Science blog

Exploring science at the British Library

41 posts categorized "Environmental science"

06 February 2020

INTRODUCING: THE TRUTH INSIDE – 11 February 2020

Wise Festival - Celebrating the International Day of Women and Girls in Science
 
Is that necklace of yours really gold? Bournemouth University’s Archaeology and Anthropology Department will be showcasing their Portable X-Ray Fluorescence (PXRF) analyser which allows archaeologists to determine the composition of archaeological artefacts and sediments. Bring along any small items you'd like to discover more about or see inside one of our artefacts.
 
An image of a woman archaeologist using a piece of equipment to determine material composition

 
Join us next time to find out more about Street Scientists
 
WISE (WOMEN IN SCIENCE EVENTS) Festival, British Library 11 February 2020
 
The British Library is joining in the International Day of Women and Girls in Science, celebrating and raising the voices of women in science with a one day mini festival.  Our events and talks will encourage you to laugh, sing and think.  Every few days this blog will look in more detail at the participants and their involvement with the event.
 

04 February 2020

INTRODUCING: Women In Their Element – 11 February 2020

Wise Festival - Celebrating the International Day of Women and Girls in Science

The co-editors and contributors of the recently published "Women in Their Element" provide a fresh perspective on the unsung contributors to science in this half-day seminar on women and the Periodic Table.

Speakers and Topics Include:

Claire Jones – The Vanished Women of Victorian Science
Annette Lykknes – The Women Behind the Periodic System: An Introduction
John Hudson – What's in a Name? Margaret Todd and the Term Isotope
Jenny Wilson – Dame Kathleen Lonsdale FRS (1903-1971) and her Work on Carbon Compounds
Brigitte Van Tiggelen – Women in their Element: Trajectories of Fame or Invisibility
Claire Murray and Jessica A. F. Wade – The unsung heroines of the superheavy elements

A image of the logo of World Scientific
An image of the cover of the book 'Women in their Element'

 
Join us next time to find out more about Bio-Selfies

WISE (WOMEN IN SCIENCE EVENTS) Festival, British Library 11 February 2020

The British Library is joining in the International Day of Women and Girls in Science, celebrating and raising the voices of women in science with a one day mini festival.  Our events and talks will encourage you to laugh, sing and think.  Every few days this blog will look in more detail at the participants and their involvement with the event.

https://www.bl.uk/events/wise-festival

30 January 2020

INTRODUCING: BACK TO THE FUTURE – 11 February 2020

Wise Festival - Celebrating the International Day of Women and Girls in Science
 
Learning from the science of the past to protect our futures.

The Institute for the Modelling of Socio-Environmental Transitions (IMSET) addresses one of the most significant global challenges facing humanity today: how we manage and respond to environmental change. It does this by exploring how past societies were affected by environmental change, how they responded to these challenges and, therefore, what are the most sustainable options available to present-day societies under similar pressures. Join this panel of distinguished scientists (archaeologists, palaeoecologists)  as part of the WISE Festival evening events.

Chaired by Emma Jenkins, Director of IMSET and Associate Professor, Department of Archaeology & Anthropology, Bournemouth University
 
Panel:
Nicola Whitehouse, Professor of Human-Environment Systems at Plymouth University and Senior Lecture in Archaeology at Glasgow University
Erika Guttmann-Bond, Author of Reinventing Sustainability: How Archaeology Can Save the Planet
Fiona Coward, Principal Academic in Archaeological Sciences, Bournemouth University
 
Join us next time to find out more about – Voices of Science
 
WISE (WOMEN IN SCIENCE EVENTS) Festival, British Library 11 February 2020
 
The British Library is joining in the International Day of Women and Girls in Science, celebrating and raising the voices of women in science with a one day mini festival.  Our events and talks will encourage you to laugh, sing and think.  Every few days this blog will look in more detail at the participants and their involvement with the event.
 

27 January 2020

INTRODUCING: HELEN ARNEY – 11 February 2020

Wise Festival - Celebrating the International Day of Women and Girls in Science

We are delighted that Helen Arney will be the MC for the evening festival.

