Ograniczenie emisji CO2 w
rolnictwie.
Reduction of CO2 emissions in agriculture.
Nowadays farmers have to protect the ecosystem.
He has to be a landscape engineer.
I represent a farm witch has 250 year tradition.
My ancestors started farming there in 1785.
Therefore we need to think ab...
Crop structure on our farm.
95 hectare

250 hectare

Corn

175 hectare

Canola
Wheat
It is hilly, undulating area with very good
loess soil.
There is a risk of water erosion.
Taken from: http://www.fao.org/docrep/006/y5146e/y5146e08.htm
Considering one hectare of land we should farm as
much as it is necessary and as little as it is possible.

This type of f...
Taken from: Anna Cudzik, Włodzimierz Białczyk, Jarosław Czarnecki, Marek Brennensthul, Adam
Kaus, ANALIZA WYBRANYCH WŁAŚCI...
0-20 cm
N,P + Ca

N,P,K

20-35 cm
N,P,K +
microelements
+
CaO + MgO

Plow pan

Air canal
This leads us to the conclusion that
new, innovative, ecologically friendly technologies
enable farmers to lead intensive ...
Fertilizers application in big depth partly reduces
drought, because roots in this type of farming are
longer and the surf...
We have decided to use strip tillage method for
rape, corn, soya and wheat (two stages of
cultivation).
Our farm has 520 hectares of land, our tractors have
870HP altogether, what gives 1,7 HP per hectare,
and that is enough t...
Rodzaj
uprawki,
wydajność ha/h

Rodzaj nakładu

Wysiew
nawozów na
ściernisko 12
ha/h

Praca ciągnika i
rozsiewacza
Zużycie...
Thank you for your attention.
Reduction of CO2 emissions in agriculture
Reduction of CO2 emissions in agriculture
Reduction of CO2 emissions in agriculture
Reduction of CO2 emissions in agriculture
Reduction of CO2 emissions in agriculture
Reduction of CO2 emissions in agriculture
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Reduction of CO2 emissions in agriculture

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This presentation shows how the reduction of CO2 emissions in agriculture and the landscape approach are strongly related to each other based on a personal example of a farm in Poland.

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Reduction of CO2 emissions in agriculture

  1. 1. Ograniczenie emisji CO2 w rolnictwie. Reduction of CO2 emissions in agriculture.
  2. 2. Nowadays farmers have to protect the ecosystem.
  3. 3. He has to be a landscape engineer.
  4. 4. I represent a farm witch has 250 year tradition. My ancestors started farming there in 1785. Therefore we need to think about future generations
  5. 5. Crop structure on our farm. 95 hectare 250 hectare Corn 175 hectare Canola Wheat
  6. 6. It is hilly, undulating area with very good loess soil.
  7. 7. There is a risk of water erosion.
  8. 8. Taken from: http://www.fao.org/docrep/006/y5146e/y5146e08.htm
  9. 9. Considering one hectare of land we should farm as much as it is necessary and as little as it is possible. This type of farming, protect soil from water erosion and acumulate water.
  10. 10. Taken from: Anna Cudzik, Włodzimierz Białczyk, Jarosław Czarnecki, Marek Brennensthul, Adam Kaus, ANALIZA WYBRANYCH WŁAŚCIWOŚCI GLEBY W RÓŻNYCH TECHNOLOGIACH UPRAWY, Inżynieria Rolnicza 4(129)/2011
  11. 11. 0-20 cm N,P + Ca N,P,K 20-35 cm N,P,K + microelements + CaO + MgO Plow pan Air canal
  12. 12. This leads us to the conclusion that new, innovative, ecologically friendly technologies enable farmers to lead intensive corn production and sustainable farming.
  13. 13. Fertilizers application in big depth partly reduces drought, because roots in this type of farming are longer and the surface drought doesn’t stop the plant from nutrients uptake.
  14. 14. We have decided to use strip tillage method for rape, corn, soya and wheat (two stages of cultivation).
  15. 15. Our farm has 520 hectares of land, our tractors have 870HP altogether, what gives 1,7 HP per hectare, and that is enough to farm 800 hectares of land.
  16. 16. Rodzaj uprawki, wydajność ha/h Rodzaj nakładu Wysiew nawozów na ściernisko 12 ha/h Praca ciągnika i rozsiewacza Zużycie paliwa Talerzowanie roli 5 ha/h Orka siewna 2,2 ha/h Siew zestawem uprawowo siewnym 4 ha/h Razem: Nakład bezpośredni na 1 ha Nakład energii ( MJ ) na 1 h pracy 1 ha 5 min 155,0 - 36,0 Robocizna 5 min 80,0 6,7 Praca ciągnika i talerzówki Zużycie paliwa Robocizna Praca ciągnika i pługa Zużycie paliwa Robocizna Praca ciągnika i agregatu uprawowo - siewnego 12 min 6 l/ha 12 min 27 min 18 l/ha 27 min 450,7 80,0 251,2 80,0 90,1 240,0 16,0 113,0 720,0 36,0 15 min 588,5 9 l/ha 15 min 80,0 360,0 20,0 Rodzaj nakładu Nakład bezpośredni na 1 ha Nakład energii (MJ ) na Razem nakłady energii MJ/ha 147,1 Zużycie paliwa Robocizna/labour Rodzaj uprawki, wydajność ha/h 12,9 0,9 l/ha Razem nakłady energii MJ/ha 1 h pracy 60 min 34 l/ha 346,1 869,0 ( Strip - Till ) gleby kombajnem uprawowo siewnym, wysiew nawozów N, P, K i mikroelementów, siew nasion Praca ciągnika i kombajnu uprawowo siewnego Zużycie paliwa/ fuel consumption 20 min 409,8 163,9 13 l/ha - 520,0 20 min Uprawa pasowa 55,6 1 ha 66,6 26,6 710,5 Robocizna/la bour 527,1 1797,8 N,P,K 0-20 cm N,P + Ca 20-35 cm N,P,K + microeleme nts + CaO + MgO Plow pan Air canal
  17. 17. Thank you for your attention.
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