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Past climatic refugia and landscape resistance explain spatial genetic structure in Oriental beech in the South Caucasus
AbstractPredicting species‐level effects of climatic changes requires unraveling the factors affecting the spatial genetic composition. However, disentangling the relative contribution of historical and contemporary drivers is challenging. By applying landscape genetics and species distribution modeling, we investigated processes that shaped the neutral genetic structure of Oriental beech (Fagus orientalis), aiming to assess the potential risks involved due to possible future distribution changes in the species. Using nuclear microsatellites, we analyze 32 natural populations from the Georgia and Azerbaijan (South Caucasus). We found that the species colonization history is the most important driver of the genetic pattern. The detected west–east gradient of genetic differentiation corresponds strictly to the Colchis and Hyrcanian glacial refugia. A significant signal of associations to environmental variables suggests that the distinct genetic composition of the Azerbaijan and Hyrcanian stands might also be structured by the local climate. Oriental beech retains an overall high diversity; however, in the context of projected habitat loss, its genetic resources might be greatly impoverished. The most affected are the Azerbaijan and Hyrcanian populations, for which the detected genetic impoverishment may enhance their vulnerability to environmental change. Given the adaptive potential of range‐edge populations, the loss of these populations may ultimately affect the specie's adaptation, and thus the stability and resilience of forest ecosystems in the Caucasus ecoregion. Our study is the first approximation of the potential risks involved, inducing far‐reaching conclusions about the need of maintaining the genetic resources of Oriental beech for a species' capacity to cope with environmental change.
Biological Flora of Britain and Ireland: Cytisus scoparius. No. 307
Abstract This account presents information on all aspects of the biology of Cytisus scoparius (L.) Link (Broom or Scotch Broom) (Sarothamnus scoparius (L.) W.D.J. Koch) that are relevant to understanding its ecological characteristics and behaviour. The main topics are presented within the standard framework of the Biological Flora of the British Isles: distribution, habitat, communities, responses to biotic factors, responses to the environment, structure and physiology, phenology, floral and seed characters, herbivores and disease, history, and conservation. Broom is shade‐intolerant and drought‐tolerant, aided by c. 40% of net carbon fixation coming from stem photosynthesis and an ability to shed leaves in inclement periods. It is at its best in lowland, open, disturbed habitats but also open woodland; widespread across Britain, Ireland and much of Europe. It has been widely introduced to all continents (except Antarctica) where due to its prolific seeding and rapid spread it is often an invasive shrub. Broom thrives in an oceanic climate on a range of moist soils but is capable of invading arid and poor soils, helped by its ability to acquire 50% of its nitrogen from bacteria in root nodules. Broom is an obligate seeder, pollinated by a limited range of insects, primarily bees large enough to trip the explosive pollination mechanism. Seeds are dispersed explosively from the fruit and secondarily moved by ants attracted to the elaiosome. The water impermeable seed coat results in high dormancy, and so broom forms a significant seed bank. In Britain and Ireland, populations are showing little decline and broom is not considered to be at threat of extinction. In introduced areas, broom can rapidly spread despite browsing by native species and livestock. Biological control using a range of insects introduced from native areas, particularly seed eaters, together with mechanical and possibly chemical treatment, is showing some promise in its control.
Biological flora of Britain and Ireland: Viscum album, No. 303
AbstractThis account presents information on all aspects of the biology ofViscum albumL. (Mistletoe) that are relevant to understanding its ecological characteristics and behaviour. The main topics are presented within the standard framework of theBiological Flora of Britain and Ireland: distribution, habitat, communities, responses to biotic factors, responses to environment, structure and physiology, phenology, floral and seed characters, herbivores and disease, history, and conservation.Viscum albumis a widespread obligate hemiparasite on a wide range of angiosperm and gymnosperm trees. Once thought to take just water and nutrients from its host via a haustorium, it is now suggested to also take carbon. Heavy infestations can reduce host vitality through prolific water use and carbon removal.Flowers are highly reduced but are primarily pollinated by flies, ants and bees. Seeds are dispersed by birds. Removal of the epicarp is necessary for successful seedling establishment, and seeds have a sticky viscin coat, adhering it to the host bark. Vegetative spread also happens under the bark of its host resulting in densities of >700 Mistletoe plants per host.Viscum albumis a lowland species, most frequent in open human‐made habitats extending into woodlands in Europe. It has been widely planted for folklore use centred around Christmas. Despite conservation concerns following removal of Mistletoe‐laden old orchards, the species is thriving and needs control in some areas. Viscotoxins and lectins in leaves and shoots have been widely used in herbal medicine and now potentially in complementary cancer therapy.