can organic farming save the world? pete smith royal society-wolfson professor of soils & global...
TRANSCRIPT
Can organic farming save the world?
Pete Smith
Royal Society-Wolfson Professor of Soils & Global ChangeInstitute of Biological & Environmental Sciences,School of Biological Sciences, University of Aberdeen, Scotland, UKE-mail: [email protected]
Transition: Food and Farming in 21st Century Britain, Soil Association National Conference, Bristol, 18-19th November 2008
The big challenges for organic farming
• Can organic farming maintain productivity to feed 9 Billion people, without spreading onto more land?
• Is organic farming compatible with reduced livestock numbers / consumption?
• Can organic residues provide enough reactive N to fertilise crops sufficiently to feed 9 Billion people?
The role of organic agriculture – potential positives
• Most practices improve soil C sequestration
• Reduce need for mineral N fertiliser (but not eradicate it?)
• Reduce fossil fuel cost of manufacturing mineral N fertiliser
• Keep nutrient cycles tightly coupled
• Improve soils fertility, biodiversity etc.
The role of organic agriculture – potential negatives
• Some practices less compatible with those that improve soil C sequestration – some increase GHG emissions
• Unless productivity can be maintained, more land could be required for agriculture – sometimes called displacement / “leakage” – disastrous for soils and climate
• Can we reduce animal numbers under organic farming?• Applying manure in organic systems – this would be
applied elsewhere anyway (in non-organic systems) – so is this genuine C sequestration?
• Can we maintain productivity increases without mineral N? To do so, do we need better cultivars with improved N use efficiency? If so, do we need GM?
The role of organic agriculture – potential negatives
• Some practices less compatible with those that improve soil C sequestration – some increase GHG emissions
• Unless productivity can be maintained, more land could be required for agriculture – sometimes called displacement / “leakage” – disastrous for soils and climate
• Can we reduce animal numbers under organic farming?• Applying manure in organic systems – this would be
applied elsewhere anyway (in non-organic systems) – so is this genuine C sequestration?
• Can we maintain productivity increases without mineral N? To do so, do we need better cultivars with improved N use efficiency? If so, do we need GM?
Practices used in organic systems that can increase GHG emissions. e.g.
• Manure may give higher N2O emissions than mineral fertiliser when applied and when in storage
• Increased energy input from mechanical weeding compared to herbicides (even after accounting for the energy input in herbicide manufacture)
• Increased tillage (for mechanical weeding) may reduce soil C relative to zero tillage (difficult in organic farming)
The role of organic agriculture – potential negatives
• Some practices less compatible with those that improve soil C sequestration – some increase GHG emissions
• Unless productivity can be maintained, more land could be required for agriculture – sometimes called displacement / “leakage” – disastrous for soils and climate
• Can we reduce animal numbers under organic farming?• Applying manure in organic systems – this would be
applied elsewhere anyway (in non-organic systems) – so is this genuine C sequestration?
• Can we maintain productivity increases without mineral N? To do so, do we need better cultivars with improved N use efficiency? If so, do we need GM?
Agricultural GHG emissionsGlobal contribution of Agriculture to Greenhouse
gas emissions
10 -12 %
0.6-1.2 %
6-17 %
17-30 %
0
5
10
15
20
25
30
35
Direct methaneand nitrous oxide
emissions
Fertilisersproduction and
distribution
Land conversionto agriculture
Total
Pg
CO
2-eq
yr
-1
Series1
of global GHG emissions %
Pg CO 2-eq yr-1
% of global GHG emissions
Land use change ?
Deforestation
yield, t/ha
N applied, kg/ha0
land required, ha/tonne
Slide from Pete Berry (ADAS)
Effects of land use change Ecosystem type IPCC (t CO2/ha) Searchinger et al.
(2008) (t CO2/ha)
Tropical Forest 553-824 604-824
Temperate forest
297-627 688-770
Tropical grassland and savannah
189-214 75-305
Temperate grasslands
139-242 111-200
Wetlands 748 1146Figures are calculated over a 30 year period
Slide from Pete Berry (ADAS)
The role of organic agriculture – potential negatives
• Some practices less compatible with those that improve soil C sequestration – some increase GHG emissions
• Unless productivity can be maintained, more land could be required for agriculture – sometimes called displacement / “leakage” – disastrous for soils and climate
• Can we reduce animal numbers under organic farming?• Applying manure in organic systems – this would be
applied elsewhere anyway (in non-organic systems) – so is this genuine C sequestration?
