Tag Archives: funding

Mind the gap – time to make sure that scientists and practitioners are on the same page

I have deliberately used the same title for this post as my 2017 Editorial in Annals of Applied Biology and if you were to run it through Turnitin™ you would find a very high percentage similarity indeed 🙂 I had originally planned for this post and my Editorial to appear simultaneously, but thanks to modern publishing practices, the January issue of the Annals of Applied Biology, hit the virtual newsstands in mid-December and put the kibosh on my cunning plan.

mind-the-gap

Once a year I am wheeled out to do a guest lecture to the final year agriculture undergraduates on the Global Food Production module here at Harper Adams.  I start off the lecture by reminiscing about when I was an agricultural zoology undergraduate student at the University of Leeds in 1975 and was introduced to the concept of Integrated Pest Management (IPM), or as it was termed then, Integrated Pest Control.  I was very much taken by this idea and on my next visit home, approached my Uncle James, a farmer, and explained the concept to him and suggested that he might like to implement it on his farm.  To my surprise, he was not convinced by my arguments, and replied with words to the effect, “It all sounds rather tedious, and after all, I can do all my pest control much more easily using a tank mix, so why should I bother?”.  This attitude was, at the time widespread among the UK farming community and elsewhere despite the concept having been formally discussed in the scientific literature since the late 1950s and early 1960s (Stern et al., 1959; de Fluiter, 1962).  Despite the benefits of IPM being recognised and extolled IPM by researchers and agronomists for many years, take-up by growers has been much slower than expected (Kogan, 1998; Hammond et al., 2006). Resistance to the adoption of integrated pest management is not new, Benjamin Walsh writing in 1866 wrote

Let a man profess to have discovered some new patent powder pimperlimplimp, a single pinch of which being thrown into each corner of a field will kill every bug throughout its whole extent, and people will listen to him with attention and respect.  But tell them of any simple common-sense plan, based upon correct scientific principles, to check and keep within reasonable bounds the insect foes of the farmer, and they will laugh you to scorn”  Benjamin Walsh The Practical Entomologist

Why, if IPM is regarded as being of such paramount importance to sustainable crop production, the European Union for example passed a directive recently (2009/128/EC) requiring all member states to pass legislation to make sure that all professional growers at the very least adopt the principles of IPM, is its adoption so slow.  Hokkanen (2015) cites three main impediments to the adoption of IPM, science funding, political interference and economics.  As an applied entomologist I know from bitter experience, that there is a lack of willingness by the UK Research Councils to fund basic applied science i.e. grants to aid researchers to establish much-needed new economic thresholds are very unlikely to be funded.  Hokkanen (2015) also points out that whilst the political landscape now includes IPM, different governments have views, not necessarily based on science, about what are acceptable items for the IPM toolbox, genetically modified crops (GM) and neonicotinoid insecticides being just two such examples. Thirdly, as Hokkanen (2015) points out the ability of farmers to fully adopt IPM practices, is often out of their control, but is decided by market forces and social and political pressures, GM crops and neonicotinoids again serving to illustrate this point.

As Felicity Lawrence writing in the Guardian says “British farmers growing wheat typically treat each crop over its growing cycle with four fungicides, three herbicides, one insecticide and one chemical to control molluscs. They buy seed that has been precoated with chemicals against insects. They spray the land with weedkiller before planting, and again after.

They apply chemical growth regulators that change the balance of plant hormones to control the height and strength of the grain’s stem. They spray against aphids and mildew. And then they often spray again just before harvesting with the herbicide glyphosate to desiccate the crop, which saves them the energy costs of mechanical drying.

Most farmers around the world, whatever the crop, will turn to one of just six companies that dominate the market to buy all these agrochemicals and their seeds. The concentration of power over primary agriculture in such a small number of corporations, and their ability both to set prices and determine the varieties available, has already been a cause of concern among farmers. Yet by next year the competition is likely to shrink even further”.

Independent advice in the UK is not as easy to get as it once was.  The expected career outcome for my undergraduate course was either academia or to work as an advisor for the then, government funded, Agricultural Development and Advisory Service (ADAS).  ADAS was the research and advisory arm of the then Ministry of Agriculture Fisheries and Food and employed specialist advisers throughout the country to advise farmers and growers how to maximise their output.   ADAS became an agency in 1992, was privatised in 1997 and in December 2016 was taken over by RSK, a large environmental consultancy.  The first incarnation of ADAS was relatively well-staffed with truly independent advisors. The second incarnation, although still billed as independent, had far fewer offices and far fewer staff, so their traditional advisory role was largely taken over by private agronomists whose agendas and training are very varied.  This state of affairs is not unique to the UK.