Science presenter, comedian and geek songstress Helen Arney has appeared on TV, radio and in theatres across the world.
You might have seen her explaining physics while riding a rollercoaster for BBC Coast, singing the periodic table on Channel 4 News, hosting Outrageous Acts Of Science on Discovery or smashing wine glasses with the power of her voice in Festival of the Spoken Nerd.
 
 
 
We can’t wait to see what she brings to the Festival!
 
An image of scientist Helen Arney
Photo credit: Alex Brenner
 
WISE (WOMEN IN SCIENCE EVENTS) Festival, British Library 11 February 2020.

The British Library is joining in the International Day of Women and Girls in Science, celebrating and raising the voices of women in science with a one day mini festival.  Our events and talks will encourage you to laugh, sing and think.  Every few days this blog will look in more detail at the participants and their involvement with the event.
 

21 January 2020

INTRODUCING: SUNETRA GUPTA – 11 February 2020

Wise Festival - Celebrating the International Day of Women and Girls in Science

The WISE Festival is in particularly excited to announce Professor Sunetra Gupta as its closing speaker. We will be drawing on Sunetra’s unique perspective combining her scientific work on the evolution of pathogens with her experience as an award winning novelist and translator, to discuss science as a part of our culture and not something that is separate, reserved only for scientists and independent of other human endeavour.  How can we create new links and ways of thinking that can enrich our lives beyond the perceived boundaries of science and arts? Do scientific and literary narratives have anything in common? Can science be beautiful? A perfect reflection at the British Library where different fields of knowledge sit alongside each other, ready for new connections to be made by anyone curious and creative. A picture of Sunetra Gupta, novelist, translator and scientist

Sunetra is an acclaimed novelist, essayist and scientist. In October 2012 her fifth novel, So Good in Black, was longlisted for the DSC Prize for South Asian Literature. In 2009 she was named as the winner of the Royal Society Rosalind Franklin Award for her scientific achievements. Sunetra is Professor of Theoretical Epidemiology at Oxford University's Department of Zoology, having graduated in 1987 from Princeton University and received her PhD from the University of London in 1992. Sunetra was born in Calcutta in 1965 and wrote her first works of fiction in Bengali. She is an accomplished translator of the poetry of Rabindranath Tagore.

See more about Sunetra


Join us next time to find out more about our second plenary speaker Danielle George.

WISE (WOMEN IN SCIENCE EVENTS) Festival, British Library 11 February 2020

The British Library is joining in the International Day of Women and Girls in Science, celebrating and raising the voices of women in science with a one day mini festival.  Our events and talks will encourage you to laugh, sing and think.  Every few days this blog will look in more detail at the participants and their involvement with the event.

https://www.bl.uk/events/wise-festival

14 January 2020

INTRODUCING THE WISE FESTIVAL (WOMEN IN SCIENCE EVENTS) – 11 February 2020

A handwritten letter from Ada Lovelace to Charles BabbageThe British Library is joining in the International Day of Women and Girls in Science, celebrating and raising the voices of women in science with a one day mini festival. Our events and talks will encourage you to laugh, sing and think. Every few days this blog will look in more detail at the participants and their involvement with the event.

From 1pm drop in to our free Entrance Hall sessions, including fun scientific presentations, hands-on activities and a chance to create your own (bio)selfie using the bacteria swabbed from your cheek. There’s something for all ages and levels of science knowledge. See the full list of activities here.
Then join us for an evening of talks to hear from women about their experiences of working in the sciences. This is a ticketed event and tickets can be purchased from our website.

The British Library holds one of the most comprehensive national science collections in the world, ranging from ancient manuscripts grappling to understand different aspects of the world, prior to the development of science as we know it today, to the latest scientific publications deposited at the Library through the electronic legal deposit every day. The British Library preserves the UK scientific record, supports scientific research and enables access to science for all, which includes supporting equality and diversity in science. During 2020 the Library’s exhibition Unfinished Business: The Fight for Women's Rights will be looking into the struggle for women’s rights in all walks of life which includes an ongoing struggle for equality in all areas of science, technology and engineering. The WISE Festival is an opportunity to start our reflection on women’s rights and to celebrate the achievements of women in science in a way that we hope will be fun, inspirational and thought-provoking.

