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Climate change will probably have the greatest impact on agriculture here through changes in climate variability and climate extremes

Rural News
Climate change will probably have the greatest impact on agriculture here through changes in climate variability and climate extremes

New Zealand farmers and growers are increasingly required to manage risk associated with climate events, and this will continue into the future with the possibility of increased risk in some regions.

Petra Pierce from NIWA says eastern regions could experience more frequent, and potentially more severe droughts through a combination of higher average temperatures, reduced average rainfall, and greater variability of rainfall.

Western regions, and possibly some eastern regions, could be more prone to flooding and erosion from high rainfall events.

Pasture production will generally increase an extended growing season. There may be a reduction in feed quality in pastures as far south as Waikato, with an increased incidence of subtropical species.

Feed quality may also decrease further in dry eastern regions, with more frequent drought leading to changes in pasture composition. Arable crops may generally benefit from warmer conditions. However, potential yield increases will require higher fertiliser inputs.

Availability of water for irrigation will be an important factor to achieve the potential gains, particularly in Canterbury, where there will be increased drought risk.

 

Hayward kiwifruit may become uneconomic in the Bay of Plenty in the next 50 years under mid to high climate warming scenarios, although the current industry expectation is that this variety will continue to be its mainstay. Apple production is unlikely to be adversely affected, although there could be greater risk of heat damage in future and availability of water for irrigation may be an increasingly critical issue.

There are a number of unknowns both with regard to basic climate changes and their impact on agriculture. While the existence of a human influence on climate, and projections of a trend towards higher future temperatures and a shift in rainfall patterns is considered reasonably robust, projections of absolute changes in particular regions are still highly uncertain and are usually considered as a set of scenarios. Within the agriculture sector, uncertainties about the impacts of those changing scenarios particularly relate to changes in pest and disease profiles in different regions, changes in soil fertility, and changes in water availability.

Technology and improved genetics will play a part in the Agri sector'ss role in mitigating climate change, as I have talked about over the past few weeks, farmers have come a long way in their practices and the environmental improvements are there.

The Agri sector is vital to New Zealand’s economy and the demand for food across the globe is only going to increase, so it is important that any methodology that results in lower emissions also maintains or increases productivity.

Through improved genetics there are variations among animals in methane emissions per unit of feed intake and these variations suggest that there may be heritable differences in methane production. Trials suggest that animal breeding could achieve a 10–20% reduction in methane emissions.

While breeding for reduced methane emissions may not be compatible with other breeding objectives, breeding for improved feed conversion efficiency or lower net feed intake should be compatible and is likely to reduce methane emissions and the greenhouse gas intensity of animal products.

A range of dietary supplements and feed alternatives is being trialled to assess whether they can reduce methane emissions from livestock. Supplements being considered include oils, fats, tannins, probiotics, nitrates, enzymes, marine algae and Australian native vegetation.

Methane abatements of 10–25% are possible by feeding ruminants dietary oils, with 37–52% abatement achieved in individual studies in Australia. Plant secondary compounds, such as condensed tannins, have been shown to reduce methane production by 13–16%, mainly through a direct toxic effect on methanogens. However, high condensed tanins concentrations can reduce voluntary feed intake and digestibility.

Improved forage quality and pastures with lower fibre and higher soluble carbohydrates can reduce methane production in livestock. Being structural fibres, cellulose and hemi-celluloses ferment more slowly than non-structural carbohydrates and yield more methane per unit of feed digested.

Methane emissions are commonly lower with more forage legumes in the diet, partly because of the lower fibre content and a faster rate of digestion and in some cases, the presence of condensed tannins. As improved diet increases animal growth and reduces methane production, it has the effect of reducing the greenhouse gas intensity of the animal products.

Pasture quality can be improved in several ways including by plant breeding that use different pathways to capture carbon dioxide, or grazing on less mature pastures. Again, in Australia, several alternative plant forages, such as broccoli leaves and some native plants, have been shown to reduce methane emissions. Improvements will also be made through improved machinery emissions and a reduction in machinery hours needed as farming systems continue to improve and become more efficient.

While there are many challenges in front of farmers, these challenges will almost certainly be met. We are entering an interesting time, the planet needs to be fed and the farming industry will continue to meet those demands whilst supporting our environment.