As an example, this is from another of my correspondents who is also on the Editorial Board of Annals of Applied BiologyThanks for your message and interesting question.  You are correct that in the US the extension service is closely aligned with the land grant Universities.  It was the complete opposite in Australia and NZ (similar to the UK) where the government funded extension service had been cut years ago and the gap had been ‘filled’ by private consultants which were also often chemical sales representatives.

Even in the USA, traditionally very strong when it comes to entomology in universities, the situation is less than rosy as this email from another correspondent (of necessity anonymised) highlights:

“I am currently the only trained entomologist in any XX university with a position focused on commercial ornamental entomology despite nurseries in XX being our largest plant-based agricultural commodity. Between shipping out 75-80% of the nursery plants across a state or international border, thousands of cultivated varieties, several planting systems (protected and field grown), and the aesthetic thresholds with ornamental plants, I’m a bit too popular (couldn’t haven’t happened in high school when I could have used it). I don’t even have a PhD and my position is actually a regional Extension educator position versus specialist. Since we have no specialists for non-food crops, I often am asked to work off position description on other ornamental plant needs in landscapes as well. Not just entomology as this is an IPM position.  This level of demand has curtailed my ability to be involved with activities that would have been useful professionally (like publishing more and reviewing work of peers). No regrets about the new discoveries, adoption and impact of my work in many diverse areas but I will have less legacy in the published world.  

I’m retiring in less than three years. A little early but necessary as I’ve been fighting burn-out for years. And the university has taught me many times that they value my work less as a female (the stories I could tell). Women in STEM gets lots of verbiage but those of us working in these systems will tell you how far we have to go yet to be treated equitably. Perhaps they will value my work once I’m gone and people have nowhere to go. I have been fortunate to have had the privilege of excellent training and only hope that this country can maintain some of these bastions of entomology into the future”

Science is crucial to the development of IPM, be it understanding pest phenology, developing and evaluating biocontrol agents or obtaining a basic understanding of the biology and ecology of a particular pest (e.g. Webb et al., 2015; Dandurand & Knudsen, 2016; Karley et al., 2016; Rowley et al. 2016).  Basic science is important, but funding needs to be mainly allocated to more immediately applicable research than to the more academic end of the spectrum which is where it tends to go more often than not (Hokkanen, 2015).   I recently attended a conference organised by AgriNet, http://www.agri-net.net/ whose mission statement is “AGRI-net is an Agri-science Chemical Biology network which aims to stimulate the development and facilitate the translation of novel tools and technologies to key end-users in the Agri-sciences”, the title of which was  Bridging the gap between Physical sciences & Agri-sciences research.  Although the science presented was excellent it was hard to see how it could be translated to the relevant end-users in their lifetimes.

Don’t get me wrong, basic science is needed as there will be a time when the technology is available for it to be relevant.  As an example, Winer et al. (2001) convincingly demonstrated that planting spring wheat at extremely high densities (up to 600 seeds m2) in a grid pattern, significantly reduced weed density and significantly increased yield when compared with planting at conventional seed rates and in the traditional row pattern.  Fifteen years ago this may not have been very attractive to farmers as it would have meant modifying their already expensive machinery.  With the advent of precision farming this is perhaps now a viable strategy, but so far is little taken up by growers.  Is this a lack of communication from the scientists to the end-user or a reluctance to adapt new ways by the farmer?  I would suggest the former.

The recent State of Nature report (Hayhow et al., 2016) caused dismay amongst UK ecologists and raised the hackles of the UK farming community.  The data were very convincing and much of the decline in wildlife in agricultural systems was attributed to the intensification of agriculture post World War 2. The UK farming community reacted quickly and angrily (Midgely, 2016), pointing out that farming practices have changed greatly over the last half century and that the report was overlooking the many farmers who have willing engaged with the various environmental stewardship initiatives.  The debate was somewhat exacerbated by the fact that some trenchant exchanges on both sides of the fence are of a long-standing nature.  Although I have a great deal of sympathy for the conservation side of the argument I sometimes feel that the language used by what the farming press equally dismissively calls ‘green lobby’ does not help. Michael McCarthy for example, an author whom I greatly admire, is in his recent book, The Moth Snowstorm, is extremely scathing about the practices of farmers, whom he mockingly calls “Farmer Giles” (McCarthy, 2016)

