56 research outputs found
Технологічне забезпечення виробничої потужності марганцевих кар’єрів при змінному попиті на рудну сировину
Запропонована технологічна схема, в якій розкривні уступи перерозподіляються по
висоті у межах певної потужності розкриву при заданій продуктивності кар’єру, а верхній та нижче розташований уступи об’єднані та відробляються транспортно-відвальним способом, для чого у внутрішньому відвалі створюється додаткова приймальна ємність. Набула подальшого розвитку методика розрахунку виробничої потужності кар’єру. Удосконалено метод вибору комплексів технологічного устаткування для слабкостійких обводнених порід, де враховується коефіцієнт запасу стійкості укосів внутрішнього відвалу.The technological flow chart in which stripping bench are redistributed on a height within the limits of certain power of overburden at the set productivity of quarry is offered. It is proposed to merge overhead and below located benches and work out them by transport-dump method, for what an additional receiving capacity is created in an internal dump. The computational procedure of quarry production capacity is obtained the further development. The method of choice of complexes of technological equipment for weak-steady and watered rocks is improved. The coefficient of slope stability margin of internal dump is considered in this method
Dispersal of Plants by Waterbirds
The widespread distribution of fresh-water
plants and of the lower animals, whether retaining
the same identical form or in some degree modified, I believe mainly depends on the wide
dispersal of their seeds and eggs by animals, more especially by fresh-water
birds, which have
large powers of flight, and naturally travel from one to another and often distant piece of
water. — Charles
Darwin (1859)Peer reviewe
Seed dispersal by dabbling ducks: an overlooked dispersal pathway for a broad spectrum of plant species
1. Dabbling ducks (Anatinae) are omnivorous birds that are widespread, numerous, highly mobile
and often migratory, and therefore have great potential for (long distance) dispersal of other organisms,
including plants. However, their ability to act as plant dispersal vectors has received little
attention compared to frugivores and is often assumed to be relevant only for wetland species.
2. To evaluate the potential for plant dispersal by dabbling ducks, we collated and analysed existing
data. We identified all plant species whose seeds have been recorded in the diets of the seven dabbling
duck (Anas) species in the Western Palaearctic, as reported from gut content analyses. We then
analysed the habitats and traits of these plant species to identify general patterns, and related these
to data on gut passage survival and duck movements.
3. A large number of plant species (> 445 species of 189 genera and 57 families) have been recorded
in the diet of dabbling ducks. These plant species represent a very wide range of habitats, including
almost the full range of site fertility, moisture and light conditions, excluding only very dry and deeply
shaded habitats. The ducks prefer seeds of intermediate sizes (1–10 mm3), which have good chances to
survive gut passage, but also ingest smaller and larger seeds. Ingested seeds represent a wide range of
dispersal syndromes, including fleshy fruits. Many species (62%) were not previously considered animal-
dispersed in plant data bases, and 66% were not identified as bird-dispersed. Rarefaction analyses
suggest that our analysis still greatly underestimates the total number of plant species ingested.
