Livestock manure and related statistics

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Transcription:

Livestock manure and related statistics 30 November 2015, Kigali, Rwanda International Workshop on Statistics on nitrogen input from livestock manure: Estimating availability and use

Outline The challenge of making agriculture more productive and sustainable Soil degradation Causes of soil degradation in Africa Manure and soil degradation Statistics on livestock manure: uses and trends at global, regional and sub regional scale Conclusions

Making agriculture more productive and sustainable ~800 M people undernourished World population continues to grow Ecosystems and biodiversity are increasingly stressed Climate change Challenge Increase food production in a sustainable way in the areas where it is most needed

Example: Need to reverse soil degradation About 30% of the world soils are moderately to high degraded About 40% of these soils are located in Africa

Kg of N / ha / year Causes of soil degradation in Africa (i) 70 Nutrient depletion rate in SSA 60 50 40 30 20 10 0 1961 1966 1971 1976 1981 1986 1991 1996 2001 2006 2011 Africa Americas Asia Very old and weathered soils The limited fertilizer inputs application have not been able to replace the nutrients export in yields (Soil nutrient mining)

Causes of soil degradation in Africa (ii) Increased demographic pressure limits the possibility to leave the land fallow which used to restore soil fertility As a response soil fertility declines Poverty trap: low yield, low income, low inputs Relationship between soil degradation and poverty

Manure can have a primary role in supporting crop production in Africa, reversing soil degradation Soils in a severe degradation state are not responsive to nutrient inputs as plants are no longer able to capture the nutrients In these soils large applications of manure can restore soil health and the responsiveness of the soils Similarly, in more responsive soil the addition of manure can maintain soil health (integrated nutrient management)

The three dimensions of soil health Physical Soil Health - Aggregation - Structure - Porosity - Water/Gas - movement SOIL HEALTH Chemical Soil Health - ph - CEC - Nutrient availability Biological Soil Health - Macrofauna - Mesofauna - Microfauna - Biological activity Soil heath consists of chemical, physical and biological soil health with the three dimensions being equally important

Manure and soil health Chemical Soil Health Physical soil health Biological soil health Macronutrients and Micronutrients C input to soils SOM input to soils which improves cation exchange capacity, ph buffering Favors nutrient cycling with the farm The increased SOM favors soil aggregation Reduced bulk density Stimulate biological activity thereby improving soil structure Increased biological activity and functional diversity Feed for the soil biota The increased SOM creates a suitable environment for the soil biological communities Unlike chemical fertilizers, manure has positive effects on the three aspects of soil health

Environmental impact of manure Nutrient and C losses occurs during manure storage and applications Ammonia volatilization, CH4, N2O, CO2 Net nutrient losses varies across different manure management systems, soil types, environmental conditions Run off Leaching

The importance of improving the statistics on manure Manure can have: A primary role in supporting crop production, especially in Africa Negative impacts on the environment Improved statistics on livestock manure are needed in order to: Compile comprehensive accountings of the total nutrients input applied to soils and pastures Assess current and potential environmental impact (e.g. GHG)

Improving analysis on livestock manure through better statistics MS (% of manure in each MMS) Nutrient excretion rate Number of animals Nutrient excreted Manure left on pasture Manure burned for fuel Nutrient input from manure left on pasture Nutrient in Manure burned for fuel Manure stored in MMS Nutrient input from manure applied to soils Nutrient losses coefficient per each MMS Nutrient losses during manure management Input data Livestock numbers Feed baskets Coefficients/parameters Nutrient excretion rates Use of manure Losses from manure management systems Outputs Nutrient loads on pastures and cropland

Better Data in support of Analysis: Manure production and uses in the world Million Tonnes of N Manure production has increased from 1961-2012 N input from synthetic fertilizers increased exponentially and became the first source of N worldwide in 1986 250 200 150 100 16% 60% 1961 24% 46% 1986 16% 38% 47% 2012 14% 39% Wide variations among regions 50-1961 1968 1975 1982 1989 1996 2003 2010 Manure applied to soils Manure left on pasture Synthetic Fertilizer Source: FAOSTAT 2015