Similarly, there has been for some time, a debate within the scientific community as to whether it is better to farm intensively to maximize yields while conserving and protecting natural habitats (land sparing), or to use wildlife-friendly farming methods (land sharing) that integrate biodiversity conservation with food production (e.g. Tscharntke et al., 2012; Bommarco et al., 2013; Fischer et al., 2014; Kremen, 2015).  Due, however, to the pressures imposed by academic institutions and state funding bodies, the scientists concerned publish in ‘high impact’ conservation journals unlikely to be read by agronomists let alone farmers.

Sue Hartley (2016) “…working in Malawi on a Christian Aid funded project on improving crop resilience to drought.  I thought I had the answer: farmers should stop growing maize and grow the much more drought tolerant millet instead.  Consternation amongst the farmers greeted that suggestion! “But, they exclaimed in horror, Dr Sue, we can’t we are married to maize!  Hopelessly naïve, I had neglected the wider cultural and socioeconomic context; I’d focussed on the physiology of the plants, my discipline, and not on the sociology of farmer behaviour, someone else’s discipline

There are ways to bridge the gap, although it may mean some scientists having to step outside their laboratories and comfort zones. A recent experiment in China where academic staff and their postgraduate students lived in farming communities and worked alongside local farmers resulted in significant increases in crop yields (Zhang et al., 2016).  Whilst not suggesting that all scientists involved in basic science with potential agricultural applications, adopt a similar approach, I would encourage them to spend some time speaking to farmers on their farms and not in workshops away from the agricultural environment.   Similarly, I would exhort ecologists with an interest in agriculture to either publish in journals more likely to be read by agronomists and farmers and not in journals that only their peers will read. Arguments in journals such as Biological Conservation, no matter how well presented or reasoned, reach a very limited audience of peers and undergraduates writing assignments. The people who make the decisions and grow our food do not read those journals. Failing that, in these days of ‘research impact’ it would make sense to take steps to summarise their findings in a more popular format such as the farming press. The workshops often mentioned in grant applications under the “pathways to impact” section will only have a limited reach and the proposed web sites, another favourite of the grant writer, unless extensively advertised and scrupulously kept up to date, again will remain largely unread.

Most importantly, use language that everyone can understand.  The farmer representing Innovate UK at the Agri-futures meeting was particularly scathing about the presentations, slickly and smoothly delivered by the obviously keen and excited scientists, remarking that most farmers would not know the word heterogeneity; keep it simple, avoid jargon, but don’t speak down to practitioners just because they don’t have the same vocabulary you do.   Emma Hamer the Senior Plant Health advisor for the National Farmers Union was just one of the many speakers from industry at the Advances in Integrated Pest Management Conference that I attended in November, who pointed out that many farmers were still unaware of exactly IPM was, even though they were practicing it to some extent.

There are agricultural scientists who do their best to step down from their ivory towers and try to make their work easily accessible.  Rothamsted Research for example, where the scientists are under immense pressure to publish in high impact journals, are doing their best to provide an effective extension service despite the swingeing cuts that have been made to their staff who work with whole organisms.  Their advocacy of the IPM concept via their app Croprotect is innovative and useful.  The UK of course is not alone in these types of ventures.  My Editorial sparked this response via email:  “I read with interest your editorial in the Annals of Applied Biology.  Our research group works strongly with State Government to convert our research into practical tools for fire management, but we struggle at the interface because each agency things that it is the responsibility of the other to do the extension work!  A better example comes from my colleagues in the crop sciences who have a very workable model in the southern hemisphere (see http://www.apen.org.au/extensionnet ).” On the other hand, we have scientists who extol the virtues of extension but publish in journals that are non-accessible to many academics and certainly beyond the ken of agronomists and farmers (Kremen, 2015).  Important commentaries on pollinators aimed at farmers and politicians (Dicks et al., 2016) are too often hidden behind ‘high impact’ paywalls and if not revealed by helpful bloggers such as Jeff Ollerton, would remain hidden away from the very people who need to know.  Other bloggers such as Manu Saunders are also on the case, debunking and/or publicising the debates surrounding sustainable agriculture, but this is not enough.  Scientists who put themselves forward as working in the agricultural sciences need to pay more heed to the ways in which farmers work, understand the farming year* and actually talk to farmers whilst in their own environment.  Perhaps not so much as being on the same page but standing in the same field.

mind-the-gap-2

Pleased to see that a Wordle analysis of this post puts farmers centre stage.