4. Synthesis. Dabbling ducks do not exclusively ingest seeds of wetland plants, which make up only
40% of the ingested species. Rather, they feed opportunistically on a wide cross-section of plant
species available across the landscapes they inhabit. Given the millions of ducks, the hundreds to
thousands of seeds ingested per individual on a daily basis, and known gut passage survival rates,
this results in vast numbers of seeds dispersed by ducks per day. Internal seed dispersal by dabbling
ducks appears to be a major dispersal pathway for a far broader spectrum of plant species than previously
consideredPeer reviewe
Weak negative associations between avian influenza virus infection and movement behaviour in a key host species, the mallard Anas platyrhynchos
Animal movements may contribute to the spread of pathogens. In the case of avian influenza virus, [migratory] birds have been suggested to play a role in the spread of some highly pathogenic strains (e.g. H5N1, H5N8), as well as their low pathogenic precursors which circulate naturally in wild birds. For a better understanding of the emergence and spread of both highly pathogenic (HPAIV) and low pathogenic avian influenza virus (LPAIV), the potential effects of LPAIVs on bird movement need to be evaluated. In a key host species, the mallard Anas platyrhynchos, we tested whether LPAIV infection status affected daily local ( 100 m) movements by comparing movement behaviour 1) within individuals (captured and sampled at two time points) and 2) between individuals (captured and sampled at one time point). We fitted free-living adult males with GPS loggers throughout the autumn LPAIV infection peak, and sampled them for LPAIV infection at logger deployment and at logger removal on recapture. Within individuals, we found no association between LPAIV infection and daily local and regional movements. Among individuals, daily regional movements of LPAIV infected mallards in the last days of tracking were lower than those of non-infected birds. Moreover, these regional movements of LPAIV infected birds were additionally reduced by poor weather conditions (i.e. increased wind and/or precipitation and lower temperatures). Local movements of LPAIV infected birds in t
Seed mass, hardness, and phylogeny explain the potential for endozoochory by granivorous waterbirds
Field studies have shown that waterbirds, especially members of the Anatidae family,
are major vectors of dispersal by endozoochory for a broad range of plants lacking a
fleshy fruit, yet whose propagules can survive gut passage. Widely adopted dispersal
syndromes ignore this dispersal mechanism, and we currently have little understanding
of what traits determine the potential of angiosperms for endozoochory by waterbirds.
Results from previous experimental studies have been inconsistent as to how
seed traits affect seed survival and retention time in the gut and have failed to control
for the influence of plant phylogeny. Using 13 angiosperm species from aquatic
and terrestrial habitats representing nine families, we examined the effects of seed
size, shape, and hardness on the proportion of seeds surviving gut passage through
mallards (Anas platyrhynchos) and their retention time within the gut. We compiled
a molecular phylogeny for these species and controlled for the nonindependence of
taxa due to common descent in our analyses. Intact seeds from all 13 species were
egested, but seed survival was strongly determined by phylogeny and by partial effects
of seed mass and hardness (wet load): species with seeds harder than expected
from their size, and smaller than expected from their loading, had greater survival.
Once phylogeny was controlled for, a positive partial effect of seed roundness on
seed survival was also revealed. Species with seeds harder than expected from their
size had a longer mean retention time, a result retained after controlling for phylogeny.
Our study is the first to demonstrate that seed shape and phylogeny are important
predictors of seed survival in the avian gut. Our results demonstrate that the
importance of controlling simultaneously for multiple traits and relating single traits
(e.g., seed size) alone to seed survival or retention time is not a reliable way to detect
important patterns, especially when phylogenetic effects are ignoredPeer reviewe
A Comprehensive Model for the Quantitative Estimation of Seed Dispersal by Migratory Mallards
Long-distance seed dispersal is an important ecosystem service provided by migratory animals. Plants inhabiting discrete habitats, like lakes and wetlands, experience dispersal limitation, and rely heavily on zoochory for their spatial population dynamics. Granivorous waterbirds may disperse viable seeds of wetland plants over long distances during migration. The limited knowledge of waterbird migration has long hampered the evaluation of the importance of waterbirds in seed dispersal, requiring key metrics such as realistic dispersal distances. Using recent GPS tracking of mallards during spring migration, we built a mechanistic seed dispersal model to estimate realistic dispersal distances. Mallards are abundant, partially migratory ducks known to consume seeds of >300 European plant species. Based on the tracking data, we informed a mallard migration simulator to obtain a probabilistic spring migration model for the mallard population wintering at Lake Constance in Southern Germany. We combined the spring migration model with seed retention curves to develop seed dispersal kernels. We also assessed the effects of pre-migratory fasting and the availability of suitable deposition habitats for aquatic and wetland plants. Our results show that mallards at Lake Constance can disperse seeds in the northeastern direction over median distances of 293 and 413 km for seeds with short and long retention times, respectively, assuming a departure immediately after foraging. Pre-migratory fasting strongly affected the dispersal potential, with only 1–7% of ingested seeds left for dispersal after fasting for 12 h. Availability of a suitable deposition habitat was generally <5% along the migratory flyway. The high probability of seed deposition in a freshwater habitat during the first stopover, after the mallards completed the first migratory flight, makes successful dispersal most likely to happen at 204–322 km from Lake Constance. We concluded that the directed long-distance dispersal of plant seeds, realized by mallards on spring migration, may contribute significantly to large scale spatial plant population dynamics, including range expansion in response to shifting temperature and rainfall patterns under global warming. Our dispersal model is the first to incorporate detailed behavior of migratory waterbirds and can be readily adjusted to include other vector species when tracking data are available
Love thy neighbour?-Spatial variation in density dependence of nest survival in relation to predator community
Aim: In many species, density-dependent effects on reproduction are an important driver of population dynamics. However, it is rarely considered that the direction of density dependence is expected to vary over space and time depending on anti-predator behaviour and predator community. Aggregation may allow for effective group mobbing against avian nest predators while aggregation may also attract mammalian predators, causing negative density dependence. We aim to quantify spatial variation in the effect of conspecific breeding density on nest survival in a mobbing bird species (Eurasian oystercatcher; Haematopus ostralegus) and identify whether this variation in density dependence can be explained by the predator community.
