According ICCT published article written by Stephanie Searle, few environmental topics are as confusing as biofuels. We all understand that things like recycling, solar panels, and efficient cars are good for the environment. But biofuels? Over ten years ago the media, the UN, and environmental organizations were telling us that biofuels combat climate change while helping the poor – and now we’re hearing that biofuels are as dirty as petroleum and raise food prices.
How did the story change so much, and what are we supposed to think about things like “advanced biofuels” and “biofuels made from wastes?”
Indirect Effects Complicate?
Biofuels are confusing because they’re complicated, and they’re complicated mainly because of indirect effects. It’s similar to the unintended consequences of hydropower stopping salmon from spawning upstream, or windmills killing birds … except way more complicated. Biofuels almost always affect how land is used around the world.
The basic theory is that any carbon combusted into the atmosphere from biofuels was first sequestered by plant growth, so there’s no net change in atmospheric carbon. But that only makes sense if someone is growing plants in an abandoned parking lot.
The Problem Areas
It takes a lot of land to grow biofuel feedstock, and that land is either
(a) newly converted from forest or grassland, or
(b) already used to grow crops for food.
In scenario (a), direct land use change by cutting down forest or digging up grassland releases a lot of CO2 from biomass and soil, and harms wildlife.
In scenario (b), diverting food to biofuel drives up the price of food and leads to indirect land change by someone cutting down forest or digging up grassland to plant more food somewhere else in the world.
Emissions Are There
In energy generation, as in everything else, it’s hard to get something for free.
So however you slice it, land-based biofuels cause land use change emissions and, when you add emissions from transporting and processing the feedstock and fuel, the total lifecycle emissions from these biofuels in most cases start to look a lot more like the level of emissions generated by burning petroleum.
- For example, EPA estimates that, including land use change emissions, corn ethanol only offers a 21% greenhouse gas (GHG) reduction compared to gasoline.
- It’s worse for biofuel made from vegetable oils like soy or canola, because increasing the prices of these oils leads food and soap manufacturers to switch over to palm oil, which drives very high emissions from tropical deforestation.
- On the other hand, energy crops like switchgrass or short rotation poplar are associated with low indirect land use change because they are not valuable enough to compete heavily with food crops on agricultural land and because they actually increase soil carbon where they are grown.
Sustainability the Key
What about biofuels made from feedstocks that don’t use land, like wastes? Well, it matters what kind of “waste” we’re talking about. Agricultural and forestry residues like corn stover, wheat straw, and twigs and leaves do offer high GHG savings, but only if they’re harvested sustainably, leaving some material on the ground to prevent erosion and soil carbon loss.
When it comes to other wastes, very few things are actually thrown away on a large scale. Used cooking oil is a good example – it sounds like something you throw away, but in the U.S. most used cooking oil that’s collected is fed to livestock. In the EU used cooking oil is discarded if it’s not used for biofuel due to mad cow disease concerns. If American used cooking oil is made into biofuel, we must find something else to feed our cows, which means more corn or soy oil, and therefore more land use change. Here we go again!
More biofuel, more driving?
Things are about to get even more complicated. The more biofuels we produce, the more we increase the global fuel supply, which lowers gasoline and diesel prices and leads to people driving more. It’s the dreaded rebound effect, referred to in academic literature as indirect fuel use change. What this means is that the GHG benefits of a biofuel that’s only slightly cleaner than petroleum are wiped out by increased use of gasoline and diesel.
When indirect fuel use change is taken into account, only biofuels that offer high carbon savings, such as cellulosic biofuels from corn stover or switchgrass, really have any climate benefit at all.
Biofuel Principles To Follow
So where do we stand on biofuels? It’s still complicated, but to help us keep things straight, here are some principles we follow at ICCT:
- It’s not the fuel, it’s the feedstock. Ethanol, biodiesel, renewable diesel, biogas, biojet – it doesn’t matter (or at least, it doesn’t matter very much). What kind of plant or animal the biofuel is made is really what determines how environmentally friendly it is.
- Food-based biofuels aren’t helping very much. These biofuels offer at best modest GHG reductions compared to gasoline and diesel. At worst, they pollute even more than petroleum.
- “Wastes” are better than food, but limited. Tallow, poultry fat, and used cooking oil probably offer better GHG savings than most types of food-based biofuels, but can cause emissions from displacing other uses. The production of these materials is limited, and their supply won’t grow in response to higher biofuel demand, so we can’t count on much.
- Agricultural and forestry residues offer GHG savings if harvested sustainably by leaving enough material on the ground to prevent erosion and soil loss.
- The biggest opportunity could be from energy crops. Evidence suggests that cellulosic biofuel from energy crops has much lower land use change emissions than food-based biofuels.
- Use the term “advanced biofuels” with caution. Depending on who you ask, this could mean “cellulosic,” “waste-based,” or even “renewable diesel made from palm oil.” “Advanced” does not necessarily mean low carbon, so be specific.
- Don’t forget about low carbon fuels that aren’t “bio.” Renewable power-to-liquids aren’t biological but can help achieve our climate goals. And hey, let’s not forget about low carbon electricity used in electric cars and buses.
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Source: ICCT
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