Elphidium williamsoni Haynes, 1973 is a foraminiferal species that has been used extensively in relative sea level and climate change studies, as it is characteristic of intertidal zones. Identifying this and other species of Elphidium has proven difficult because key morphological characteristics show a wide range of variation causing widespread confusion in determinations.
A study led by University of St Andrews PhD student Angela Roberts and recently published in the Journal PloSOne, has gone a long way to clearly define this important foraminiferal species. The study is based on measurements from Museum type specimens as well as genetic studies on contemporary material collected from the same location as the type specimens.
The Orchid Observers project is closing at the end of July (so if you can help us out with the last few classifications then you have just a few days left!). We’d like to say a huge thank you to all of the volunteers who photographed orchids, identified photos online or transcribed and classified our museum specimens. Your time, expertise and enthusiasm is really valued, so thanks for being part of the Orchid Observers team.
The project had two main research questions:
Firstly, the climate science research: Are orchid flowering times being affected by climate change?
Secondly, the social science research: How do volunteers interact and share ideas and knowledge with one another, within a project that combines both outdoor and online activities?
The second question was of particular interest to our funders, the Arts and Humanities Research Council. We are asking all Orchid Observers volunteers to answer a short survey to help us address the second question, so keep an eye out for that coming soon. Here I’ll update you on the science research outcomes and how we are analysing the data you’ve collected.
This week HLF Identification Trainer of the Future, Anthony Roach, introduces us to the marvellous diversity of seaweeds on Britain’s shores and shows you how you can contribute to citizen science by recording them as part of the Big Seaweed Search.
Seaweeds are incredibly diverse and beautiful organisms. They are strong biological indicators of the health of our environment and play an important role in the marine and coastal environment, despite being perceived by some as drab, slimy, green and brown sludge hanging from the rocks or smelly dried husks that litter the high tide mark. The Museum’s seaweed researchers and staff at the Angela Marmont Centre for UK Biodiversity are therefore encouraging everyone to learn more about seaweeds, to map their diversity and assess how they are responding to climate change through the Big Seaweed Search.
I grew up near the coast in Devon and I certainly over-looked seaweeds when whiling away countless hours rock pooling. I would slip and slide my way over seaweed covered rocks in search of the jazzier or more colourful marine stars of the rock pool such as crabs, starfish, sea anemones and blennies. I have discovered however that there is so much more to seaweeds than at first meets the eye.
Sally Hyslop, one of the trainees on our Identification Trainers for the Future programme, gives an update on the results of our 9-year-long Bluebell Survey:
The arrival of bluebells each spring is an iconic sight. The floods of nodding colour characterise our ancient woodlands, support a commotion of insect life and make up an important part of Britain’s natural heritage. Our native bluebell species is widespread in Britain; in fact half of the world’s population is found here. But the introduction of non-native bluebells, planted in our parks and gardens, may be threatening our native species.
The introduced Spanish bluebell is deceptively similar to our native species, except for a few subtle differences in its features. It is broader in size, its petals flare out a little more, and the pollen is not white, but characteristically blue.
Spanish bluebells can breed freely with our native species, creating a hybrid plant with features from both species. Since the Bluebell Survey started in 2006, citizen scientists have been carefully identifying bluebells across Britain and recording the whereabouts of native, non-native and hybrid forms. This helps us to investigate these changes.