 

References

Bommarco, R., Kleijn, D. & Potts, S.G. (2013) Ecological intensification: harnessing ecosystem services for food security. Trends in Ecology and Evolution, 28, 230–238

Dandurand, L.M. & Knudsen, G.R. (2016) Effect of the trap crop Solanum sisymbriifolium and two biocontrol fungi on reproduction of the potato cyst nematode, Globodera pallida. Annals of Applied Biology, 169, 180-189

De Fluiter, H.J. (1962) Integrated control of pests in orchards. Entomophaga, 7, 199-206.

Dicks, L.V., Viana, B., Bommarco, R., Brosi, B., del Coro Arizmendi, M., Cunningham, S.A., Galetto, L., Hill, R.,  Lopes, A.V., Pires, C., Taki, H., & Potts, S.G. (2016) Ten policies for pollinators.  Science, 354, 975-976.

Fischer, J., Abson, D.J., Butsic, V., Chappell, M.J., Ekroos, J., Hanspach, J., Kuemmerle, T., Smith, H.G. & von Wehrden, H. (2014) Land sparing versus land sharing: moving forward. Conservation Letters, 7, 149–157

Hammond, C.M., Luschei, E.C., Boerboom, C.M. & Nowak, P.J. (2006) Adoption of integrated pest management tactics by Wisconsin farmers.  Weed Technology, 20, 756-767

Hartley, S. (2016) In praise of interdisciplinarity.  The Bulletin, 47, 5-6.

Hayhow, D.B., Burns, F., Eaton, M.A., Al Fulaij, N., August, T.A., Babey, L., Bacon, L., Bingham, C., Boswell, J., Boughey, K.L., Brereton, T., Brookman, E., Brooks, D.R., Bullock, D.J., Burke, O., Collis, M., Corbet, L., Cornish, N., De Massimi, S., Densham, J., Dunn, E., Elliott, S., Gent, T., Godber, J., Hamilton, S., Havery, S., Hawkins, S., Henney, J., Holmes, K., Hutchinson, N., Isaac, N.J.B., Johns, D., Macadam, C.R., Mathews, F., Nicolet, P., Noble, D.G., Outhwaite, C.L., Powney, G.D., Richardson, P., Roy, D.B., Sims, D., Smart, S., Stevenson, K., Stroud, R.A., Walker, K.J., Webb, J.R., Webb, T.J., Wynde, R. and Gregory, R.D. (2016) State of Nature 2016. The State of Nature partnership.

Hokkanen, H.M.T. (2015) Integrated pest management at the crossroads: science, politics or business (as usual)?  Arthropod-Plant Interactions, 9, 543-545

Karley, A.J., Mitchell, C., Brookes, C., McNicol, J., O’Neill, T., Roberts, H., Graham, J. & Johnson, S.N. (2016) Exploiting physical defence traits for crop protection: leaf trichomes of Rubus idaeus have deterrent effects on spider mites but not aphids.  Annals of Applied Biology, 168, 159-172

Kogan, M. (1998) Integrated pest management: historical perspectives and contemporary developments.  Annual Review of Entomology, 43, 243-270

Kremen C. (2015) Reframing the land-sparing/land-sharing debate for biodiversity conservation. Annals of the New York Academy of Sciences, 1355, 52–76.

McCarthy, M. (2016) The Moth Snowstorm, Hodder & Stoughton, London.

Midgely, O. (2016) Industry’s work overlooked by UK green lobby. Farmer’s Guardian, September 16, 2

Rowley, C., Cherrill, A., Leather, S., Nicholls, C., Ellis, S. & Pope, T. (2016) A review of the biology, ecology and control of saddle gall midge, Haplodiplosis marginata (Diptera: Cecidomyiidae) with a focus on phenological forecasting.  Annals of Applied Biology, 169, 167-179

Stern, V.M., Smith, R.F., Van Den Bosch, R., & Hagen, K.S. (1959) The integrated control concept. Hilgardia, 29, 81-101.

