THE VIRTUAL CIRCLE OF PLOUGHING – HUMUS AND CO2 STORAGE

Scientific studies reveal the close connection between humus & CO2 emissions and benefits from ploughing.

THE VIRTUAL CIRCLE OF PLOUGHING – HUMUS AND CO2 STORAGE

Land use and soil management impact CO2 emissions and hence the global warming phenomenon. The humus content in soils plays an important role in storing carbon. Ploughing, as a crop establishment technique, helps create humus and hence reduces CO2 emissions and N20 emissions, 300 times more harmful than CO2.

Unlike all other economic sectors, agriculture and forestry can store carbon and thus act as a natural greenhouse gas sink.

Soil management contributes to climate protection

Soils can store carbon and thus serve as a carbon sink. Likewise, soil carbon can be released by means of CO2 emissions and nitrogen by means of nitrous oxide  (N20) which increase the greenhouse gas emissions.
This is why it is important to consider land usage and soil management, in order to somehow control the global warming potential. 

The following chapters define CO2, N20 and humus, explain their interactions, and reveal the results of scientific studies comparing crop establishment technics in regards to low CO2 - N20 emissions.

CO2 and plant growth

Carbon starts in the air as the C in CO2. Through photosynthesis, plants take the carbon from CO2, combine it with hydrogen from water in the soil (H20) and, using energy from the sun, make sugar (CH20). Finally, a plant’s metabolism takes that sugar and makes complex molecules recognised as a plant, later referred as “organic material”.

CO2 and  plants

Unequalled CO2 soil storage capacity

Soils used for agriculture are by far the largest terrestrial storage of organic carbon. Saying that, the storage capacity varies a lot from region to region depending on the soil types. Peatland soils, for example, can store far more organic carbon than mineral soils.

2021-11-19 17_39_38-KV brochure SOIL_GB_LR.pdf and 3 more pages - Work - Microsoft​ Edge
2021-11-19 17_39_01-KV brochure SOIL_GB_LR.pdf and 3 more pages - Work - Microsoft​ Edge

Humus: a key factor to soil fertility

Humus is found in the top soil layer. The commonly agreed, ideal, healthy soil composition is as described below:

Diagramm Soil 3D_3-1 (1)

Humus consists of plant residues (organic material) transformed by soil animals and micro organisms into organic matter. It provides nutrients for plants, absorbs water like a sponge and holds the soil together.
Humus has a positive effect on yield potential and yield security of soils. High humus content can increase water storage capacity and thus water availability. In addition, the humus rich soils warm up quickly in spring due to their dark color, which promotes plant growth. 

Humus –  CO2 and climate protection

Representing almost 60% of the humus, carbon is the most important element of soil organic matter.

The proportion of humus content in the soil results from a complex interplay between:

  • the amount and composition of the entry of organic materials into the soil.
  • the conversion, decomposition and stabilisation of organic materials in the soil.
2021-11-19 17_34_26-Extract from WIP Humus - Carbon - CO2 [Read-Only] - PowerPoint

© Agroscope (Gabriela Brändle, Urs Zihlmann), LANAT (Andreas Chervet)

Humus bears a high responsibility on the climate: if the supply of organic carbon in the soil decreases, carbon dioxide (CO2) is released. If the supply increases, CO2 is fixed by being sequestrated in the soil. Long term stable humus (Kg/Ha) is particularly important for climate protection.

Humus and Ploughing

The soil humus content needs to be preserved. When evaluating the impact on the humus content of different crop establishment systems, the results are clear: non tillage and reduced tillage techniques do not have any positive effect on humus establishment.

In more than 100 field studies conducted in Germany, analysing the entire soil profile, the Thünen Institute concluded: crop establishment systems without tillage result in a far lower storage of carbon per ha and year. In many studies, there was even a loss of humus.
Source: Thünen Report Nr. 64, November 2018, page 194ff

An explanation is given by Dr. Axel Don, Thünen Institute: “Humus derives from root and crop residues as well as from organic fertilisers such as manure and slurry. It enters the soil mainly from top. Without the reversal tillage with a plough, the newly formed humus remains close to the surface and is not mixed into the topsoil evenly. And there is an additional negative effect: without loosening the soil, there is a likelihood for increased microbial nitrate decomposition and higher nitrous oxide emissions (N20) . This gas is 300 times more harmful to the climate than CO2.”

Similar results and conclusions are also showed in a pan European study called “Catch C Project”

Ploughing is environmentally friendly

Why ploughing with Kverneland ?

Ploughing is referred to scientifically as an efficient crop establishment technique which helps create humus, sequestrate CO2 and prevent N20 harmful gas release to the atmosphere. Ploughing must be accomplished in the best manner. Kverneland bodies make it happen. They are designed to suit any soil conditions and are renowned worldwide for their high performance. Ploughing with Kverneland is a  step towards high yields and revenues: efficient, non-chemical method for seedbed preparation, it controls weeds, slugs and pest. It repairs damaged fields and creates the optimal conditions for plant growth. Ploughing creates the ideal balance of air-water-minerals content and humus.

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