Any agricultural production process is characterized by input-output relations. In this paper we show that the production functions of Liebig, Mitscherlich and Liebscher for the relation between nutrient supply and crop production can be regarded as special variants of one 'integrated model'. The model is elaborated for two nutrients, nitrogen and phosphorus, and is based on the Michaelis-Menten hyperbolic equation. This basic equation has two main terms and one multiplicative interaction term. The parameter values determine which one of the aforementioned functions is generated. 'Greenwood's variant of the Michaelis-Menten function' is approached if the main terms dominate. 'De Wit's variant of the Mitscherlich function' is approached if the multiplicative term dominates. Liebig's function emerges from any of these variants if nutrient supply is constrained to such an extent that nutrient uptake continually exhausts the nutrient stock. The 'Liebscher variant' -considered the most appropriate for most empirical situations -is intermediate between those of Liebig, Michaelis-Menten and 'De Wit's Mitscherlich', and can be obtained by parameter calibration. Generally, these functions result in 'decreasing marginal returns' with increasing nutrient supply. However, if interacting nutrients are supplied in precisely the required proportion, the variant with a multiplicative term does show 'increasing marginal returns', but only in conditions oflow nutrient supply rates, low nutrient affinities and / or high nutrient losses.
Lodging is a serious problem in dry pea production in North‐West Europe. Therefore, lodging and its effects on yields were studied in five field‐experiments with two cultivars with two different canopy structures, both as single crop and in various mixing weight ratios. In 1985, mechanically simulated lodging decreased yield by about 45% in both the conventional type cv. Rondo and the semi‐leafless type cv. Solara, by reducing both the number of seeds and seed weight. Natural lodging brought about the same effect in ‘Rondo’ but in ‘Solara’, however, effects were less because of delayed lodging. In 1986, 1987 and 1988, mixtures of the conventional cv. Finale and Solara showed delayed lodging compared to ‘Finale’ single and tended to produce higher yields than the single crops of both cultivars. Polynomial analysis of the yields of all mixing experiments showed maximum yields at 53%‘Solara’ (quadratic analysis) or 67%‘Solara’ (cubic analysis). Thus, mixing high yielding, lodging sensitive conventional cultivars with lower yielding but lodging resistant semi‐leafless cultivars may improve yield in dry peas.
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