Tscharntke, T., Clough, Y., Wanger, T.C., Jackson, L., Motzke, I., Perfecto, I., Vandermeer, J. & Whitbread, A. (2012) Global food security, biodiversity conservation and the future of agricultural intensification. Biological Conservation, 151, 51–59

Webb, K.M., R.M. , Harveson, R.M. & West, M.S. (2015)  Evaluation of Rhizoctonia zeae as a potential biological control option for fungal root diseases of sugar beet.  Annals of Applied Biology, 167, 75-89

Winer, J., Griepentrog, H.W. & Kristensen, L. (2001) Suppression of weeds by spring wheat Triticum aestivum increases with crop density and spatial uniformity.  Journal of Applied Ecology, 38, 784-790.

Zhang, W., Cao, G., Li, X., Zhang, H., Wang, C., Liu, Q., Chen, X., Cui, Z., Shen, J., Jiang, R., Mi, G., Miao, Y., Zhang, F. & Dou, Z. (2016) Closing yield gaps in China by empowering smallholder farmers. Nature, 537, 671-674

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The Scottish Forestry Trust – despite the name, not just for the Scots

One of the penalties/benefits of being around a long time in one particular field, is that unless you are a hermit or don’t publish anything, people do get to know of your existence.  Couple that with the fact that in the UK university sector, faculty that work in forest entomology are almost as rare as hen’s teeth and it is perhaps understandable that you find yourself on committees that you would never have imagined yourself being asked to join.

SFT1

Some of us just hadn’t realised that the 1970s had been and gone.

Certainly when I was a long-haired forest entomologist working for the Forestry Commission near Edinburgh, I would have laughed out

SFT2

loud if someone had told me that 25 years later, with shorter hair but a longer beard, I would be a member of the grandly titled UK Tree Health & Plant Biosecurity Expert Taskforce.  These things do happen however, and continue to happen.  Last year for example, I became a Trustee of the Scottish Forestry Trust. At the time of the invitation (late 2014), I had been involved with forest research in the UK and elsewhere, since 1982, yet to my knowledge, I had never heard of the Scottish Forestry Trust and I am sure that I was not the only one out there.  I have now been a Trustee for over a year, and at our last meeting in December 2015, we felt that it was about time we raised our profile, after all, our role is to “provide funds by way of grants, to support research, education and training” in forestry.    At the risk of bringing down an avalanche of applicants I volunteered to write a blog post about our activities and to tweet about our funding opportunities.

The first thing to make clear, and I have highlighted this at the top of the page, is that we do NOT just fund Scots and Scottish projects. Despite the name, we support forestry projects the length and breadth of the UK.   The projects we fund are extremely diverse; literature reviews, major research projects, public lectures, training events and MSc project field work.   We also part-fund PhD studentships, either directly or from our new Forest Health bursary scheme run in conjunction with the Forestry Commission to specifically fund forest health projects.  Perhaps our most bizaare/adventurous grant was to the Asylon Theatre group to support the production of a play, Fraxi – Queen of the Forest to inspire primary school children to care for and learn more about trees.  In terms of actual funding the grants range from a couple of thousand to £60 000, so perhaps not as much as you could get from other sources but applicants can apply for monies to cover up to 30% of the anticipated cost of their project which is better than nothing, although in exceptional circumstances we may fund 50% of the costs.

As a general guide we are looking for projects that are relevant to UK forestry in the broadest sense, to wider UK forestry research priorities and have clear objectives / research questions and methods, some expected research outcomes, within a clearly defined time frame and have additional funding from other sources.   We specifically do not fund projects that have already started, so there is no point in contacting us to bail you out of a short-fall in funding, nor do we fund capital costs.  We are aware of the difficulty in obtaining funds to do forest research in the UK so are keen to help wherever possible, but please do make sure that your applications are relevant, of a high quality and fall within our remit.  If in doubt about the eligibility of your proposed project feel free to contact us using this link to discuss it before putting in a formal application.

I hope I have inspired all you eligible applicants to download an application form and attempt to make our next deadline, February 19th, but failing that you can aim for our two other application deadlines in May and October.  Good luck and I look forward to seeing your applications in due course.