Millions Tonnes of N Manure production and uses in Africa Manure production has increased steadily from 1961-2012 60 Africa 2012 More than 80% of the N input from manure is left on pasture 40 1961 4% 13% 1986 12% 4% While the contribution of the manure applied to soils is very limited (3-4%) 20 93% 4% 3% 83% 83% Chemical N input has gained importance but still represents only about 12% of the total N input applied High variability among sub regions - 1961 1968 1975 1982 1989 1996 2003 2010 Manure applied to soils Manure left on pasture Synthetic Fertilizers Source: FAOSTAT 2015

Millions tonnes of Nitrogen Manure production and uses in the African Sub regions 12 1961 1986 2012 10 8 6 4 2 0 Synthetic fertilizers Manure left on pasture Manure applied to soil Source: FAOSTAT 2015

Conclusions The challenge of eliminating hunger in the context of climate change, limited natural resources, ecosystem degradation and demographic pressure Many soils are degraded and manure can help in reversing soil degradation and maintaining soil health Manure management and applications can also results in negative environmental externalities Therefore improved statistics of manure are relevant both from an agronomic and environmental point of view Lasting trends indicated that: Globally synthetic fertilizers are the main source of N The African N input strongly relies on manure; with the manure left on pasture being the main source of Nitrogen in all the sub regions

Thank you for your attention Environment-Statistics@fao.org

Millions Tonnes of N Manure production and uses in Northern Africa Northern Africa Source: FAOSTAT 2015 NA is the sub region with the second highest N input 12 2012 3% 24% Greater contribution of synthetic fertilizers compared with other African sub regions 9 6 1961 14% 3% 1986 3% 28% 70% 73% Manure left on pasture accounted for about 73% of the total N input in 2012 3 84% Limited amount of manure is applied to soils 0 1961 1968 1975 1982 1989 1996 2003 2010 Manure Applied to soils Manure Left on pasture Synthetic fertilizers

Millions Tonnes of N Manure production and uses in Eastern Africa EA is the region with the highest N input 12 Eastern Africa 1986 Source: FAOSTAT 2015 7% 2012 3% Manure left on pasture is the main N source of N 9 1961 1% 3% 4% 3% 89% Limited amount of manure is applied to soils 6 96% 92% N input from synthetic fertilizers 14 times higher in 2012 than in 1961 However synthetic fertilizers only accounted by 7% of the total N input 3 0 1961 1968 1975 1982 1989 1996 2003 2010 Manure Applied to soils Manure Left on pasture Synthetic fertilizers

Manure production and application in Western Africa Millions Tonnes of N Source: FAOSTAT 2015 Fertilizers increased exponentially in the last 50 years (more than 100 times) Still, they only accounted for 8% of the total N input in 2012 12 9 6 1961 0% 3% 1986 6% 3% 2012 8% 3% 87% Manure left on pasture was the main source of N and accounted for about 87% in 2012 3 96% 90% Limited amount of manure is applied to soils 0 1961 1968 1975 1982 1989 1996 2003 2010 Manure Applied to soils Manure Left on pasture Synthetic fertilizers

Millions Tonnes of N Manure production and application in Middle Africa Source: FAOSTAT 2015 MA is the region with the lowest total N input 12 Middle Africa Steady increase of N input from 1961-2012 Manure applied to soils and synthetic fertilizers increased across the period considered 9 6 3 94% 1986 1961 1% 3% 3% 7% 90% 89% 2012 3% 7% Still, the manure left on pasture represents about 89% of the total N input in 2012 0 1961 1968 1975 1982 1989 1996 2003 2010 Manure Applied to soils Manure Left on pasture Synthetic fertilizers

Millions Tonnes of N Manure production and application in Southern Africa Source: FAOSTAT 2015 The total N input did not record remarkable variation in terms of total tonnage 12 Southern Africa Significant variation in terms of N source Manure left on pasture decreased from 93% to 73 in 1961 and 2012, respectively N input form the manure applied to soils represented only 3% of the total N input Synthetic fertilizers increased considerably reaching 23% of the total N input in 2012 9 6 3 1986 2012 1961 3% 3% 4% 3% 22% 23% 75% 73% 93% 0 1961 1968 1975 1982 1989 1996 2003 2010 Manure Applied to soils Manure Left on pasture Synthetic fertilizers

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