• Can we maintain productivity increases without mineral N? To do so, do we need better cultivars with improved N use efficiency? If so, do we need GM?
Livestock
• Accounts for 9 percent of CO2
• Generates 65 percent of human-related nitrous oxide (mostly from manure).
• Accounts for respectively 37 percent of all human-induced methane (and 64 percent of ammonia, which contributes significantly to acid rain).
• Primary consumption of crops (by humans) is more efficient than feeding to livestock and then consuming the livestock / products
FAO (2006)
Agricultural GHG emissions
CH4 and N2O emissions by world region, 1990-2020
• Agriculture - 5.1 to 6.1 GtCO2-eq/yr in 2005 (10-12% of total global anthropogenic emissions of GHGs). • CH4 contributes 3.3 GtCO2-eq/yr and N2O 2.8 GtCO2-eq/yr. • Of global anthropogenic emissions in 2005, agriculture accounts for about 60% of N2O and about 50% of CH4. Smith et al. (2007)
The role of organic agriculture – potential negatives
• Some practices less compatible with those that improve soil C sequestration – some increase GHG emissions
• Unless productivity can be maintained, more land could be required for agriculture – sometimes called displacement / “leakage” – disastrous for soils and climate
• Can we reduce animal numbers under organic farming?• Applying manure in organic systems – this would be
applied elsewhere anyway (in non-organic systems) – so is this genuine C sequestration?
• Can we maintain productivity increases without mineral N? To do so, do we need better cultivars with improved N use efficiency? If so, do we need GM?
Are we actually sequestering carbon or just moving it about?
Organic farm Conventional farm
Manure Manure Mineral N
More manure here….but……..less manure here
Effect over the whole cropland area = zero
The role of organic agriculture – potential negatives
• Some practices less compatible with those that improve soil C sequestration – some increase GHG emissions
• Unless productivity can be maintained, more land could be required for agriculture – sometimes called displacement / “leakage” – disastrous for soils and climate
• Can we reduce animal numbers under organic farming?• Applying manure in organic systems – this would be
applied elsewhere anyway (in non-organic systems) – so is this genuine C sequestration?
• Can we maintain productivity increases without mineral N? To do so, do we need better cultivars with improved N use efficiency? If so, do we need GM?
Year
1920 1940 1960 1980 2000 2020 2040
Popula
tion (bill
ion)
0
2
4
6
8
Gra
in p
roduct
ion (M
t)
0
500
1000
1500
2000
Recorded and projectedpopulation (o) and grain production ()
(adapted from Dyson, 1996)
Slide from Peter Gregory, SCRI
World cereal yield and area harvested per capita (extended from Dyson, 1996)
Year
1960 1970 1980 1990 2000 2010
Ave
rag
e c
erea
l yie
ld (
t ha-1
)
1.0
1.5
2.0
2.5
3.0
3.5
Are
a (h
a)
per
capi
ta
0.10
0.12
0.14
0.16
0.18
0.20
0.22
Slide from Peter Gregory, SCRI
Erisman et al. (2008)
Can we replace mineral N altogether?
Erisman et al. (2008)
Can we replace mineral N altogether?
Personal perspectives• I grow my own fruit and veg. organically• I usually buy organic produce but…
– …I also want to buy fair trade food– …I try to buy from my local farm shop – they are not organic farmers
but are part of the small rural community where I live – I want to support them
• I am vegetarian – much more efficient and less GHG per unit product. Consuming much less meat would be environmentally beneficial – reduces the organic manures available for organic farming
• There are multiple drivers (economic, cultural, societal, scientific, ideological) that determine our choices in the developed world - farmers / consumers in developing countries have very little choice
• I would hate to see us simply export our emissions• In my opinion, organic agriculture might be part of the solution, but is
not the solution
Thank you for your attention