Abstract

Competition and yield advantage in barley varietal mixtures and in barley-oats mixtures were investigated. The trials were based on replacement series, but in a few cases the overall density of the stand was varied on the basis of an addition series. Both models of competition, one based on the de Wit model and the other upon a linear regression model, agreed as to which component was the dominant and which was the subordinate in the mixture. The competition coefficients from regression analyses depicted competition between components better in a dense than in a sparse stand. The competitive ability of a genotype did not depend directly upon individual characters of the genotype, such as rate of initial development, earliness, culm height, tillering capacity or grain yield in monoculture (adaptation), A good combination of characters from the viewpoint of competition was provided by the barley cv. Arra with its rapid initial development and rapid culm growth (earliness), the variety being dominant irrespective of number of components in the mixture, stand density, level of nitrogen fertilization or growing season. This suggests that competitive relations and distribution of resources within a mixture are determined at an early stage in the growing period. In other cases the competitive ability of a genotype varied from one environment to another with the competitive relations between components being inconsistent. The dominance of an aggressor usually increased with increasing nitrogen fertilization especially when the total density of the stand was high. As a rule, competition affected all the components of yield with the kernel weight being least affected. The grain yield of varietal mixtures did not differ from the yield of the highest yielding component grown alone, i.e., mixtures did not over yield. The relative yield total of varietal mixtures was higher at low (RYT > 1) than at optimal densities (RYT =1). Also the relative yield total was higher under conditions where the nitrogen fertilization was not optimal. The results of a varietal trial repeated during three successive years indicated that the relative yield total of a given mixture varied from one growing season to another, fluctuating around unity. Thus highly adapted barley varieties appear to compete for the same resources, and the grain yield advantage of such mixtures is marginal. The results of the barley-oats mixture trials revealed that the mixture may over yield. The relative yield totals of barley-oats mixtures were usually equal to or greater than unity the latter suggesting that the mixtures of barley and oats may use resources more efficiently than monocultures, and some grain yield advantage could be achieved with such mixtures. The protein yield of the barley-oats mixtures did not differ from the yield of the highest yielding component grown alone. The ratio of actual and expected protein yield and the relative protein yield total were usually slightly greater than one. The grain yields of mixtures were not consistently more stable than monocultures as determined by the coefficient of variation.

Highlights

  • Mixed cropping has been general practice throughout the tropics and subtropics since time immemorial

  • In most of the barleyoats mixtures and in all the barley varietal mixtures the intragenotypic parameter of the other genotype in the same mixture was smaller than the intergenotypic parameter

  • The results revealed that the yield advantage of the barley varietal mixture, as determined by relative yield total (RYT), was usually greater than unity under suboptimal production conditions (I, II)

Read more

Summary

INTRODUCTION

Mixed cropping has been general practice throughout the tropics and subtropics since time immemorial. The third aim, which is probably the most important from the standpoint of promoting research into crop mixtures, is to understand the chemical, physical and biological phenomena underlying the possible advantage of mixtures over the corresponding sole crops. Of these factors, interplant competition for resources is one of the most influential in determining the magnitude of the yield advantage of a mixture. Interplant competition for resources is one of the most influential in determining the magnitude of the yield advantage of a mixture This third aim is by far the most challenging and complex. The main object of the present study was to compare the yielding abilities of barley varietal mixtures and of barley-oats interspecific mixtures with the respective pure stand yields, and to examine the nature of competition between the components

Definition of mixtures
Definition of competition
Characterization of yield advantage from mixed cropping
Occurrence of yield advantage in barley-barley and barley-oats mixtures
AIMS OF THE PRESENT STUDY
Experimental design
Location and management of the experiments
Analysis of the stands and yield
Mathematics and statistics
RESULTS AND DISCUSSION
Yield advantages
Stability of mixtures
SUMMARY AND CONCLUSIONS

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.