Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
Figure 1a: Effective rainfall received, irrigation water applied and total water used during 2014-15
Figure 1b: Effective rainfall received, irrigation water applied and total water used during 2015-16
Figure 1c: Effective rainfall received, irrigation water applied and total water used during 2016-17
Figure 1d: Average effective rainfall received, irrigation water applied and total water used
Figure 2: Planting pattern of sole cropping and intercropping
Table 1: Formulae for computation of various indices
Table 2: Effect of castor+groundnut intercropping on castor equivalent yield, WUE and economics (Pooled data of three years rabi 2014-15 to 2016-17)
Figure 3: Changes in plant density of castor and groundnut
Figure 4a: Land equivalent ratio (LER)
Figure 4b: Land equivalent co-efficient (LEC)
Figure 4c: Area time equivalency ratio (ATER)
Figure 4d: Relative crowding coefficient (Castor)
Figure 4e: Relative crowding coefficient (Groundnut)
Figure 4f: Relative crowding coefficient (Total)
Figure 4g: Monetary advantage index (MAI)
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