50 research outputs found
Common plants as indicators of habitat suitability for rare plants; quantifying the strength of the association between threatened plants and their neighbours
Rare plants are vulnerable to environmental change but easy to over-look during survey. Methods are therefore needed that can provide early warnings of population change and identify potentially suitable vegetation that could support new or previously overlooked populations. We developed an indicator species approach based on quantifying the association between rare plants across their British ecological range and their suite of more common neighbours. We combined quadrat data, targeted on six example species selected from the Botanical Society of Britain and Ireland's Threatened Plant Project (TPP), with representative survey data from across Britain. Bayes Theorem was then used to calculate the probability that the rare species would occur given the presence of an associated species that occurred at least once with the rare species in the TPP quadrats. These values can be interpreted as indicators of habitat suitability rather than expectations of species presence. Probability values for each neighbour species are calculated separately and are therefore unaffected by biased recording of other species. The method can still be applied if only a subset of species is recorded, for example, where weaker botanists record a pre-selected subset of more easily identifiable neighbour species. Disadvantages are that the method is constrained by the availability of quadrats currently targeted on rare species and results are influenced by any recording biases associated with existing quadrat data
Long‐term trends in the distribution, abundance and impact of native “injurious” weeds
Questions: How can we quantify changes in the distribution and abundance of injurious weed species (Senecio jacobaea, Cirsium vulgare, Cirsium arvense, Rumex obtusifolius, Rumex crispus and Urtica dioica), over long time periods at wide geographical scales? What impact do these species have on plant communities? To what extent are changes driven by anthropogenically induced drivers such as disturbance, eutrophication and management?
Location: Great Britain.
Methods: Data from national surveys were used to assess changes in the frequency and abundance of selected weed species between 1978 and 2007. This involved novel method development to create indices of change, and to relate changes in distribution and abundance of these species to plant community diversity and inferred changes in resource availability, disturbance and management.
Results: Three of the six weed species became more widespread in GB over this period and all of them increased in abundance (in grasslands, arable habitats, roadsides and streamsides). Patterns were complex and varied by landscape context and habitat type. For most of the species, there were negative relationships between abundance, total plant species richness, grassland, wetland and woodland indicators. Each individual species responds to a different combination of anthropogenic drivers but disturbance, fertility and livestock management significantly influenced most species.
Conclusions: The increase in frequency and abundance of weeds over decades has implications for landscape‐scale plant diversity, fodder yield and livestock health. This includes reductions in plant species richness, loss of valuable habitat specialists and homogenisation of vegetation communities. Increasing land‐use intensity, excessive nutrient input, overgrazing, sward damage, poaching and bare ground in fields and undermanagement or too frequent cutting on linear features may have led to increases in weeds. These weeds do have conservation value so we are not advocating eradication, rather co‐existence, without dominance. Land management policy needs to adapt to benefit biodiversity and agricultural productivity
Buffering effects of soil seed banks on plant community composition in response to land use and climate
Aim
Climate and land use are key determinants of biodiversity, with past and ongoing changes posing serious threats to global ecosystems. Unlike most other organism groups, plant species can possess dormant life‐history stages such as soil seed banks, which may help plant communities to resist or at least postpone the detrimental impact of global changes. This study investigates the potential for soil seed banks to achieve this.
Location
Europe.
Time period
1978–2014.
Major taxa studied
Flowering plants.
Methods
Using a space‐for‐time/warming approach, we study plant species richness and composition in the herb layer and the soil seed bank in 2,796 community plots from 54 datasets in managed grasslands, forests and intermediate, successional habitats across a climate gradient.
Results
Soil seed banks held more species than the herb layer, being compositionally similar across habitats. Species richness was lower in forests and successional habitats compared to grasslands, with annual temperature range more important than mean annual temperature for determining richness. Climate and land‐use effects were generally less pronounced when plant community richness included seed bank species richness, while there was no clear effect of land use and climate on compositional similarity between the seed bank and the herb layer.
