

Author

Stricklan, Dave, Cibils, Andrés F., Saud, Pradip, Steiner, Robert L., McIntosh, Matthew M., Ganguli, Amy C., Cram, Douglas S., and Faist, Akasha M.

Subjects

BIRD pellets, SEED dispersal, FORESTS & forestry, MAMMALS, GRASSLANDS, FOREST birds, DEAD trees

Abstract

We conducted a two-year study in New Mexico, USA, to determine the role of birds, lagomorphs, mesocarnivores, and porcupines in one-seed juniper (J. monosperma (Englem.) Sarg.) seed dispersal. We established random plots: (1) around cone-bearing juniper trees in the woodland; (2) around non-cone-bearing juniper trees in the woodland; (3) in woodland/grassland transition zones; and in (4) grassland habitats near juniper woodlands. We estimated seed density and tallied the number of plots with seeds deposited by each disperser group. Birds deposited the highest number of seeds/ha under the canopy of cone-bearing trees. Mesocarnivores were responsible for the highest average seed deposition in all other habitats. In juniper cone-bearing tree habitats, birds deposited seeds in 100% of plots under-canopy and 93% of plots outside-canopy. Seeds deposited by lagomorphs were observed in plots across all sampled habitats. Overall, seed deposition was greatest around cone-bearing juniper trees, followed by non-cone-bearing juniper trees, woodland-grassland transition zones, and grassland habitats. Birds deposited seeds primarily under cone-bearing tree perch sites. Lagomorphs deposited seeds widely in relatively high numbers across all habitats and are likely responsible for the greatest number of one-seed juniper seeds deposited on the soil surface at our research site. [ABSTRACT FROM AUTHOR]

Published

2022

44. Ecological role of the Eurasian otter, Lutra lutra (Mustelidae, Carnivora) as a seed dispersal species for riparian vegetation in Iberian fresh waters.

Author

LATORRE, Dani, MERINO-AGUIRRE, Raquel, CRUZ, Alejandra, LANTERO, Esther, ARROYO, Alejandra M., FLETCHER, David H., and ALMEIDA, David

Subjects

*SEED dispersal, *FRESH water, *MUSTELIDAE, *OTTERS, *SPECIES, *RIPARIAN plants

Abstract

Endozoochory is a mutualistic interaction between plants and animals. Such a relationship has rarely been examined in the Eurasian otter Lutra lutra. This study aimed to assess the use and electivity of fruit by this carnivore, along with the viability of ingested seeds. Otter spraints and fruit were collected from the River Bullaque (Guadiana River basin, central Spain) in June and September 2018-2019. A high occurrence of fruit (> 40%) was found in spraints during September. Otters ingested fruit in June from only one plant species: Iberian bushweed Flueggea tinctoria (Phyllanthaceae); whereas seeds ingested in September belonged to four plant species: apple mint Mentha suaveolens (Lamiaceae), common hawthorn Crataegus monogyna, dog rose Rosa canina and elmleaf blackberry Rubus ulmifolius (three Rosaceae species). According to the environmental availability, otters displayed avoidance for mint and rose, neutral selection for hawthorn and preference for blackberry. Germination was unsuccessful for mint seeds, whereas germination was the highest for blackberry (37%; 49% for blackbird Turdus merula, a well-known frugivorous species). Otters appear to display an ecological role as seed dispersers for riparian vegetation in Iberian fresh waters. These findings provide insights into this endozoochorous co-evolution between plants and Carnivora. [ABSTRACT FROM AUTHOR]

Published

2022

45. Evidence of endozoochory in upland geese Chloephaga picta and white‐bellied seedsnipes Attagis malouinus in sub‐Antarctic Chile

Author

Xenabeth A. Lázaro, Roy Mackenzie, and Jaime E. Jiménez

Subjects

birds, bryophyte dispersal, endozoochory, mosses, sub‐Antarctic, Ecology, QH540-549.5

Abstract

Abstract Birds are known to act as potential vectors for the exogenous dispersal of bryophyte diaspores. Given the totipotency of vegetative tissue of many bryophytes, birds could also contribute to endozoochorous bryophyte dispersal. Research has shown that fecal samples of the upland goose (Chloephaga picta) and white‐bellied seedsnipe (Attagis malouinus) contain bryophyte fragments. Although few fragments from bird feces have been known to regenerate, the evidence for the viability of diaspores following passage through the bird intestinal tract remains ambiguous. We evaluated the role of endozoochory in these same herbivorous and sympatric bird species in sub‐Antarctic Chile. We hypothesized that fragments of bryophyte gametophytes retrieved from their feces are viable and capable of regenerating new plant tissue. Eleven feces disk samples containing undetermined moss fragments from C. picta (N = 6) and A. malouinus (N = 5) and six moss fragment samples from wild‐collected mosses (Conostomum tetragonum, Syntrichia robusta, and Polytrichum strictum) were grown ex situ in peat soil and in vitro using a agar Gamborg medium. After 91 days, 20% of fragments from A. malouinus feces, 50% of fragments from C. picta feces, and 67% of propagules from wild mosses produced new growth. The fact that moss diaspores remained viable and can regenerate under experimental conditions following the passage through the intestinal tracts of these robust fliers and altitudinal and latitudinal migrants suggests that sub‐Antarctic birds might play a role in bryophyte dispersal. This relationship may have important implications in the way bryophytes disperse and colonize habitats facing climate change.