SFT3

Hopefully not as many as these 🙂

 

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Underinvestment is not going to produce STARS – BBSRC take note

Earlier this year, the BBSRC at the stroke of a pen, deprived several strategically important and vulnerable research skills and capabilities areas in biosciences of approximately £9 000 000 per annum  by funneling iCASE funding to a number of universities already awash in cash and with little or no interest in vulnerable skill-sets. Now, the BBSRC in a feeble attempt to remedy this seriously misjudged action, has announced their new STARS programme. I quote from their website

http://www.bbsrc.ac.uk/funding/studentships/stars/

“Our STARS programme aims to support the development of strategically important and vulnerable research skills and capabilities in the biosciences. Awards are available to develop postgraduate-level training in areas of significant need for clearly defined academic and industrial sectors”

 

Reasons for such additional support include, but are not restricted to:

A lack of training and/or capability in specific areas, or a need to up-skill individuals within a specific area

An identified need to attract researchers into the area

A need to build capacity in a new or emerging research area

A need to transfer technical and commercially relevant skills to/from industry

 

Delivery of training may be achieved by one or more of the following methods:

Research Experience Placements Summer research placements for undergraduate students in the middle years of their studies, to attract them into further research in a strategically important or vulnerable research area

Skills schools in strategically important and vulnerable research areas, including: Development of new skills schools

Expansion of existing institutional/regional activities for national reach

Expansion of existing activities for participation by BBSRC-funded researchers at any level (PhD, postdoctoral researcher, research fellow, research leader)

Development and delivery of training resources through other mechanisms, such as development of e-learning modules or other online resources

 

Funding

Up to £250k is available per year to support training activities through the STARS programme. There will be three calls per year. Awards are flexible and may be used to support strategic and vulnerable skills for a short, discrete period or for up to three years of recurrent funding.

According to the web site and after an incredulous email by me to the BBSRC, it turns out that this magnificent windfall is expected to fund 30 projects – do the sums and this averages out at just over a princely £8000 each! My colleagues and I felt (and still feel) that this really does not show a serious commitment by the BBSRC to vulnerable research skills and capabilities. Rather, it shows complete disdain and contempt for the areas that they claim to be concerned about;

“We welcome applications for support of any research capability within our remit, but particularly those highlighted in the Review of Vulnerable Skills and Capabilities, published in January 2015 (see downloads) and especially in relation to capabilities within the following areas:

Maths, statistics and computational biology

Physiology and pathology of plants, animals and microbes

Agriculture and food security”

 

Beggars, however, cannot be choosers and so my colleagues and I duly downloaded an application form and submitted an application to run a one-week summer school in crop protection (entomology, plant pathology, plant nematology and weed science) for three years for 15 undergraduate students per year. Notwithstanding the small sums of money available, the form required inputting a disproportionate  amount of information; asked for a business plan and detailed information, concerning in the case of a taught summer school, details of lecture content and delivery, and financial support or other from interested parties and the institution providing the service. In terms of person-hours the delivery of such a course far outweighs the paltry sum of money available; in fact the time taken to put together the application itself, if costed at FEC (full economic costs), would also eat substantially into the monies potentially available. I could borrow more from my bank as a personal loan with considerably more ease, less paperwork and probably with a considerably greater chance of success.

BBSRC you cannot be serious!

Dad

Post script

In case anyone wonders why I have chosen to illustrate this post with a photograph of a somewhat sceptical looking elderly gentleman, let me explain. The picture shows my late father, Robert Ikin Leather (1924-2007) who is a perfect example of one of the vulnerable skills set that our proposed summer school would highlight and attempt to remedy. He was a traditional agricultural plant pathologist who could go out into the field, recognise symptoms and diagnose diseases, as well as identifying them in the laboratory and conducting field research. He is no longer with us, as are the majority of people who shared his skills. Plant pathology in the UK is in dire straits as are weed science, plant nematology and to a slightly lesser extent, entomology. To reiterate my earlier point underinvestment in training and research in these areas is not the way to solve the problem.

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It’s a Wonderful Life – an Inordinate Fondness for Insects

On Tuesday (4th February) I had the very pleasant task of escorting the MSc Entomology and Integrated Pest management Students from Harper Adams University on a trip to visit the Entomology Department at the Natural History Museum, London.  Despite having to leave at six in the morning all the students were on time (I hesitate to add bright-eyed and bushy-tailed as that would be a patent untruth), but they were there on time.  I almost didn’t make it on time, as being a Yorkshire man, I decided that rather than leave my outside light on all day, I would try to make it to my garden gate in the dark.  Consequently, I had a very close encounter with my garden pond and turned up at the coach with a wet sleeve, a bruised knee, skinned knuckles and one leg of my jeans tastefully decorated with pond-weed.  Still the four-hour journey from Edgmond to London gave me plenty of time to dry out 😉

We arrived as planned at 10 am and were met by Max Barclay , the Collections Manager of Coleoptera  and Hymenoptera, otherwise known as @Coleopterist who first told us that there were 22 000 drawers of beetles surrounding us, much more than either the Dipterists or Hymenopterists would be able to show us!

