Health and biodiversity restored? How farming can rediscover its long-lost roots

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There is another way: organic Borlotti beans from Sandy Lane Farm, Oxfordshire. Photo: Sandy Lane Farm via Facebook.
There is another way: organic Borlotti beans from Sandy Lane Farm, Oxfordshire. Photo: Sandy Lane Farm via Facebook.
As industrial agriculture continues to erode our wildlife, Dave Goulson challenges the methods and objectives of ever-increasing food production. We need to move towards sustainable, evidence-based farming systems that produce healthy food, rather than allowing the agrochemical industry to reshape our farming, countryside and nutrition to its quest for profit.
In our rush to increase yields, based on an ill-conceived notion that this is needed to feed the world, we run the risk of irrevocably damaging our environment and hence our food production system.

Modern intensive farming produces plentiful, cheap food but is reliant on heavy use of agrochemicals and is a major driver of the ongoing collapse of wildlife populations.

Taxpayers pay billions each year to support this system, with the bulk of this money going to the biggest, richest farming operations.

Yet it is not politically correct to criticise farmers or farming. We are brought up on stories about the adventures of a playful piglet who lives on a farm with a sheepdog, half a dozen chickens and a smiling cow, all presided over by a rosy-cheeked farmer, his wife and their two children.

Farmers might also be portrayed as custodians of the land, where the countryside that they look after is filled with the sound of skylarks singing, bumblebees buzzing amongst the hedgerows, and butterflies flitting across sunlit, flowery meadows.

Farming is of course the most fundamentally important of human activities; without farms and farmers, we would quickly starve. Going back to hunter-gathering is not an option. What is more, the human population is growing, and therefore we must increase food production.

The United Nations Food and Agriculture Organisation (FAO) declared in 2010 that we must double food production by 2050, and this rationale is used to justify the drive for ever-increasing yield. One might argue that we should focus all our research on increasing yield at all cost, else our grandchildren will starve.

A choice of two kinds of farmer hero?

These are two quite different views of farming, the former obviously wildly inaccurate, but in both the farmer is the hero. Of course there is a contradiction between the two, a fundamental conflict. The drive to increase food production has resulted in an intensive farming system that is scrubbing wildlife from the face of the land.

In Europe, we have good long-term data on populations of birds, butterflies and moths, and the overwhelming pattern is that most species are in retreat (e.g. Fox et al. 2014 J Appl. Ecol. 51: 949-957; Inger et al. 2015). Rather few larks are still singing, and most of the butterflies are gone.

Video: The second Annual Plymouth Linnean Lecture was held on Wednesday 18th March 2015 at Plymouth University by Professor Dave Goulson and was entitled 'Bees, Pesticides and Politics: the impact of neonicotinoids on UK bumblebees'.

A recent study by Inger et al estimates that bird populations in Europe have fallen by 420 million in the last 30 years. Groups for which we have less precise data, such as bees and beetles, also seem to be going the same way.

In our rush to increase yields, based on an ill-conceived notion that this is needed to feed the world, we run the risk of irrevocably damaging our environment and hence our food production system.

For the UK this depressing pattern is summarised nicely in RSPB's 2013 'State of Nature' report, which makes bleak reading. In short, farmland wildlife underwent massive declines through the 20th century and in the twenty first century is still in rapid decline. Indeed, recent data for butterflies suggest that declines in many farmland species are accelerating.

This continued decline is, on the face of it, puzzling. In Europe very large sums of tax-payers money are spent on agri-environment schemes: money paid to farmers to implement mechanisms to increase wildlife[1]. On the whole, farmers do not grub out hedgerows any more, or plough up ancient hay-meadows.

They are more likely to replant hedgerows and attempt to restore flower-rich grasslands. Yet this does not seem to be working, for wildlife continues to disappear.

What has gone wrong?

I would argue that there are two explanations. The first is that much of the funding for agri-environment schemes is wasted. The basic entry-level greening measures are so unambitious that a lot of farmers have to do next to nothing to qualify. There is little policing of what they actually do, and implementation of some schemes often fails.

Wildflower strips on field margins are a good example - intended to support pollinators, they often don't establish well, and end up containing nothing but coarse grasses. There are some shining examples of farmers who have successfully implemented a range of such schemes with measurable benefits for wildlife, but they are few and far between.

Note that these schemes have recently been revised in Europe, but overall funding has been cut and many farmers currently in the higher level schemes will soon find themselves getting no agri-environment subsidies at all, so it is unlikely that there will be a net improvement.

The second relates to the way crop production systems have developed. Forty years ago there was substantial government funding for agronomic research. In the UK, we had many state-owned experimental farms where scientists developed new crops and devised integrated pest management programs.