Join us next time to find out more about Sunetra Gupta.

WISE (WOMEN IN SCIENCE EVENTS) Festival, British Library 11 February 2020.
www.bl.uk/events/wise-festival

04 December 2019

Oil, storms and knowing part 2: Pliny, Franklin and the IPCC Special Report on Oceans

This post is the second of a pair to mark the period of the 25th Conference of Parties to the UN Framework Convention on Climate Change, and is contributed by Andrea Deri, Cataloguer.

In addition to seafarers, fishers in the Mediterranean Sea applied oil as Pliny the Elder and Plutarch described. Divers released olive oil from their mouth and used the oil film on the sea surface as a ‘skylight’ for underwater fishing. Oyster collectors in Gibraltar did just the same. They made use of their observation that oil prevented ripples formation and the smooth surface allowed steadier and deeper penetration of sunlight for increased visibility under the water.

Seal hunters also benefitted from the smooth sea surface created by oil. In their case it was the common seal that ‘released’ the oil as 18th-century Welsh zoologist Thomas Pennant, shared hunters’ observations:

Seals prey beneath the water, and in case they are devouring any very oily fish, the place is known by a certain smoothness of the waves immediately above.

An image shows three seals lazing on a rocky outcrop
Common seals create an oily patch on the sea surface when they consume their oily fish underwater. Seal-hunters were aware of this phenomenon. From Thomas Pennant, British Zoology Volume I Plate XII (London, 1812:167) 728.f.26.

Pouring oil on the sea was practiced and endorsed even by the British Admiralty (1891) as a way to prevent waves from crashing over the vessel:

Many experiences of late the utility of oil for this purpose is undoubted, and the application is simple. […] A very small quantity of oil, skillfully [sic] applied, may prevent much damage both to ships (especially the smaller classes) and to boats, by modifying the action of breaking seas.

The oil was often applied from an oil bag, ‘usually filled with oakum (teased rope fibres), and/or cotton waste, and fish oil was indeed the preferred (and cheapest) medium used.’ The oil bag was hung over the side of the vessel, immersed in the sea, windward, and pricked with a sail needle to facilitate leakage of the oil. […]’

Sea captain J. W. Martin describes the most recent use of oil bag in ‘launching or recovering ships’ boats, embarking or disembarking a pilot’ and makes the point that carrying an oil bag was compulsory in British ships’ lifeboats’ equipment until 1998.

It was Benjamin Franklin whose experiments provided impetus for exploring the science, the physics, behind the phenomenon: why and how oil prevented waves from breaking. In the spirit of Enlightenment Franklin used an experimental approach to triangulate and scientifically account for practitioners’ observations.

The correspondence of English and Dutch ‘learned gentlemen’ reveals their excitement and commitment for compiling oil stories from as diverse sources as possible – ‘ancient’ (Latin and Greek classics), ‘vulgar’ (lay knowledge), anecdotal, published and experimental – in order to defend the authority of either practitioners’ or natural philosophers’ approach to understanding the oil’s wave stilling effect.

Franklin acknowledges his bias towards ‘modern’ (18th century) ‘learned’ people’s knowledge compared to old and lay sources:

I had, when a youth, read and smiled at Pliny's account of the practice among seamen of his time, to still the waves in a storm by pouring oil into the sea […] [I]t has been of late too much the mode to slight the learning of the antients [sic]. The learned, too, are apt to slight too much the knowledge of the vulgar. This art of smoothing the waves with oil, is an instance of both.

This candid self-reflection is all the more interesting as Franklin and his fellow Enlightenment philosophers benefited from the data, which they snubbed at, for formulating their ideas. By privileging the fast-developing scientific approach, the ‘learned gentlemen’ facilitated the shift of epistemic authorities from traditional knowledge to science and contributed to the politically constructed divide between different ways of knowing.

