Series Category Archive

What actually is GM Food?

6 Replies Jonny Hankins

Last week I gave some statistics about GM food production both in the USA and worldwide, and this week I wanted to consider what genetic modification actually is. It appears to me that confusion reigns when addressing issues surrounding GM, so I would like to try and clarify a few issues.

GM exists in plants but also in animals as the salmon link showed last week (not currently approved for consumption), but we tend to associate it mainly with crops, so what does it entail?

In relation to the biggest crops that I mentioned last week, soybean, cotton and corn, there are 2 distinctly different approaches. The first is herbicide tolerance (HT) and the second insect resistance (Bt). In other cases nutritional changes have been made, but the major cash crops are based around the following approaches.

Herbicide-tolerant (HT) crops are developed to survive application of specific herbicides that previously would have destroyed the crop along with the targeted weeds. So you can plant your seeds and spray a herbicide that kills everything apart from your desired crop.

Herbicides target key enzymes in the plant metabolic pathway, which disrupt plant food production and eventually kill it. Genetic modification creates a degree of tolerance to the broad-spectrum herbicides – in particular glyphosate and glufosinate – which will control most other green plants.

Industrial Herbicide Techniques

Industrial Herbicide spreading Techniques

1. Glyphosate-tolerant crops
Glyphosate herbicide kills plants by blocking the EPSPS enzyme, an enzyme involved in the biosynthesis of aromatic amino acids, vitamins and many secondary plant metabolites.  There are several ways by which crops can be modified to be glyphosate-tolerant. One strategy is to incorporate a soil bacterium gene that produces a glyphosate-tolerant form of EPSPS. Another way is to incorporate a different soil bacterium gene that produces a glyphosate degrading enzyme.

2. Glufosinate-tolerant crops
Glufosinate herbicides contain the active ingredient phosphinothricin, which kills plants by blocking the enzyme responsible for nitrogen metabolism and for detoxifying ammonia, a by-product of plant metabolism. Crops modified to tolerate glufosinate contain a bacterial gene that produces an enzyme that detoxifies phosphonothricin and prevents it from doing damage.

The developers argue that use of this type of seeds cuts fuel usage and tilling as there are fewer weeds, (tilling leads to top soil loss as it is blown in the wind). They also argue that GM production has led to less herbicide use, and this seems to currently be the case.

Unfortunately one effect of this mass usage seems to be the development of ‘superweeds’, that are becoming resistant to theses herbicides. Farmers have had to address this problem by using more and different types of herbicide, with the journal Nature recently reporting a Pennsylvania State University research article that claims that pesticide use will increase dramatically in the very near future as a result, questioning the sustainability of the process. Something similar to the present antibiotics resistance problem that we are seeing in the human population. It should also be noted that the use of broad spectrum herbicides has grown as GM usage has grown, as its ease of application using the new seeds has made it more widespread, even though it only needs to be applied once.

Insect-resistant crops containing the gene from the soil bacterium Bt (Bacillus thuringiensis) have been available for corn and cotton since 1996. These bacteria produce a protein that is toxic to specific insects. Instead of the insecticide being sprayed, the plants produce the bacteria so the insects eat the plant and die.

There are risks associated with this approach as well as the advantage that farm workers are not exposed to spraying insecticides.

Invasiveness – Genetic modifications, through traditional breeding or by genetic engineering can potentially change the organism to become invasive. Few introduced organisms become invasive, yet it’s a concern for the users.

Resistance to Bt – The biggest potential risk to using Bt-crops is resistance. Farmers have taken many steps to help prevent resistance but as in the previous case it is a potentially serious problem.

Cross-contamination of genes, genes from GM crops can potentially introduce the new genes to native species.

Now I am no scientist as we all know but I presume that the human must consume the bacteria too, although scientists assure me that the bacteria is not harmful to humans or other mammals.

Much of the recent dramatic growth in GM usage can be attributed to the development of plants that offer both of these systems.

Next week I will take a look at the regulation of GM foods.

Technology in Food Production

10 Replies Jonny Hankins

Over the coming weeks I am going to write a series of posts about technology and food production. Food is a topic that I have been interested in from a sociological perspective for several years, and I have a few topics that I would like to address, from GM, to regulation, sustainability and organic alternatives.

Technology plays a huge part in food production. If we just think about GM products, transport issues, industrial farming techniques and globalization in generic terms, it becomes immediately apparent that this sector is the largest in the world. According to these statistics agriculture accounts for between 14 and 24% of all global emissions of CO2, and 19 to 29% of total greenhouse pollutant emissions. An interesting point here is that in the so-called developed countries post-farm emissions are very high, so in the UK for example 50% of these emissions are produced after the food has left the farm, presumably through processing and transport techniques.