To get the full story listen to or download the podcast above.


Angus Kebbell is the Producer at Tailwind Media. You can contact him here.

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9 Comments

But just how many of NZ's farmers are really getting to grips with this issue? Far too many it would seem, don't know enough about the very soils on which they depend. They still want to pour too much fertiliser on the land, rather than making the effort to make the soils more productive and resilient.
What you call it doesn't matter; regenerative or just more intelligent farming, but the country needs to move faster in that direction. Of course there are(fortunately) lots of exceptions and the numbers are increasing, but there remains a large body of older, deeply conservative farmers-socially and politically. How many still think it's ok to buy PKE?

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What empirical evidence do you have or are your comments based on feelings?

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I think you need to either talk to a farmer or read up on the subject, Fert is a big expense and is not thrown on willynilly or to excess. Virtually all production farms now operate under Farm Environment Plans which govern and advise on the required fert inputs.
PKE is a waste byproduct of the palm oil industry that was usually used for either compost or boiler fuel before NZ started buying it. Whilst it has some issues, it is a useful relatively cheap source of protein and carbs.
Would you care to elaborate on your comment about older, deeply conservative farmers??

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Here is what passes for as the Climate model for Canterbury, goes to 2090/2100.

https://ecan.govt.nz/your-region/your-environment/climate-change/climat…

Look at the model its a combination of 6 models (34 other mains models were ignored because of cost, and they didn't match the weather as NZ scientists understood it.)

Published in 2020, NIWA's report (below) looks at how aspects of our climate such as temperature, precipitation (rain, snow, drought potential), wind and sea levels might change between now and 2100. It is based on global climate model simulations from the Intergovernmental Panel on Climate Change (IPCC) Fifth Assessment, scaled down for New Zealand, with a focus on Canterbury.

This is a technical report (not for the faint-hearted!) but it is the most detailed information we have. Each chapter has a helpful summary, and key projections are set out below.

View NIWA report: Climate change projections for the Canterbury Region (PDF File, 16.5MB)

Look past the Ecan comments of the consolidated simulation modelling being too complex for the lay reader. The web page model summary is not a balanced review/interpretation of the model document.

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Interesting about the tannins. Anyone that's been downwind of a goat or cow thats been fed cider vinegar or flax etc , can attest to the diets effect on the gas output. Will humans be next with beans and prunes etc ?

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Not to be seen as a climate change denier, but can anyone point to a recent event in NZ that has had a severe adverse economic effect that can be wholly and solely attributed to climate change? East coast and Northland droughts need not apply, as they have been experienced previously. The climate is quite likely changing, but "climate change" has become the go-to metaphor for any and every irregularity in weather patterns. But the hype around the issue is largely based on projections of cataclysmic events which may or may not occur in the distant future if current observable trends continue unabated, which itself is a moot point.

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Not to be seen as a climate change denier, but can anyone point to a recent event in NZ that has had a severe adverse economic effect that can be wholly and solely attributed to climate change? East coast and Northland droughts need not apply, as they have been experienced previously. The climate is quite likely changing, but "climate change" has become the go-to metaphor for any and every irregularity in weather patterns. But the hype around the issue is largely based on projections of cataclysmic events which may or may not occur in the distant future if current observable trends continue unabated, which itself is a moot point.

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Not to be seen as a climate change denier, but can anyone point to a recent event in NZ that has had a severe adverse economic effect that can be wholly and solely attributed to climate change? East coast and Northland droughts need not apply, as they have been experienced previously. The climate is quite likely changing, but "climate change" has become the go-to metaphor for any and every irregularity in weather patterns. But the hype around the issue is largely based on projections of cataclysmic events which may or may not occur in the distant future if current observable trends continue unabated, which itself is a moot point.

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Not to be seen as a climate change denier, but can anyone point to a recent event in NZ that has had a severe adverse economic effect that can be wholly and solely attributed to climate change? East coast and Northland droughts need not apply, as they have been experienced previously. The climate is quite likely changing, but "climate change" has become the go-to metaphor for any and every irregularity in weather patterns. But the hype around the issue is largely based on projections of cataclysmic events which may or may not occur in the distant future if current observable trends continue unabated, which itself is a moot point.

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