A drawing shows a nineteenth-century rowing boat approaching an endangered sailing ship in a stormy see
A lifeboat approaching a ship in a stormy sea, from Description of the Royal Cyclorama, or Music Hall: Albany Street, Regent’s Park ... (London, 1849) RB.31.a.23(2)

Within the scientific paradigm, integration of practical and scientific inquiry remained a challenging enterprise with resistance from all involved.

However, a new paradigm seems to be emerging in the context of the unfolding climatic changes. While the authority of knowing still held by science, the relevance of local, traditional and indigenous ways of knowing appears to be slowly acknowledged (again):

Scientific knowledge, Indigenous knowledge, and local knowledge can complement one another by engaging both quantitative data and qualitative information, including people’s observations, responses and values. However, this process of knowledge co-production is complex and IK and LK possess uncertainties of a different nature from those of scientific knowledge, often resulting in the dominance of scientific knowledge over IK and KL in policy, governance, and management. [IPCC 2019:37]

The IPCC special report on ‘The Ocean and Cryosphere in a Changing Climate’ published in September 2019 portrays science and local knowledge (LK) and indigenous knowledge (IK) as complementary, an attitude that pours oil on the troubled waters of the local knowledge - science nexus.

Thanks to Marja Kingma, Curator, Germanic Collections, BL European Studies; Dr. Saqib Baburi, Curator, Persian Manuscripts, BL Asian and African Collections with contributions from Arani Ilankuberan, Curator, South Indian Collections; Phil Hatfield, Head of Eccles Centre, BL Eccles Centre for American Studies and Julian Harrison, Lead Curator, Medieval Historical & Lit., Western Heritage Collection;

References and further reading:

Franklin, B. ‘Of the Stilling of Waves by Means of Oil. Extracted from sundry Letters between Benjamin Franklin, L.L.D. F.R.S. William Brownrigg, M.D. F.R.S. and the Reverend Mr. Farish’. Philosophical Transactions of the Royal Society of London, 1774, 64(0), pp.445–460. Available at: https://royalsocietypublishing.org/doi/pdf/10.1098/rstl.1774.0044 [Accessed 3 December 2019].

Gilkes, M. F. ‘A Whatsit’ Mariner’s mirror, 2009. 95(3), pp.336–337. Shelfmark Ac.8109.c.

IPCC, 2019. Summary for Policymakers. In: IPCC Special Report on the Ocean and Cryosphere in a Changing Climate.[H.-O. Portner, D.C. Roberts, V. Masson-Delmotte, P. Zhai, M. Tignor, E. Poloczanska, K. Mintenbeck, M. Nicolai, A. Okem, J. Petzold, B. Rama, N. Weyer (eds.). In Press. Available at https://www.ipcc.ch/srocc/  [Accessed 3 December 2019] 

IPCC and Allen, M.R., Global Warming of 1.5 oC?: Global Warming of 1.5 °C. An IPCC Special Report on the impacts of global warming of 1.5 °C above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change, sustainable development, and efforts to eradicate poverty. Technical Summary [in press]. [online] (Geneva, 2019) Available at: https://www.ipcc.ch/site/assets/uploads/sites/2/2019/02/SR15_TS_High_Res.pdf. [Accessed 3 December 2019] 

Martin, J.W.C.F. ‘Oil Bag’. Mariner’s mirror, 2010, 96(1), pp.94–95. Shelfmark Ac.8109.c.

Mertens, J. ‘Oil On Troubled Waters: Benjamin Franklin and the Honor of Dutch Seamen’. Physics Today 59 (2007), 36. (P)PQ00-E(51) <https://physicstoday.scitation.org/doi/10.1063/1.2180175> [Accessed 3 December 2019] 

Pennant, T. British Zoology (London, 1812:167) Shelfmark 728.f.26. Volume I Plate XII

Pliny the Elder, Natural history, with an English translation in ten volumes by H. Rackham, M.A. (London, 1938)?
 Book II, CVI. 233 - CIX 235 page 360 Latin, page 361 English translation Shelfmark 2282.d.150

Plutarch, Moralia in Fifteen Volumes, with an English translation by Lionel Pearson and F. H. Sandbach (London, 1965)?
 Volume XI 854 E - 874 C, 911 C - 919 F Shelfmark 2282.d.96.

