Legumes play critical dual roles in grazed grassland ecosystems; providing nitrogen inputs and high-quality feed for grazing livestock. However, many species fail to persist in acidic, low fertility soils. A glasshouse study was conducted to investigate the response of lucerne (Medicago sativa) to phosphogypsum (PG), lime and soluble P + S fertilizer (PS) application to two soils. Phosphorus and sulphur were applied through either PG (0, 1, 3 and 9 t ha¯¹) or P + S fertilizer at equivalent rates to PG. Both PG and PS were applied with or without lime, which was applied at 2 t ha¯¹. Yield and nutrient uptake of the lucerne was measured, while the soil was analyzed for pH, Olsen P and exchangeable aluminum. Yield responses were significantly ...
Legumes are the main source of plant available nitrogen in high country pastures through nitrogen f...
In recent years, attention has been focussed on the efficient use of fertilisers in New Zealand. Su...
Lucerne (Medicago sativa) is one of most productive perennial species in southern Australia. However...
Pasture legumes provide critical nitrogen inputs but fail to persist in typical acidic low P fertili...
Soil acidity severely restricts legume persistence and growth in grazed upland agriculture in New Ze...
Reports the results of a study conducted to estimate the effect of differential lime and phosphate a...
Purpose: Legume establishment and persistence in New Zealand hill and high-country soils are largely...
A 2-year field experiment was conducted on a high country brown stony soil in the Lees Valley, North...
The passive moment of lime down the soil profile in dryland is slow so a machine was developed to di...
The causes of differential growth of lucerne, lotus, ryegrass and brown top on a range of three acid...
Soil acidity and associated phosphorus (P) deficiency and aluminium (Al) toxicity are major constrai...
High country soils are typically acidic and have low fertility compared with intensive high fertilit...
Soil acidity is the main constraint for lucerne establishment and growth in high country regions of ...
South Island hill and high country soils typically have deficiencies of nitrogen, phosphorus, sulphu...
Early research found that sulphur (S) alone was required on less weathered Semi-Arid and Pallic soil...
Legumes are the main source of plant available nitrogen in high country pastures through nitrogen f...
In recent years, attention has been focussed on the efficient use of fertilisers in New Zealand. Su...
Lucerne (Medicago sativa) is one of most productive perennial species in southern Australia. However...
Pasture legumes provide critical nitrogen inputs but fail to persist in typical acidic low P fertili...
Soil acidity severely restricts legume persistence and growth in grazed upland agriculture in New Ze...
Reports the results of a study conducted to estimate the effect of differential lime and phosphate a...
Purpose: Legume establishment and persistence in New Zealand hill and high-country soils are largely...
A 2-year field experiment was conducted on a high country brown stony soil in the Lees Valley, North...
The passive moment of lime down the soil profile in dryland is slow so a machine was developed to di...
The causes of differential growth of lucerne, lotus, ryegrass and brown top on a range of three acid...
Soil acidity and associated phosphorus (P) deficiency and aluminium (Al) toxicity are major constrai...
High country soils are typically acidic and have low fertility compared with intensive high fertilit...
Soil acidity is the main constraint for lucerne establishment and growth in high country regions of ...
South Island hill and high country soils typically have deficiencies of nitrogen, phosphorus, sulphu...
Early research found that sulphur (S) alone was required on less weathered Semi-Arid and Pallic soil...
Legumes are the main source of plant available nitrogen in high country pastures through nitrogen f...
In recent years, attention has been focussed on the efficient use of fertilisers in New Zealand. Su...
Lucerne (Medicago sativa) is one of most productive perennial species in southern Australia. However...