Agricultural Emissions Teaching Materials Released

Last month, we released a brand new short film on agricultural emissions. Today, we are pleased to announce the release of a set of free teaching materials to accompany the film. These consist of an editable presentation, complete with speaking notes, and further information on some of the figures that the presentation contains.

Our intention is that a wide range of people – including teachers, lecturers, farmers or people working with farmers – will be able to use the film and presentation to lead a discussion on what we can do about agricultural emissions. Potential audiences include secondary and tertiary students, as well as consumers and farmers. In other words, anyone who eats!

The materials can be downloaded by following the links below. In addition, we have just released the film in physical copy. If you would like to be posted a free DVD which includes the film and materials, please send your name and address to info@motu.org.nz.

We will be happy to support those who wish to use the film and materials by answering specific questions. We'll collate the questions and answers into an FAQ document which will be available soon on the blog and also on the Motu website. If you have any questions at all, please email them through.

The New Zealand Farming Story presentation (.pdf version)
The New Zealand Farming Story presentation (editable Powerpoint)
The New Zealand Farming Story speaking notes
Notes on figures for emissions from meat consumption in presentation

The New Zealand Farming Story: Tackling Agricultural Emissions

Today we are very excited to release our new short film on New Zealand’s agricultural emissions. Although the topic may sound dry (though hopefully not too dry if you visit this blog!) our filmmaker Jess Feast has done an excellent job of making an engaging film on an extremely important topic for the future of our country, our planet, our people and our stomachs. (She also made our films about improving the water quality in Lake Rotorua).

The film covers a wide range of topics, and many of the ideas in it come directly from what we learnt through the AgDialogue process. Importantly, we cover how we might be able to achieve some real reductions in New Zealand’s agricultural GHGs (greenhouse gases). You will get to meet some of the participants and experts from AgDialogue, including two of our star farmers, Mike and Megan.

The film speaks for itself, so you are better off watching it than reading about it. But before you do that, I’d just like to acknowledge all the hard work that went into making the film. To all those in the AgDialogue who gave their time and those who have done related research in the past few years, this film is dedicated to you and the hard work you have done.  Also thank you to our filmmaker Jess and the Ministry for Primary Industries for its support. The work will pay off in creating a more sustainable and prosperous future for us and future generations.

Oh, and if you like the film, please share it far and wide. New Zealand is uniquely placed to be able to make a big difference to levels of agricultural GHGs (greenhouse gases) around the world. And everyone in this country can make a difference.

UPDATE: Teaching materials to accompany the film have now also been released. These can be found here.

Looking forward: what NZ rural land might look like in the coming decades under a carbon price

This blog post is by Motu Research Analyst Zack Dorner.

A couple of years ago, my sister brought her partner to visit New Zealand for the first time. We picked them up in Auckland, and drove down the North Island back to Wellington. He asked “Why are there so many golf courses here?”

Of course, they weren’t golf courses, but the lush, green grassy farmland that New Zealand is so well known for, and that he was not used to.

Motu has just released a new working paper, modelling what our rural land might look like in the coming decades, including with a price on agricultural GHGs (greenhouse gases). Luckily, for our “golf courses”, even with the agricultural sector facing a price on its GHGs, New Zealand probably won’t look much different to the way it does now.

The really cool thing about the model used is that it is based on real world observations of how rural land use in New Zealand has changed in recent decades in response to commodity prices. It is slow to adjust – farmers don’t want to switch immediately to the new best thing for their land (see final graph below), which is understandable. Changing your whole farm can’t be easy or cheap to do, and who’s to say market conditions won’t change again.

Of course, the results in the working paper are just from a model. They do not predict the future, but give us an idea about the types of changes to land use and their magnitude under certain scenarios. There are on-farm mitigation options that farmers may be able to do to reduce their GHGs before changing land use, but to keep things simple, the model does not include these.

The working paper models three scenarios out to 2030: no carbon price, a carbon price ($25) just for forestry, and a greenhouse gas price for forestry and agricultural emissions.