Taylor, A. D. and J.J.P Hitchfield, The West Coast of Hindustan Pilot: including the Gulf of Manar, the Maldive and Laccadive Islands (London, 1891) Shelfmark V 8711

Wyckoff, L. A. B. ‘The Use Of Oil In Storms At Sea.’ Proceedings of the American Philosophical Society 23, (1886), 383–388. Available at: https://www.jstor.org/stable/983222  [Accessed 3 December 2019] 

Oil, storms and knowing part 1: Seafarers Calm Waves with Oil

This post is to mark the period of the 25th Conference of Parties to the UN Framework Convention on Climate Change, and is contributed by Andrea Deri, Cataloguer.

A storm at sea is one of the most feared experiences, as it often presages shipwreck. Mariners would do anything to survive tempestuous waters, from weather forecasting to casting holy oil or auspicious soil from the tomb of a Persian Sufi saint, Abu Eshaq Kazaruni (d. 1035) on the waves.

Occasionally, sailors wailing from fear were also briefly plunged into the sea: to calm them, not the waves though.

A medieval illumination showing a group of people with varied skin-tones and costumes crammed into a ship. A young boy is being dangled by his arms over the side.
A Persian pageboy is thrown overboard briefly in order to calm his fears from Saʿdī Shīrāzī, Gulistān (CE 1258), part of his collected works or Kullīyāt. IO Islamic 843, Folio 42v

Oil features prominently in K. V. Hariharan’s paper on ‘Sea-dangers in Early Indian Seafaring’, a catalogue of traditional adaptation practices to a range of marine hazards, including cyclones: ‘Seafarers seemed to have known the effect of oil to smoothen the sea surface’. As storms approached seafarers ‘covered their body and garments with oil to smoothen the surface of the water they touched on thus presenting less resistance to the wind and preventing breaking of the waves – the real dangers in wave motion’.

The sewn boats in the archipelago of Lakshadweep, South India, boats fastened with coir, not nails, have also been coated with an oily material for the same reason seafarers covered themselves with oil: making the vessels waterproof and smoothing the water around them.

In addition to coating, seafarers also poured oil directly onto the sea to prevent the waves from breaking on their vessel. Throwing oil on the waves was applied so widely that it became in idiom in Dutch (‘olie op de golven gooien’) and English (‘pouring oil on troubled waters’) with the meaning of settling a disagreement and ‘bringing about a state of calm after great anger or excitement, etc., by tact and diplomacy.’

‘Oily seas’ that appear during the stormy southwest monsoon (June-September) along the Kerala coast, however, are not caused by mariners but natural processes. According to B. Arunachalam, an authority of Indian marine navigation:

[…] such a sea-surface – the kedu neer – is believed by seamen to generate a relatively smooth surface, ideal for anchoring or drifting during foul weather in rough seas. The mudbanks of Cochin, for this reason, are treated as safe anchorages during active monsoon times. 

Kedu neer  (Tamil  கெடு நீர் ) literally means ‘bad water’. It refers to a turbid and calm marine area with almost no waves. A recent scientific study suggests the calmness of the ‘oily sea’ is linked to the wave damping effect of fine suspended matter, not oil. Mariners may have called these patches ‘oily seas’ as the water over the mud banks near Cochin, Kerala, known to generations of fishers, behave similarly to waters that have no waves because they were covered by a thin oil patch.

A close-up of a wooden boat on water, with an area of calm water immediately around it contracting with the rippling water further away
Traditional sewn fishing boat, small odam, in Agatti, Lakshadweep, India, coated with an oily substance. Photo by Andrea Deri, 23 February 2007

 

A simplified image of the coastlines around the Indian Ocean. The site of Cochin is highlighted.
Map of the Indian Ocean in B. Arunachalam, Heritage of Indian Sea Navigation. (Mumbai, 2002:9) YA.2003.a.26499. Cochin, where the oily seas of the mud banks provide safe anchoring during the monsoon season, is marked in South India.

 

A hand=drawn chart of a coastline and island
Traditional Kutchi sea chart, with east at the top, features the Malabar coast, shown as seen from the sea, with coconut palms in B. Arunachalam, Heritage of Indian Sea Navigation. (Mumbai, 2002:28) YA.2003.a.26499. The Cochin port (Kochi Bandar) played an important role in local and regional trade. South Indian ports are considered to be some of the oldest maritime centres.

 

It was not only in the tropical seas where mariners made use of the oil’s water calming properties. Bede, the Anglo-Saxon scholar and monk, tells us ‘How Bishop Aidan foretold to certain seamen a storm that would happen, and gave them some holy oil to lay it’ [642-645 AD] off the Kentish coast in cold North Sea, recorded in the Historia Ecclesiastica Gentis Anglorum, in the British Library at Add MS 1450.

Bede lists his sources including Utta, the priest who received the oil from Aidan, in order to add credibility to Aidan’s sea calming, revered as miracle. The credit, however, perhaps should go beyond Aiden, to local mariners anonymous to chroniclers.

As Aidan served on two islands, Iona and Lindisfarne, he spent considerable time in boats where he may have experienced and learned the practice of pouring oil on waves from local fishers and seal hunters who ferried him. Could Aiden’s holy oil be the same kind of oil local mariners used to quell waves? If so, this is an example of how local knowledge or rather adaptation practice to extreme weather became canonised.

A stylised medieval image showing three robed men in a sailing boat.
St Cuthbert (c 634-687) in a boat at sea, with two other men, from Chapter 11 of Bede's prose Life of St Cuthbert. Yates Thompson 26 f. 26 Cuthbert became a monk after his vision of St Aidan who died in 651

 

Nautical idioms preserve seafarers’ practices. Most of us, landlubbers, need to take a historical perspective to unpack and appreciate their meaning, and we may still ponder over their relevance today. Faced with the unfolding changes of our climate, a major concern of our time, seafarers may serve a great source of inspiration by the way they kept their knowledge alive with keen observation, tireless experimentation and sharing.

If you have an "oil on water" story, you can tell us here.

References and further reading

Arunachalam, B. Heritage of Indian Sea Navigation (Mumbai, 2002)  Shelfmark YA.2003.a.26499

Bede, The Ecclesiastical History of the English Nation (London, 1954). Book III, Chapter XV. Shelfmark 4824.m.1

Bede, Historia Ecclesiastica Gentis Anglorum; Plympton annals for the years 1066-1177, Shelfmark Add MS 1450

Hariharan, K. V. ‘Sea-Dangers in Early Indian Seafaring’. Journal of Indian History, 1956. 34 (Part III (Serial No 102)), pp.313–320. Shelfmark Ac.1928/2

Jeans, P.D. Ship To Shore: A Dictionary of Everyday Words and Phrases Derived from the Sea (Santa Barbara, 1993) Shelfmark YC.1996.b.3808

Jyothibabu., R. Balachandran, K.K., Jagadeesan, L., Karnan, C., Arunpandi, N., Naqvi, S.W.A., Pandiyarajan, R.S., 2018. ‘Mud Banks along the southwest coast of India are not too muddy for plankton’. Nature Sci. Rep. 8, 2544. Available online at https://www.nature.com/articles/s41598-018-20667-9 [Accessed 3 December 2019].

OED, pour oil on troubled waters. [online] Oxford Dictionaries | English. 2019. Available online at: https://en.oxforddictionaries.com/definition/pour_oil_on_troubled_waters [Accessed 3 December 2019].

M. b. Otman, ‘Ferdaws al-moršediya fi asrar al-samadiya’. In: F. Meier and I.A. Afšar, eds., Die Vita des Abu Ishaq al-Kazaruni in der Persischen Bearbeitung von. (Istanbul, 1943) Shelfmark Per.D.537

Sa'di Shirazi, Gulistan (CE 1258), part of his collected works or Kulliyat. Shelfmark IO Islamic 843, Folio 42v

Subramanian, P.R. Kriyavin tarkalat Tamil akarati: Tamil-Tamil-Ankilam (Madras, 2000)

Simpson, J. A. and E. S. C. Weiner eds., Oxford English Dictionary (Oxford, 1989:749) Shelfmark OIA 423

Varadarajan, L. Sewn Boats of Lakshadweep. National Institute of ([Dona Paula], 1998). Shelfmark YP.2019.b.606

Wright, J.R. A companion to Bede: a reader’s commentary on ‘The ecclesiastical history of the English people’. (Grand Rapids, 2008) Shelfmark YC.2009.a.15214.

15 October 2019

New Scientist Live 2019

New Scientist Live 2019 logo
On Friday 11th October, I went to the New Scientist Live show, which is an annual event for the general public about the wonders of science. There are a series of lecture slots, and an exhibition from universities, learned societies, technology companies, commercial and charitable science "experience" organisation, and makers of science-related ornaments and clothing.

The talks I attended were all very interesting. Tom Crawford of Tom Rocks Maths described his work modelling the flows of rivers into oceans as a means of tracking plastics and other forms of pollution, to find the best places to collect them. The flows are controlled primarily by the Earth's rotation, outflow speed, and the density of the river water relevant to the sea.


Sim Singhrao of the University of Central Lancashire described her work on the possible contribution of poor oral hygiene to Alzheimer's disease. The bacterium Porphyromonas gingivalis, which contribures to gum disease, has been found in the brain of Alzheimer's patients, and it is suggested that Alzheimer's disease may be worsened by the action of the immune system in the brain, or protein fragments left behind when the bacteria feed.


Jess Wade of Imperial College, who works on organic semiconducting materials which can be used in products such as flexible displays, gave a lecture on chirality in science, from Louis Pasteur's discovery of optical isomerism in tartaric acid to biological effects, to the possible origins of chirality in polarisation of starlight due to the rotation of galaxies, to chiral selection of electron spin and the role it may play in our nervous system.


Guillermo Rein of Imperial College described the wide range of work involved in fire science, from fires aboard NASA spacecraft, to how polymers burn, to how large buildings can survive fire without structural failure, to the problem of long-lasting peat fires and the severe air pollution that they cause in South-East Asia. His work has not just been theoretical, but has included spectacularly large experiments in both the Czech Republic and Indonesia.


Finally, Ravi Gogna of BAE described work to improve information sharing between police, social workers, health care, and schools to improve child protection and allow problems to be dealth with without heavy-handed interventions. The technology was originally used to raise flags for fraud in financial institutions.

23 January 2019

Lab notebooks - handwriting at the core of science

McLaren notebook
Page from Anne McLaren's notebook (shelfmark Add MS 83844) covering embryo transfer experiments in mice, 1950s. (Copyright estate of Anne McLaren)


Today is World Handwriting Day, and we thought we’d pay our respects to the most important role handwriting plays in science, one which you might not have heard of if you aren’t a practicing scientist. This is the “lab notebook”, a scientist’s daily diary of all their experiments, thoughts, and other scientific activities. Until relatively recently, these were always handwritten, as they were meant to record what, in detail, someone was doing as they did it. Waiting to create them until work was finished caused too much risk of forgetting or distorting something.


Lab notebooks grew out of the personal diaries and notebooks of individual researchers. Some notebooks by well-known scientists have become Library treasures in their own right. One of the most famous works in our Treasures of the British Library exhibition is the Codex Arundel, a collection of notes written by Leonardo da Vinci (although probably not in the order they were bound) in the sixteenth century. At the other extreme of history, the Treasures Gallery currently displays the biologist Anne McLaren's lab book on embryo transfer in mice. Outside the BL, most of the lifelong field and theoretical notebook collections of Charles Darwin are digitised and available online, as are some of Albert Einstein's most significant theoretical notebooks. At the other end of accessibility, some of the lab notebooks of Marie and Pierre Curie, held by the National Library of France, are reported to still be so radioactive that they are not safe to handle without protective clothing.