Beetle Collection

He did confess however, that he was no longer able to claim that beetles were the most speciose group in the world and that the famous quotation might now have to be “ an inordinate fondness for wasps (or possibly flies)”.  Nothing daunted he wowed us with the largest beetles in the world, the aptly named Titans, quickly followed by a few of Charles Darwin’s collection from his famous HMS Beagle trip.

Max Titans   Darwin's

Next came some glorious metallic coloured specimens which looked as if they had been painted; interestingly if they had been painted, they would actually be too heavy to fly.

Gold beetles

Max kept the students, and me, enthralled for some time and then led us upstairs to the Coleopterist’s Offices.  These were fantastic; thanks to an added mezzanine floor, they get to work surrounded by carvings and magnificent windows.  What a fantastic place to work.

Beetle offices  Max talking in offices Office space  Owl

Some of the researchers such as my friend Chris Lyal @Chrislyal are so dedicated that they rarely leave their chairs resulting in dramatic wear patterns 😉

Chris' chair

Next on the agenda was the Hymenopteran collection where we were greeted by Gavin Broad also known as @BroadGavin, the Senior Curator of Hymenoptera.  I don’t want you to think that entomologists are competitive and try to out-do each other, but

Gavin Broad

 we were shown the longest wasp in the world; quite impressive, but not a patch on the Titans 😉

Longest wasp

This was followed by a fantastic selection of wasp nests (of which I only show a few),

Wasp nest 1   Wasp nest 2

including one wearing a tweed jacket and woolly jumper!

Wasp nest jumper

We left the Hymenopteran collection with a reminder of how few taxonomists there are and how much material needs to be sorted and identified; the picture shows just a tiny fraction of the material that comes in each day.

to be sorted

After lunch we joined Erica McAlister @FlygirlNHM, the Collection Manager for Diptera, Fleas and Spiders.  She regaled us with stories

Erica

of bot flies, maggot-ridden corpses, showed us the maggots from the Ruxton murders (a forensic entomology first)

Ruxton maggots

and demonstrated how some flies twerk!  I really should have had a video camera.  I must also not forget to mention how many boxes of Dipteran specimens there are still left to identify and catalogue.  Again this is only a small selection.

Flies to sort

Erica then led us into the bowels of the museum to see some of the largest invertebrates on the planet, giant squids,

Squid

albeit not insects but quite impressive.  These are not on display to the public because they are preserved in formaldehyde, now deemed to be too dangerous to expose to all and sundry, despite the fact that as a school boy and undergraduate I spent a lot of time dissecting specimens preserved in the stuff, and as I recollect, not wearing gloves or face masks!  If you do want to see it, it is possible to take a free tour of the Spirit Collection http://t.co/U49HRoFbhV.  It was then time to get back on the coach and head back to Shropshire and Harper Adams University.   Here I am, captured on film by one of the students @Ceri_Watkins  as I try to make sure that everyone gets back on to the coach!

Loading the bus

All in all, a most enjoyable day and many thanks to our hosts for making it so memorable.

Post Script

I think that the thing that impressed us most was the enthusiasm everyone we met had for their particular group.  Even we general entomologists tend to have a favourite group of insects, in my case aphids, but the passion that Max, Gavin and Erica have and displayed for their specialities, is something very special indeed.  People tend to think of insect taxonomists as weird, introverted, bearded old gentleman.  Anyone who has the privilege to meet any of our three hosts will realise how wrong this stereotype is and will wonder why the Government and Research Councils are so reluctant to adequately fund proper taxonomy.

Without a thorough knowledge of the taxonomy and diversity of insects and allied organisms we will continue to be at risk from invasive pests and diseases.  If we don’t know what is out there, then how can we be ready to protect our crops and environment from outbreaks, or indeed, know how and what to protect to preserve the wonderful biodiversity which our planet supports.  It is time to admit that the funding for the study of vertebrates needs to be scaled back by at least 90% and those resources diverted to the identification and study of the biology and ecology of the dominant animal species of the world, the invertebrates.  In case anyone thinks that I am total partisan, I would also call for 20% of the funding devoted to vertebrate research should be dedicated to training plant scientist and funding whole organism botanical research.  Please spread the message.

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