But it seems to me that processing is where the money is. According to Forbes, Pepsi for example made almost $45 billion in 2009 and Nestle’ made $110 billion, and these profits only refer to US sales. This year the sector is one of the very few that is still growing.

If you look at vegetables though they make less money. Dole is the largest producer of fruits and vegetables in the world, but in the same year made only $6.8 billion, leading me to conclude that the profit is in the processing and not in the actual foodstuffs themselves.

And this leads on to the question of what goes into these products. The answer is, largely, genetically modified (GM) organisms.

Genetic Modification

Genetic Modification

Yes if we look at the statistics that the US Department of Agriculture publish, we find the following:

93% of soybeans grown in the USA are GM

90% of all corn produced in the US is GM

95% of US sugar beat is GM

40% of all cropland in the US is used for Monsanto (the largest GM seed producer) production

40% of all global GM crops are produced in the US

35% of all the corn grown in the world is GM

81% of all the soybeans grown in the world are GM

I take some of my information from here, the Organic Consumers Association website and the rest from US government sources.

So as you can see it is big business. It is estimated that 70% of all the foods in our supermarkets contains GM organisms. 16.5 million people work in the industry in the US and it accounts for more than 10% of GDP.

And it is not just plants, there is a request for FDA approval for GM salmon. It grows at twice the speed of regular salmon.

The GM salmon, produced by AquaBounty Technologies contains a gene from a Chinook salmon that produces a growth hormone, and a genetic “on-switch” from an ocean pout (an eel-like fish) that keeps the growth hormone pumping out year round. The company state that GM salmon will consume 25 percent less feed, half of which can be plant protein.

Oh and in the US none of this is labeled, although currently 64 other countries do require labeling.

GM organisms have been found in many countries that do not allow their production however, Mexico comes to mind as the closest example to the USA. Seeds have blown across the borders from the US, over the mountains, across the seas, possibly even from Brazil and Argentina and landed and grown. Not to mention imports of contaminated produce. Read the scientific report here.

Corn is socially extremely important in Mexico, its cultivation all started there, and this contamination has caused some serious soul searching. In a related issue GM companies are currently trying to get permission for huge plantations in Mexico, as this Reuters article explains. We await the court’s decision.

For now I stop here, I think that is enough food for thought for this week (groan). Next week I shall delve once more into the murky waters of the global food industry however, and who knows what we might find. Comments please below.

Concluding a series on the S4 Mini

1 Reply Christopher Roberts

This is the conclusion article in a series reviewing the Samsung Galaxy S4 Mini.

Here we are at the end of another series. This was my most inconsistent series, which I should have ended in October, but here I am in January 2014 finishing it off!

In the first article I introduced my new purchase and started the series. I am still (very) glad I chose Android over Apple and a Samsung Galaxy over other rivals. I really like the (in the words of David) Disney layer Samsung add, having compared it to various other Android devices, not running the Samsung version of the OS.

D3O case for the S4 MiniWhilst I do like the S4 Mini, is hasn’t been an easy ride. Before I got my D3O case and Tech21 screen protector, I dropped my phone. The screen hit something and it bounced to the floor. This completely ruined the screen. I took it in for repair and £100 later I had my phone back.

Note to self: always get a really good case, as the cost of that is way less than the cost of a repair. Oh and try not to drop your phone.

A few weeks later my battery started playing up. It wouldn’t hold charge and depleted very quickly. I wasn’t sure if this was related to the earlier drop or not, but I took it back to the shop I bought it from and they said that as it was still within warranty (Samsung give a two year warranty) they would take a look and repair it for me. A few days later I got my phone back (again) and since then nothing has gone wrong.

I recently dropped it again (by accident) outside. It landed on the pavement and bounced to the ground. Luckily the D3O did its work and my phone is still perfectly fine.

Anker S4 Mini Screen ProtectorIn terms of screen protectors I would say the Anker one was much better than the Muvit alternative, however since that post I have purchased a Tech21 Impactology screen protector and I would rate this the best yet. It cost £20 which is five times the cost of the Anker one and I don’t think it is really that much better. Clarity, responsiveness and adhesion are pretty much the same, it’s only the level of protection that I think is probably a little better. Check out this video for more.

My final article reviewed the RoadWarrior car holder for my S4 Mini. Depending upon the car it can be awkward to place, and I am worried it might damage my phone (if I am not really careful when inserting/removing it) but the FM transmitter and spare USB port are great features that I value.

Overall I enjoy using my S4 Mini. It is a good little phone with great capabilities. The battery life could be improved and the OS could be made a little sleeker/easier to use in some places, but on the whole it is a very good handset to buy; it’s more affordable than it’s bigger brother – the S4 – whilst offering a similar experience, from a more conveniently sized device.

Four and a Half StarI think the S4 Mini is worthy of a 4.5 star rating. 🙂