Published

2021

46. Eggs survive through avian guts—A possible mechanism for transoceanic dispersal of flightless weevils

Author

Si‐Min Lin, Tsui‐Wen Li, Chia‐Hsin Liou, Ace Kevin S. Amarga, Analyn Cabras, and Hui‐Yun Tseng

Subjects

avian‐mediated dispersal, colonization, endozoochory, frugivorous birds, migration, Pachyrhynchus, Ecology, QH540-549.5

Abstract

Abstract How flightless animals disperse to remote oceanic islands is a key unresolved question in biogeography. The flightless Pachyrhynchus weevils represent repetitive colonization history in West Pacific islands, which attracted our interests about how some weevils have successfully dispersed in the reverse direction against the sea current. Here, we propose endozoochory as a possible mechanism that the eggs of the weevils might be carried by embedded in the fruits as the food of frugivorous birds. In this study, Pachyrhynchus eggs were embedded in small pieces of persimmon fruits (Diospyros kaki) and fed to captive frugivorous birds. After digestion, 83%–100% eggs were retrieved from the feces of a bulbul (Hypsipetes leucocephalus) and two thrushes (Turdus chrysolaus). The retrieved eggs had hatching rates higher than 84%, which were not different from the control. In contrast, no egg was retrieved from the feces of the frugivorous pigeon (Treron sieboldii), which took a longer retention time in the guts. Our study identified that the eggs of Pachyrhynchus weevils are possible to be transported by internal digesting in some bird species.

Published

2021

47. Participation of Rossiulus kessleri (Diplopoda, Julida) in the Formation of Algae Assemblages of Urbanized Territories.

Author

Pakhomov, Olexandr, Pokhylenko, Alevtyna, Maltseva, Iryna, and Kulbachko, Yurii

Subjects

*CHLAMYDOMONAS, *MILLIPEDES, *CHLORELLA vulgaris, *ALGAE, *FOREST litter, *BLACK locust

Abstract

Epi- and endozoochory are well explored phenomena that contribute to the distribution patterns of plant seeds, spores or fruits by vertebrates. It is less known how soil algae may be redistributed due to analogous interactions. We describe the participation of saprophage Rossiulus kessleri (Julidae, Diplopoda) in soil algae redistribution. The research was carried out in a park area of a large industrial megacity in the Dnipro steppe region (Ukrainian North Steppe subzone), Dnipro city. Research material was collected according to zoological and algological methods. The leaf litter of tree species (ash maple Acer negundo, Italian poplar Populus deltoides, locust Robinia pseudoacacia, European white elm Ulmus laevis, Norway maple Acer platanoides) and living diplopods were collected within 1 m2 quadrats along transects. Millipedes were maintained without feeding for five days, after which they were fed with the litter collected previously. Identification of algoflora was conducted in washes from the surface of diplopods' bodies, its gut washes, in diplopods' excretions and leaf litter washes. In the leaf litter, as R. kessleri's feeding base, 14 soil algae species were identified—Nostoc punctiforme, Bracteacoccus minor, Mychonastes homosphaera, Neospongiococcum sp., Chlamydomonas sp., Chlorella vulgaris, Stichococcus bacillaris, Pseudococcomyxa simplex, Desmococcus olivaceus, Trebouxia spp., Klebsormidium flaccidum, Nephrodiella phaseolus, Navicula pelliculosa and Vischeria magna. In body surface washes, five soil algae species were identified, in gut washes seven algae species were found, while in excretions, just four were observed. It was established that not all algae species from the gut washes of R. kessleri were present in excretions. The presence of some representatives of soil algae, for example, Chlorella vulgaris and Vischeria magna, in natural park litter, body surface washes, gut washes and in excretions of R. kessleri, suggests that the given species pass through the diplopod's gut and stay undamaged. This indicates that soil saprophage R. kessleri contributes to the dispersal of some soil algae representatives through epi- and endozoochory. Our results represent novel contributions to the knowledge of zoochory. It was shown that animals can be involved in dispersal of not only plant parts but also entire organisms, although it is unknown at what scale diplopods contribute to the diversity and dispersal of algae. [ABSTRACT FROM AUTHOR]

Published

2022

48. Mammal‐mediated seed dispersal in Vanilla: Its rewards and clues to the evolution of fleshy fruits in orchids.

Author

Pansarin, Emerson R. and Suetsugu, Kenji

Subjects

*SEED dispersal, *ORCHIDS, *VANILLA, *FRUIT, *POLLINATORS, *SEED dispersal by animals, *FRUIT development, *GERMINATION