Laboratory notebooks later became an even more important record of exactly what was done, as lone researchers were replaced by academic and private-sector research groups, science and technology became ever-more important to society, and scientists were expected to describe their methods in detail so that they could be replicated and turned into innovative technologies, materials and treatments. Additionally, until quite recently, American patent law worked on a “first to invent” basis whereby the person who could prove that they had the idea for an invention first, or their employer, had the right to a patent. Laboratory notebooks were the main source of evidence for this. In recent years, scientific misconduct has become a higher-profile issue, as scientists worry about a “replicability crisis” where too many uncertain or exaggerated results have been published. Lab books help prove that the work was done as the researchers claim, or the detail expected in them make discrepancies easier to recognise. And the notebooks of eminent scientists are a rich source for scientific historians.


By the latter part of the twentieth century, some organisations had very detailed instructions for how laboratory notebooks should be completed and stored. Lab books had to be written exactly as the work was carried out, or as soon as possible – no jotting notes on scraps of paper and writing them up at the end of the day. Notebooks were considered the property of the employer or the university, and could not be removed from the lab. And they had to be clearly paginated with no chance of pages being removed or replaced.


Many laboratories still use paper notebooks, due to the ease of simply writing notes down as you go. In many types of science, electronic devices are at risk of being exposed to spillages or damaging electromagnetic conditions, or are simply unwieldy. Some researchers also like to keep their detailed records to themselves instead of sharing them with a group. Some research groups and organisations are now moving to electronic recording, but the lifetime of electronic data can be questionable due to failure to back up and the lifespan of media. Specifically-designed electronic laboratory data systems are more secure. They are more common in industry than academia, as academics are more independent and less likely to respond to top-down orders, and academic institutions can be less able to afford the necessary software and hardware. The advantages of electronic research notes systems are that you can save large amounts of original data directly into the system without retyping or printing it, clone records from earlier experiments to save time, search your records more easily, share data within the group easily, and track the history of records. Now data is often electronically recorded and can be directly copied into a laboratory system without a transcription stage. It is possible to use general project and collaboration software packages such as Evernote, SharePoint, or GoogleDrive but specifically-designed software is now available. 


In 2011, Gregory Lang and David Botstein published a scanned copy of the entire lab notebook covering the research leading to a paper on yeast genetics, as an attachment to their e-journal article.


Modern lab books rarely find their way into the British Library collection, but our most famous example is the collection of Alexander Fleming, the discoverer of penicillin (also including records of earlier experiments by his mentor Sir Almroth Wright). As well as the material by Anne McLaren mentioned earlier, we also have some material from the photography pioneer Henry Fox Talbot, electrical inventor David Edward Hughes, and biologist Marilyn Monk.

Sources and further reading:
Barker, K, At the bench: a laboratory navigator, Cold Spring Harbor: Cold Spring Harbor Press, 2005. pp. 89-99. Shelfmark YK.2005.b.1888
Baykoucheva, S. Managing scientific information and research data, Oxford: Chandos Publishing, 2015. Available electronically in British Library reading rooms.
Bird, CL, Willoughby, C and Frey JG, "Laboratory notebooks in the digital era: the role of ELNs in record keeping for chemistry and other sciences", Chemical Society reviews, 2013, 42(20), pp. 8157-8175. Shelfmark (P) JB 00-E(105) or 3151.550000.
Elliott, CA, "Experimental data as a source for the history of science", The American archivist, 1974, 37(1), pp. 27-35. Shelfmark Ac. 1668 or 0810.390000, also available electronically in British Library reading rooms.
Holmes, FL, "Laboratory notebooks: can the daily record illuminate the broader picture", Proceedings of the American Philosophical Society, 1990, 134(4), pp.349-366. Shelfmark Ac. 1830 or 6630.500000, also available electronically in British Library reading rooms.
Stanley, JT and Lewandowski, HJ, "Lab notebooks as scientific communication: investigating development from undergraduate courses to graduate research", Physical review: physics education research, 2016, 12, 020129, freely available online at https://journals.aps.org/prper/pdf/10.1103/PhysRevPhysEducRes.12.020129.
Williams, M, Bozyczko-Coyne, D, Dorsey, B and Larsen, S, "Appendix 2: Laboratory notebooks and data storage", in Gallager, SR and Wiley, EA, Eds. Current protocols essential laboratory techniques, Hoboken: John Wiley & Sons, 2008. Shelfmark YK.2008.b.6299 or m09/.30081

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