Rachel Carson's famous 1963 book 'Silent Spring' had highlighted the potential dangers of over-reliance on pesticides, and there was great interest in biological control agents, trap crops, rotations, cultural controls, use of resistant varieties, and so on.

Today, most of those experimental farms have gone, or become essentially privatised, in attempts at cost-saving by successive governments. Industry has stepped in to fill the gap, shaping agriculture to its own ends. Now, agronomic funding comes almost entirely from the private sector - particularly the big companies that manufacture pesticides and develop GM crops. Most of the agronomists that advise farmers work for agrochemical companies (the figure is 71% in the UK [2]).

Most arable farms in the UK use a minimal rotation - wheat, wheat, oilseed rape. Crops are commonly treated with ~20 different pesticides in a season [3], many of them applied prophylactically.

Ho many biocides would you spray on your vegetables?

Ask yourself this: if you were growing veg in your garden for your family to eat, would you be comfortable spraying them with a cocktail of 20 different insecticides, fungicides, herbicides and molluscicides? If the answer is no, why are you happy buying food from the supermarket?

The principles of IPM seem to have been discarded along the way. We have allowed current farming systems to be moulded by industry, and their goal is not to feed poor people in developing countries. Nor is it to look after wildlife, or worry about the long-term sustainability of production systems. It is to make the biggest profit that they can.

Minimising pesticide use would be good for the environment, good for the long-term sustainability of farming, good for the farmer, and good for the consumer. But it won't make big agrochemical companies rich.

Consideration of the current risk assessment procedures for new agrochemicals sheds some light on the failure of the current system.

Typically, the safety of agrochemicals is examined by conducting acute toxicity tests for each compound on non-target organisms such as rats and bees, and comparing the response to plausible exposure scenarios in the field. So long as the animals are unlikely to receive a dose in the field anywhere near that which produces harm in short-term lab tests, all is regarded as well.

These data are generally not made public, so they cannot be inspected or evaluated by independent scientists. There is currently no requirement to demonstrate that the new product provides a significant improvement in yield; such trials are presumably conducted by industry (well, one would like to think so), but are not made public.

Regulatory gaps to drive a combine harvester through

Under the current system, once a new product is on the market, farmers have little in the way of reliable, independent information available to them as to either the environmental risks posed or the efficacy of each product. They are largely reliant on the companies that manufacture the chemicals to advise them as to which ones they should use, with competing manufacturers providing conflicting advice, and all with a strong incentive to prescribe more use than may be necessary.

The current agrochemical regulatory system is clearly woefully inadequate. In the real world, non-target organisms living in farmland are chronically exposed to multiple agrochemicals throughout their lives, not one at a time in a single dose.

We know that these chemicals do not always act additively; for example some fungicides, while being of very low toxicity to insects in themselves, can greatly increase the toxicity of insecticides when an insect is simultaneously exposed to both. Such interactions will only be discovered when the chemicals have been approved and are in widespread use, which is far too late if one wishes to prevent environmental harm.

Interactions between agrochemicals, and the consequences of chronic rather than acute exposure, are just two important aspects that the current regulatory system fails to capture. Complex interactions also occur between agro-chemicals and other stressors.

For example, low doses of pesticides which would produce no measurable effect in a lab toxicity trial can impair the immune system of honey bees, rendering them susceptible to viruses. Hungry animals (such as bees in flower-poor intensive farmland) are also more susceptible to both toxins and disease than well-fed lab stocks.

In short, our current regulatory system does not come anywhere close to approximating the complexities of the real world, and as a result we have failed to adequately protect biodiversity from the many stressors imposed by modern farming.

Is low level agro-poisoning inevitable?

Of course it would never be possible to conduct realistic, long-term tests on every plausible combination of chemicals and other stressors. Perhaps we simply have to accept that modern, intensive farming is necessary if we don't want to starve, and that loss of our wildlife is an unavoidable price that we have to pay?

I would suggest that there is a way forwards, but that we need a radically different, holistic and transparent approach based on scientific evidence. We need long-term farm-scale studies of crop production systems, comparing both the yield, profitability and the consequences for biodiversity and ecosystem services of different systems (e.g. conventional versus a reduced input, 'Integrated Pest Management' approach versus organic).

Such studies need not be enormously expensive, for the farms would still be productive. Surprisingly few studies have simultaneously compared profitability and biodiversity benefits across farming systems, yet this is the fundamental trade-off in food production. Indeed, for most agrochemicals there is currently little publicly available evidence as to what yield benefits they individually provide [4].