The model shows several interesting things.

First, as I have said, land use change is quite slow. Even with a $25 carbon price on forestry and agriculture, there is actually relatively minimal changes in land use. This provides evidence that our agricultural sector may be able to respond efficiently to a price on carbon without huge disruption to rural life in New Zealand.

However, although changes to land use are gradual and small, they actually make a big difference to our emissions. The extra trees are especially helpful in this regard. From the paper directly:

Under our ETS [emissions trading scheme] scenarios there is substantial reforestation. The extra removals associated with this new planting mean that the additional sequestration in 2024 is from 17.6 to 20 percent of national inventory agricultural emissions in 2008.

That’s a huge amount of emissions, and would help New Zealand immensely in our quest to lower our emissions.

In terms of cows and sheep, we actually see more dairy cows, and fewer sheep and beef farms. This is because dairy farms are so much more profitable, and the balance is tipped even more in their favour once a price is applied to farming emissions. This is already happening to a much larger extent, and only the already marginal sheep and beef farms are converted to dairy or forestry under an efficient response to a carbon price. The overall change is only minor in the scheme of things, and even when you exclude agricultural emissions from a carbon price, this still happens (see the first graph below).

So these results suggest that there are large benefits to having a $25 carbon price in New Zealand for forestry and our country’s emissions profile. As for agricultural emissions, if dairy and sheep and beef farmers face a price on their emissions, the sky won’t fall in, but the adjustments that are already taking place will just continue to a greater extent. By creating an efficient, economy-wide price signal which includes agriculture, we should achieve more mitigation overall (see the second graph below). If on farm mitigation is encouraged optimally, and technologies continue to improve, we might well see less of the minor reduction in farming in the model and instead end up with more efficient farms on our rural land.

Bringing agricultural emissions into the ETS or some other pricing mechanism must occur once farmers are ready and on board. Through research like this, and having a dialogue with all interested parties, we can hopefully move forward together, and work towards future-proofing our golf courses, and our farms.

And now, for those of you who get a kick out of graphs (like me), here are some relevant ones:

This graph above shows the projected change in land use share for each type of land use. The solid lines give baseline projections. Short-dash-dot lines give a $25 carbon price, but not on agriculture. Dashed lines show a carbon price with agriculture. Note the y axis is the same scale for each graph so direct comparisons can be made (page 9).

This graph shows the amount of emissions that are reduced or sequestered. The red line is with just forestry, the blue line shows including agricultural emissions as well increases the emission reductions (page 16).

  

This final graph below shows why sheep and beef farms have been declining over the years, and how land use change is gradual (page 4 of Kerr and Olssen 2012).

Recently announced changes to the New Zealand ETS

This blog post is by Motu Research Analyst Zack Dorner.

A couple of weeks ago, the New Zealand government announced changes to the Emissions Trading Scheme (ETS) based on a review last year of how it was operating, and recent consultation on proposed changes. This blog post summarises and comments on some of the key points in relation to agriculture.

In terms of agriculture, while processors (such as Fonterra) must report on their emissions as of this year, they do not have to face any costs of their biological emissions until after at least 2015.

In 2015 there will be a review of whether or not they should have to face any of these costs. The next election is scheduled for 2014, and this decision could be highly dependent on who leads the next government. Labour’s policy at the last election was for agriculture to start facing the cost for some of their biological emissions in 2013.

It is worth noting that the government is keeping its price cap on CO2 emissions at $25 per tonne, which means a reduction in this cap over time as it is not being adjusted for inflation. Furthermore, the government is keeping our ETS strongly linked with international markets, which are currently highly dependent on the EU carbon price. The EU carbon price is highly dependent on their regulatory decisions, meaning the price, when below $25, is highly uncertain. A tonne of carbon is worth less than $7 in New Zealand at the time of writing. The agricultural sector is due to get 90% of their credits for free from the Government once they enter the ETS, with this amount being slowly phased out.