Location: Country-wide (The Netherlands). Methods: We integrated reproductive data with breeding territory maps of Eurasian oystercatchers and occupancy maps of avian and mammalian predator species across the Netherlands for a 10-year period.
Results: Spatial variation in the composition of the predator community explained the effects of neighbour density, showing decreasing nest survival when both conspecific density and mammalian dominance increased. Also, heterospecific density (from breeding godwits and lapwing) has an additional effect on the oystercatcher nest survival. Strikingly, this pattern did not extend to mammal-free island populations.
Main conclusions: Our study provides evidence that both the strength and sign of density dependence can vary spatially within species, implying that it is dangerous to generalize results from a single local population to large-scale management implications and modelling exercises. The study also suggests that conservation actions that aim to attract breeding birds should be prioritized in areas with fewer mammalian predators, but this idea requires further testing on island populations
Lack of virological and serological evidence for continued circulation of highly pathogenic avian influenza H5N8 virus in wild birds in the Netherlands, 14 November 2014 to 31 January 2016
In 2014, H5N8 clade 2.3.4.4 highly pathogenic avian influenza (HPAI) viruses of the A/Goose/ Guangdong/1/1996 lineage emerged in poultry and wild birds in Asia, Europe and North America. Here, wild birds were extensively investigated in the Netherlands for HPAI H5N8 virus (real-time polymerase chain reaction targeting the matrix and H5 gene) and antibody detection (haemagglutination inhibition and virus neutralisation assays) before, during and after the first virus detection in Europe in late 2014. Between 21 February 2015 and 31 January 2016, 7,337 bird samples were tested for the virus. One HPAI H5N8 virus-infected Eurasian wigeon (Anas penelope) sampled on 25 February 2015 was detected. Serological assays were performed on 1,443 samples, including 149 collected between 2007 and 2013, 945 between 14 November 2014 and 13 May 2015, and 349 between 1 September and 31 December 2015. Antibodies specific for HPAI H5 clade 2.3.4.4 were absent in wild bird sera obtained before 2014 and present in sera collected during and after the HPAI H5N8 emergence in Europe, with antibody incidence declining after the 2014/15 winter. Our results indicate that the HPAI H5N8 virus has not continued to circulate extensively in wild bird populations since the 2014/15 winter and that independent maintenance of the virus in these populations appears unlikely
Local amplification of highly pathogenic avian influenza H5N8 viruses in wild birds in the Netherlands, 2016 to 2017
Introduction: Highly pathogenic avian influenza (HPAI) viruses of subtype H5N8 were re-introduced into the Netherlands by late 2016, after detections in southeast Asia and Russia. This second H5N8 wave resul
Deaths among wild birds during highly pathogenic avian influenza A(H5N8) virus outbreak, the Netherlands
During autumn–winter 2016–2017, highly pathogenic avian influenza A(H5N8) viruses caused mass die-offs among wild birds in the Netherlands. Among the ≈13,600 birds reported dead, most were tufted ducks (Aythya fuligula) and Eurasian wigeons (Anas penelope). Recurrence of avian influenza outbreaks might alter wild bird population dynamics
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