If a new chemical, crop or farming system were to be proposed, and provided that it passed some basic safety tests, it could then by trialed alongside existing approaches. Only if a new product significantly increased yield, or was found to have positive benefits for biodiversity, or both, would it be approved.

Such a system would evaluate new products in the context in which they would be used in the real world, rather than highly unrealistic trials as currently used. New agri-environment schemes could be evaluated using the same framework. All such studies should be open access.

This has parallels to the laudable move to 'evidence-based medicine' whereby new drugs or therapies are only approved following trials demonstrating that they provide a significant improvement over existing treatments. At present, our farming systems are not evidence-based, and what evidence that is available is hidden.

Is 'yield' really all that matters? (No, it's not)

I would also argue that we should question the drive towards further yield increases. People are not starving because we don't grow enough food. In India, obesity is now a bigger problem than starvation. We grow more than enough food, but estimates suggest that nearly half of what is grown goes to waste, and many of us eat far more meat and many more calories than is good for us.

In the developed world we spend less on food, as a proportion of income, than we ever did - food is cheap. It is a disgrace that anyone is still starving, but it has nothing to do with food production. Indeed, if one could largely eliminate food waste then every farm in the world could go organic and, even with the concomitant reduction in yield, there would still be more than enough food to go around.

Without a radical overhaul of farming systems, and of the way agronomic research is funded and conducted, there is no doubt that we will lose a significant portion of our biodiversity. Even for those that don't give a damn about wildlife, this ought to be a major cause for concern because we depend upon wildlife to deliver the ecosystem services that underpin food production.

We should be focussing on sustainable production of healthy food, not on producing more cheap, pesticide-laced food and then throwing half of it away.

In our rush to increase yields, based on an ill-conceived notion that this is needed to feed the world, we run the risk of irrevocably damaging our environment and hence our food production system - so that our grandchildren really do starve.

 


 

Event: Dave Goulson will be speaking at the Oxford Real Farming Conference - 6th & 7th January 2016.

Dave Goulson is Professor Of Biology (Evolution, Behaviour and Environment) at the University of Sussex. He has published more than 200 scientific articles on the ecology and conservation of bumblebees and other insects. He was named the Biotechnology and Biological Sciences Research Council (BBSRC) Social Innovator of the Year (2010) and given the Zoological Society of London's Marsh Award for Conservation Biology in 2013. He was elected Fellow of the Royal Society of Edinburgh in 2013. Her tweets @DaveGoulson .

Books: Dave is the author of the popular science book and Sunday Times bestseller 'A Sting in the Tale' (2013), which has been translated into German, Dutch and Danish, which was followed by 'A Buzz In the Meadow' (2014). He also authored the scientific text 'Bumblebees: Their Behaviour, Ecology & Conservation' (2010) and founded the Bumblebee Conservation Trust (2006), a charity that has grown to 8,000 members.

This article was originally run as a guest blog on the Journal of Animal Ecology website, 16th January 2015. This version is taken from Dave Goulson's University blog site by kind permission.

References

[1] The EU gives out €59 billion per year in total in subsidies to farmers. Most of this is dished out as single farm payments, which are more-or-less payments simply for owning the land. There is currently no cap, so some major landowners receive millions in subsidies. For example in France, the 160 biggest farm holdings receive €123 million between them. The UK fought hard, and succeeded, in blocking EU proposals to cap subsidies at €300,000 per farmer. The vast majority of this money does not go to poor farmers in marginal areas who might be deserving of support. One might question why such extra-ordinary sums of tax-payers money should be given to rich people or corporations to enable them to continue to farm in a way that is destroying our natural heritage.

[2] This figure was provided by an independent agronomist, Caroline Corsie, but I am unable to find official figures.

[3] I have quotes this figure before, and it has been heavily criticised. It was originally based on surveys of arable farms in East Sussex in south east UK, which applied between 18 and 21 different pesticides to each wheat or oilseed rape field in 2013 (some of them multiple times). I've heard it said that we must have found the most intensively farmed fields in England. However, Defra's own statistics demonstrate that this is spot on - their PUSSTATS website is open access, and one can obtain information on the total area of arable crops in Britain, and the total area treated with pesticides. The latter is almost exactly 20 times the former, demonstrating that the average arable field receives 20 applications. This average includes organic farms, so the mean for conventional farms must be higher.

[4] This was recently highlighted by an astonishing revelation from the USA Environmental Protection Agency. They revealed a number of studies showing that application of neonicotinoid seed dressings to soya beans has zero impact on yield. At the advice of agronomists, farmers had been routinely applying neonics to soyabeans over 30 million ha, at an annual cost of $240 million. This seems to refute the oft-used argument "Farmers aren't fools - they wouldn't waste money on pesticides they didn't need".

 

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