Main conclusions
High seed bank diversity and compositional similarity between the herb layer and seed bank plant communities may provide a potentially important functional buffer against the impact of ongoing environmental changes on plant communities. This capacity could, however, be threatened by climate warming. Dormant life‐history stages can therefore be important sources of diversity in changing environments, potentially underpinning already observed time‐lags in plant community responses to global change. However, as soil seed banks themselves appear, albeit less, vulnerable to the same changes, their potential to buffer change can only be temporary, and major community shifts may still be expected
Intoxicação aguda por Pteridium arachnoideum e Pteridium caudatum em bovinos e distribuição das plantas em Mato Grosso
São descritos os aspectos epidemiológicos, clínicos e patológicos de um surto de intoxicação por Pteridium arachnoideum e Pteridium caudatum em bovinos no Estado de Mato Grosso. A distribuição dessas plantas no Estado, a intensidade de invasão de pastagens e alguns fatores associados à invasão das pastagens por Pteridium spp. são também descritos. Pteridium spp. foi observada em 83 propriedades de nove municípios de Mato Grosso e deste total, amostras de 22 propriedades foram coletadas para identificação taxonômica. Em 22 propriedades identifica-se P. arachnoideum e em duas dessas havia também P. caudatum. O desmatamento e a realização de queimadas parecem estar relacionados com a invasão de Pteridium spp. nas pastagens. Na propriedade em que ocorreu a doença, 306 bovinos foram introduzidos em uma pastagem formada por Brachiaria brizantha intensamente invadida por P. arachnoideum e P. caudatum e desses 22 bovinos adoeceram e morreram. Os principais sinais clínicos foram febre alta, apatia, fadiga, fraqueza e decúbito. Na necropsia havia graus variáveis de hemorragias em vários órgãos e cavidades e infartos ocasionais. Microscopicamente, a alteração mais importante consistiu em aplasia severa da medula óssea vermelha. Os achados epidemiológicos, clínicos e patológicos associados à identoificação taxonômica da planta fundamentam o diagnóstico de intoxicação aguda por P. arachnoideum e P. caudatum em bovinos. O crescente desmatamento e a frequente utilização de queimadas em Mato Grosso podem contribuir para que esta doença venha a ser uma importante fonte de prejuízos para a pecuária do Estado
The use of chemical ameliorants to restore heathland and species-rich grassland
Elevated soil available phosphorus (P) concentration can restrict attempts to restore high-quality, semi-natural vegetation. An increased P concentration or pH could derive either from natural successional processes or as a result of past agricultura; activity. Hoigh soil available P concentrations and, in the case of hathland, a high soil pH are major constraints to the establishment of heathland and species-rich chalk grassland communitites. here we describe the use of chemical soil ameliorants to reduce soil available P in both heathland and chalk grassland soils and to acidify heathland soils. Application of iron and aluminium sulphate and elemental S reduced soil pH and available P to provide a window of opportunity that might allow the establishment of hathland and chalk grassland communitie
Native dominants in British woodland – a potential cause of reduced species-richness?
The invasion of native habitats by alien species has received considerable attention. However, in Britain
high levels of dominance by a small number of aggressive native plant species may have an equal, or
greater, impact on the richness of native woodlands. Here, we examine this hypothesis by modelling the
realized niche of native-dominant species along the principal coenocline of British woodlands, and
examined niche overlaps with 78 woodland specialist species and two alien species. Four native species
had a much greater cover than all other field-layer species, and between them they entirely covered the
response range of all other field-layer species, replacing one another along the coenocline. These findings,
combined with autecological information suggest that Hedera helix, Mercurialis perennis, Pteridium
aquilinum and Rubus fruticosus have the potential to become ‘over-dominant’ and perhaps may impinge on
other field-layer species. Our results also identified which field-layer species are likely to be impacted by a
change in abundance of each of these dominant-species, and as such, provide a novel quantitative
method of risk assessment to aid conservation policy. Understanding how woodland communities remain
diverse, even in the presence of aggressive native species, may provide insights into how the impact of
exotic invasive species can be managed