The true cost to farmers and processors also depends on the price they receive for their output, which is set in the international market. Other countries, including those in the EU, are moving towards regulation to deal with their agricultural GHGs (greenhouse gases). Policies like regulation, and also to reduce deforestation can raise agricultural commodity prices. Biofuels are an example of a climate policy which has been argued to have raised agricultural commodity prices in recent years due to increased competition for agricultural land.

Our farmers cannot pass on the exact costs of the ETS on to consumers as they face international prices for their produce. However, even if farmers overseas are not facing similar carbon charges, they may be facing other policies which cause international commodity prices to rise, which can help compensate New Zealand farmers for costs under the ETS. The food security issue from higher prices for goods like meat and milk is something for another post.

Uncertainties around commodity prices, carbon prices and entry date into the ETS mean the New Zealand agricultural sector faces large uncertainties as to the future costs they will face under the ETS.

As recommended by the ETS Review Panel last year, the Government would like to move to a farm level for reporting on emissions, which would ultimately mean farmers would have to pay directly for their emissions.

The ETS deliberately sets the point of obligation for participants as high up the supply chain as possible. This is so that, for example, petrol and energy companies do the trading of emission permits, and pass price signal on to consumers, rather than having over 4 million New Zealanders all accounting for their own emissions.

Agricultural emissions are a bit different. Under the current processor-level system, processors are charged on the basis of the national average emissions for every unit of output they produce. This means there are not tens of thousands of farmers in the ETS. Emissions are lowered through processors and farmers (who ultimately may bear the costs) convincing other farmers to mitigate, to lower the national average level of agricultural emissions per unit of output.

Using a farm level ETS, farmers could be directly rewarded for action they take themselves on their own unique farm. By measuring each farm’s emissions, mitigation actions don’t get lost in the surveys done to create national average emission data and the incentives are much stronger for individual farmers to take action to lower GHGs on their farm.

A farm level ETS would require farmers to run a computer programme like OVERSEER, which takes a detailed snapshot of their farm, and models their GHG emissions. OVERSEER is not perfectly accurate, but it is impossible to measure each animal’s emissions directly so it’s a good second best option and is constantly being updated and improved.

There are a number of administrative issues to be worked out before a farm level scheme is viable. It looks to be worthwhile though given it allows farmers much more scope for reducing their emissions and directly rewards them for good behaviour.

Finally, the government notes that it is currently investing over $18 million per annum into research to reduce New Zealand’s agricultural GHGs.

It is true that we are relatively one of the most efficient producers of meat and milk products in the world. New Zealand’s emissions per unit of agricultural output have been reducing at a rate of about 1.3% per year over the last couple of decades. This means a reduction in the amount of emissions per litre of milk, not necessarily an overall reduction, as our overall production has also increased. These reductions in emissions per unit of output have been due to productivity gains – getting more milk per cow for example – and not due to specifically trying to reduce our GHGs (see 2011 ETS review).

So would putting a price on agricultural emissions encourage and facilitate New Zealand farmers to continue to be the best in the world? Is this important for our clean, green brand and to help other countries lower their agricultural emissions? Will putting farmers into the ETS drive their production down, forcing production overseas to places where they are less efficient and do not have to pay for their emissions (so called “leakage”. This issue is briefly addressed in this blog post and this Motu article)? Are there other ways of encouraging our farmers to be greener?

These questions are at the heart of the debate on if/when New Zealand should bring its farmers into the ETS, and no doubt the debate will continue in the years ahead.

Watch this blog for future posts on some solid suggestions from Motu’s Agricultural Emissions Dialogue group as to how we can start dealing with our agricultural emissions. They look outside the ETS as to how we can bring about behaviour change amongst farmers. It is important to remember that reducing our emissions is what we really want, and a lot needs to happen alongside an ETS to achieve this. We don’t want to get bogged down in a heated debate about the current ETS, and lose sight of the big picture.

Further listening/viewing:

Click this link for a good debate between Cath Wallace and William Rolleston on National Radio

There is a good discussion here of mitigation options for agriculture, by Harry Clark

Here is Tim Groser, Climate Change Minister, on The Nation