Cattle and swine manure methane emissions

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Domestic livestock methodology, manure management and storage. Calculates methane emissions (CH4 and CO2e) based on livestock population. Scenarios include cattle, buffalo and swine. Globally applicable.

Summary

This methodology represents methane (CH4) emissions associated with the management and storage of buffalo, cattle and swine manure. The data and calculation methodology is sourced from the IPCC, as published in Volume 4, Chapter 10 - Emissions from Livestock and Manure Management of their 2006 IPCC Guidelines for National Greenhouse Gas Inventories.


The methodology

Emissions model

The decomposition of manure under anaerobic conditions (i.e., in the absence of oxygen), during storage and treatment, produces CH4. These conditions occur most readily when large numbers of animals are managed in a confined area (e.g., dairy farms, beef feedlots, and swine and poultry farms), and where manure is disposed of in liquid-based systems.

This emissions methodology is based upon emissions factors which describe the typical rate at which manure-associated CH4 is produced by single 'heads' of livestock (i.e. individual animals) and are expressed on an annual basis. These data are based on typical volatile solid excretion rates and maximum methane production capacities for each specific livestock type as well as manure => methane conversion factors weighted according to the manure management type mix specific to each region and indicative annual temperature.

Annual emission rates for a population or sub-population of livestock (e.g. kg / year) are calculated by multiplying the per animal emissions rates by the total number of livestock under consideration.

This methodology represents the IPCC Tier 1 approach.

Model data

The rate at which CH4 is emitted ultimately depends on the quantity of manure decomposing anaerobically, which, in turn, depends on the number of animals, the rate of waste production per animal, and how the manure is managed. When manure is stored or treated as a liquid (e.g., in lagoons, ponds, tanks, or pits), it decomposes anaerobically and can produce a significant quantity of CH4. In these cases, the temperature and duration of storage greatly affect the amount of CH4 produced. Where manure is handled as a solid (e.g., in stacks or piles) or deposited on pastures and rangelands, it tends to decompose under more aerobic conditions and less CH4 is produced (biogenic CO2 is produced instead). The typical mix of management practices employed varies with geographic location and/or developmental context.

As such, emissions factors for a broad range of scenarios are provided within this methodology. A total of 703 specific scenarios are represented, differentiated by livestock type (e.g., buffalo, dairy cattle, market swine), geographic region (e.g., North America, Middle East) and annual average temperature (10-28 °C).

Each scenario is represented by an annual manure-associated methane emissions rate per individual animal (kg / yr). In addition, the methodology uses the global warming potential of CH4 to convert absolute emissions quantities into CO2e - the quantity of CO2 which would exert the same atmospheric warming effect.

Activity data required

Methane emissions are directly proportionate to the total population of livestock kept. The total number of livestock under consideration must therefore be specified in order to make an emissions calculation.

Calculation and results

This emissions calculated by this methodology represent those attributable to the specified population of livestock over a period of 1 year.

The methodology calculates two emissions quantities: (1) the absolute quantity of methane associated with the livestock population; and (2) methane emissions expressed in terms of CO2e.


Additional information

Nomenclature

Following IPCC advice, the term manure is used collectively to include both dung and urine (i.e., the solids and the liquids) produced by livestock.


Related methodologies

Analogous methodologies are also available focussing on poultry and other livestock CH4 emissions associated with manure management.

UIDLabel
XMB4HQ4NX65X Breeding swine, Eastern Europe, 10
0W3JBPH31KVM Breeding swine, Eastern Europe, 11
KZUH7B4LMC8C Breeding swine, Eastern Europe, 12
AO278VCPSD8T Breeding swine, Eastern Europe, 13
ZXE59LU7Y4G7 Breeding swine, Eastern Europe, 14
F8MYK02S3FY0 Breeding swine, Eastern Europe, 15
6OALK6NO1MPC Breeding swine, Eastern Europe, 16
6Z3RP5N26ZSK Breeding swine, Eastern Europe, 17
Q4MTJSK7LL67 Breeding swine, Eastern Europe, 18
HLKNT9WXNJLJ Breeding swine, Eastern Europe, 19
9A63LDNUPVZX Breeding swine, Eastern Europe, 20
3PU6JOAGQ4E2 Breeding swine, Eastern Europe, 21
PCM8YFP33D9C Breeding swine, Eastern Europe, 22
3GPEED5MK59F Breeding swine, Eastern Europe, 23
VCBVRXANU7O7 Breeding swine, Eastern Europe, 24
NQ2F82IQFFJP Breeding swine, Eastern Europe, 25
8QBDM45EVGZG Breeding swine, Eastern Europe, 26
HR6JE3OC7M62 Breeding swine, Eastern Europe, 27
DBQSFPB60D2N Breeding swine, Eastern Europe, 28
LW4F3DA8XXLT Breeding swine, North America, 10
Total number of livestock (head count) under consideration