Genetic Technology (Precision Breeding) Bill

Lord Carrington Excerpts
Lord Carrington Portrait Lord Carrington (CB)
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My Lords, I declare my interests as a farmer and landowner as set out in the register. I too welcome the noble Lord, Lord Roborough, and congratulate him on his excellent and amusing maiden speech, and look forward to many such contributions in future.

The development of new cultivars through rapid and precision breeding is a necessity, both in order to reduce crop management burdens such as disease and drought but also for the challenges and opportunities of meeting the demands of the supply chain, and of course changing consumer preferences in relation to product quality—the non-browning banana, which the Minister mentioned, is a good example.

For many crops, including horticultural crops, the conventional breeding cycle usually takes eight to 15 years, according to Frontiers, which is the third most cited research publisher in this field. Technology tools are urgently required to reduce the length of that breeding cycle. Techniques for precision genetic manipulation, such as targeted gene editing, can significantly increase breeding efficiency, particularly for those elements, such as resistance to pathogens, that are genetically controlled by a few major genes. All this must be accompanied by necessary and proportionate regulation to ensure product safety and consumer confidence.

The message therefore comes across loud and clear that every effort possible should be made to reduce the length of the breeding cycle so that we can cope not only with changing consumer demands and growing populations but, more importantly, with the effects of climate change and political events such as war, all of which put new pressures on land use. In this country and many others there is a new policy direction aimed at using what for many years has been purely farming land for the provision of energy, biodiversity and woodland or forestry, leaving aside the changes to farming practices in the shape of using less artificial fertiliser and fewer pesticides. Hence, innovation in agriculture that leads to lower water, spray and fertiliser use is essential. A wonderful example of what can be achieved was given in an article on this subject in the Financial Times on 11 November:

“There has been greater progress in gene editing to improve yields. Inari, a US agritech company set up in 2016, has been working on gene editing to increase yields on wheat, corn and soyabeans as well as reducing the necessary water and nitrogen fertiliser … Inari is targeting yield increases of up to 20 per cent in corn, wheat and soyabeans, with input reduction targets of 40 per cent in water and nitrogen fertiliser for corn.”


All that cannot be done with conventional technology.

Drought tolerance and yield increases using smaller amounts of inputs are complicated issues, and need addressing now if we are to be able to adequately address the challenges. Happily, there are many universities, research institutes, agribusinesses and SMEs out there to complement the research and development being undertaken by the big chemical and other agriculturally focused businesses. We are therefore able to take advantage of developments in the gene-editing world, as long as it is adequately regulated, so that the consumer can buy gene-edited products in full confidence. However, care needs to be taken that the industry is not overregulated to the extent that innovation is discouraged, becomes too expensive or takes too long to reach the rollout stage. Hence, overregulation may be as bad as too little regulation. It needs to be proportionate, risk-based regulation with science at its core, rather than bound by the innovation-strangling precautionary principle that the noble Lord, Lord Lilley, mentioned—and which I am sure Viscount Ridley would have mentioned. For that reason, we need to look closely at Part 3 of the Bill to ensure that it is fit for purpose.

Fortunately, despite the claims of some scientists that this is an industry that pays too much attention to vested interests, particularly in the agriculture sector, there is an increasing body of opinion that the science has moved on and, in the words of the European Food Safety Authority in November 2020, also quoted by the noble Lord, Lord Curry:

“Genome editing techniques that modify the DNA of plants do not pose more hazards than conventional breeding”.


That was confirmed by the EU Agriculture and Fisheries Council at its recent meeting in Prague, when it concluded with the statement:

“Ministers agreed that the EU must react as quickly as possible to the development of modern trends and not hinder innovation. It is therefore important to change the outdated legislative framework by which the EU regulates the use of modern plant breeding methods. This framework not only restricts European farmers, but also leads to an outflow of top experts to countries outside the European Union, so the damage is extraordinary.”


Let us hope those scientists come here.

Luckily, regulation is already out there as the issues are not new, so it is not a case of reinventing the wheel. More than 15 major countries have set rules that are open to gene editing in crops, and several of those do not differentiate gene editing from conventional breeding. Surely we can learn from these countries and their regulatory systems so that we can introduce best practice in this area to the already formidable Food Standards Agency. No one scientist—not even any group of 100 scientists—has the monopoly of wisdom in this complicated area of science, but, in order to progress such important innovation, let us look at and learn from our friends, who in many cases have a great deal more experience than we do, along with the resources of other world-class scientists.

The more we can work together in this area, the easier it will be to identify any weaknesses in the regulatory system and to develop the all-important confidence of consumers, at home and abroad, to accept precision breeding and gene editing. I ask the Minister to describe the level and depth of consultation with other agencies at the forefront of food regulation such as Health Canada, the European Food Safety Authority and similar regulatory bodies.

It is good to observe that the mood on gene editing in Europe is changing and GMO regulation is being re-examined, as we have heard. It is even possible that some gene-editing technologies will be authorised in 2023. I hope that despite the attitude of elements of the ruling coalition in Germany—and, no doubt, other parties—that may happen soon, as elements of the farm-to-fork strategy involving lower pesticide and artificial fertiliser use, and the lowering of methane emissions from farming, will be hard to achieve without the new technologies.

Farmers require innovation to both maintain and increase productivity in the face of multiple challenges. The Bill will give them considerable confidence in the future.