Abstract

Dual seed dispersal systems by birds and mammals represent a novel addition to the broad range of seed dispersal mechanisms in the most species-rich family, Orchidaceae. I Vanilla i is the most diverse genus among vanilloid orchids (approximately 100 species) (Cameron & Molina, 2006), and other I Vanilla i species represent potential sources of desirable traits for vanilla production (do Nascimento et al., 2019). Keywords: endozoochory; fleshy fruit; mutualism; Orchidaceae; seed dispersal EN endozoochory fleshy fruit mutualism Orchidaceae seed dispersal 1 5 5 07/05/22 20220701 NES 220701 Biologists have long been fascinated by the spectacular diversity and pollination biology of orchids (Brodmann et al., 2008; Nilsson, 1992); nonetheless, the dispersal of orchid seeds has received relatively little attention. " A Novel Seed Dispersal Mode of Apostasia nipponica Could Provide some Clues to the Early Evolution of the Seed Dispersal System in Orchidaceae.". [Extracted from the article]

Published

2022

49. Fleshy fruit traits and seed dispersers: which traits define syndromes?

Author

Rojas, Tobias Nicolas, Zampini, Iris Catiana, Isla, María Inés, and Blendinger, Pedro G

Subjects

*FRUIT seeds, *PEARSON correlation (Statistics), *SEED dispersal, *FRUIT composition

Abstract

Background and Aims Fruit traits and their inter-relationships can affect foraging choices by frugivores, and hence the probability of mutualistic interactions. Certain combinations of fruit traits that determine the interaction with specific seed dispersers are known as dispersal syndromes. The dispersal syndrome hypothesis (DSH) states that seed dispersers influence the combination of fruit traits found in fruits. Therefore, fruit traits can predict the type of dispersers with which plant species interact. Here, we analysed whether relationships of fruit traits can be explained by the DSH. To do so, we estimated the inter-relationships between morphological, chemical and display groups of fruit traits. In addition, we tested the importance of each trait group defining seed dispersal syndromes. Methods Using phylogenetically corrected fruit trait data and fruit–seed disperser networks, we tested the relationships among morphological, chemical and display fruit traits with Pearson's correlations and phenotypic integration indices. Then, we used perMANOVA to test if the fruit traits involved in the analysis supported the functional types of seed dispersers. Key Results Morphological traits showed strong intragroup relationships, in contrast to chemical and display traits whose intragroup trait relationships were weak or null. Accordingly, only the morphological group of traits supported three broad seed disperser functional types (birds, terrestrial mammals and bats), consistent with the DSH. Conclusions Altogether, our results give some support to the DSH. Here, the three groups of traits interacted in different ways with seed disperser biology. Broad functional types of seed dispersers would adjust fruit consumption to anatomical limitations imposed by fruit morphology. Once this anatomical filter is sovercome, seed dispersers use almost all the range of variation in chemical and display fruit traits. This suggests that the effect of seed dispersers on fruit traits is modulated by hierarchical decisions. First, morphological constraints define which interactions can actually occur; subsequently, display and composition determine fruit preferences. [ABSTRACT FROM AUTHOR]

Published

2022

50. Seed dispersal in Neuwiedia singapureana: novel evidence for avian endozoochory in the earliest diverging clade in Orchidaceae

Author

Yu Zhang, Yuan-Yuan Li, Miaomiao Wang, Jia Liu, Fanqiang Luo, and Yung-I Lee

Subjects

Apostasioideae, Dispersal, Endozoochory, Germination, Lignification, Seed coat, Botany, QK1-989

Abstract

Abstract Background Seed dispersal allows plants to colonize new habitats that has an significant influence on plant distribution and population dynamics. Orchids produce numerous tiny seeds without endosperm, which are considered to be mainly wind-dispersed. Here, we report avian seed dispersal for an early diverging orchid species, Neuwiedia singapureana, which produces fleshy fruits with hard seed coats in the understory of tropical forests. Results Neuwiedia singapureana produced fleshy fruits that turned red in autumn, and birds were confirmed to be the primary seed dispersers. As compared to its sister species, N. veratrifolia with dehiscent capsular fruits, embryos of N. singapureana were larger and enclosed by thickened and lignified seed coats. After passing through the digestive tracts of birds, the seeds still stayed alive, and the walls of seed coat contained several cracks. The germination percentage increased significantly for digested seeds as compared with seeds from intact fruits. Conclusion The thickened and lignified seed coat may protect seeds as they passed through the digestive tracts of birds. Taken together with a recent report of insect-mediated seed dispersal system in the subfamily Apostasioideae, the animal-mediated seed dispersal may be an adaptive mechanism promoting the success of colonization in dark understory habitats.

Published

2021