• Source: Land equivalent ratio

      • The land equivalent ratio is a concept in agriculture that describes the relative land area required under sole cropping (monoculture) to produce the same yield as under intercropping (polyculture).


      Definition



      The FAO defines land equivalent ratio (LER) as: the ratio of the area under sole cropping to the area under intercropping needed to give equal amounts of yield at the same management level. It is the sum of the fractions of the intercropped yields divided by the sole-crop yields.
      For a scenario where a total of




      m



      {\displaystyle \textstyle m}

      crops are intercropped, the land equivalent ratio LER can be calculated as




      L
      E
      R
      =



      i
      =
      1


      m





      I

      Y

      i




      S

      Y

      i







      {\displaystyle LER=\sum _{i=1}^{m}{\frac {IY_{i}}{SY_{i}}}}


      where




      m



      {\displaystyle \textstyle m}

      is the number of different crops intercropped,




      I

      Y

      i





      {\displaystyle \textstyle IY_{i}}

      is the yield for the





      i

      t
      h





      {\displaystyle \textstyle i^{th}}

      crop under intercropping, and




      S

      Y

      i





      {\displaystyle \textstyle SY_{i}}

      is the yield for the





      i

      t
      h





      {\displaystyle \textstyle i^{th}}

      crop under a sole-crop regime on the same area.


      Example calculation



      The table in this section provides yield values for a hypothetical scenario intercropping a grain crop with a fruit tree crop.
      The first two columns state the yields for intercropping (IY) and sole yields (SY).
      The third column, equivalent area, column calculates the area of sole cropping land required to achieve the same yield as 1 ha of intercropping, at the same management level.

      The land equivalent ration can be calculated as




      L
      E
      R
      =



      i
      =
      1


      m





      I

      Y

      i




      S

      Y

      i





      =



      I

      Y

      g
      r
      a
      i
      n




      S

      Y

      g
      r
      a
      i
      n





      +



      I

      Y

      f
      r
      u
      i
      t




      S

      Y

      f
      r
      u
      i
      t





      =



      4
      ,
      000


      5
      ,
      000



      +



      9
      ,
      000


      15
      ,
      000



      =
      0.8
      +
      0.6
      =
      1.4


      {\displaystyle LER=\sum _{i=1}^{m}{\frac {IY_{i}}{SY_{i}}}={\frac {IY_{grain}}{SY_{grain}}}+{\frac {IY_{fruit}}{SY_{fruit}}}={\frac {4,000}{5,000}}+{\frac {9,000}{15,000}}=0.8+0.6=1.4}


      An interpretation of this result would be that a total of 1.4 ha of sole cropping area would be required to produce the same yields as 1 ha of the intercropped system.


      Applications



      The land equivalent ratio can be used whenever more than one type of yield can be obtained from the same area. This can be intercropping of annual crops (e.g. sorghum and pigeonpea) or combination of annual and perennial crops e.g. in agroforestry systems (e.g. jackfruit and eggplant).
      It is also possible to calculate LERs for combinations of plant and non-plant yields, e.g. in agrivoltaic systems.
      The table below lists some examples for land equivalent ratios published in scientific journals:


      References

    Kata Kunci Pencarian: