Abstract
The nitrogen supply can be a yield-limiting factor in organic farming, especially when reduced tillage is applied. An organic field experiment was conducted from 2007 to 2013 to analyse the potential of the nitrogen supply through the efficient use of green manure crops in different tillage systems. Three farming systems were compared: a stubble cleaner system (SC) and a plough system (PL), both in a cereal-based crop rotation, and another plough system in a crop rotation that included alfalfa grass ley (PLALF). In the fifth year of the experiment, the experimental design was extended into a split plot design, and seven green manure treatments ( Lolium perenne , Phacelia tanacetifolia , Sinapis alba , a mixture of Sinapis alba and Trifolium resupinatum , Trifolium resupinatum , Vicia sativa , and bare fallow as the control) were integrated into each of the three systems. The effects of the three systems and the green manure treatments on N mineralization, the soil microbial biomass and the yield of the main crops of oats and field beans in the sixth and seventh years of the experiment were analysed. The results showed that the choice of green manure species was of minor importance in the PLALF system. This system generally success- fully supplied N to the oats with oat yields from 3.6 to 5.1 t per ha. Vicia sativa was the most promising green manure crop in the SC and PL systems, with the N min values and oat yields (4.0 and 4.6 t per ha) being similar to those in the PLALF system. In the subsequent year, the PLALF system again was more successful in most of the N min assessments than the PL and SC systems, which often had rather similar results. In addition, a main crop of field beans was able to compensate for the differences in the N min content, and the yields were similar in all three systems (3.1 to 3.7 t per ha). The microbial biomass in the top soil was significantly increased in the reduced tillage system compared to the plough systems. In conclusion, reduced tillage in organic farming can promote soil microorganisms and be competitive if the nitrogen supply is improved through the efficient use of green manure or an adequate leguminous main crop.
Highlights
Methods with reduced tillage, such as shallow ploughing, are recognized as environmentally friendly alternatives to conventional ploughing
Leguminous green manure crops are able to compensate for the reduced N mineralization in the reduced tillage system, while high N using species will suffer more from reduced tillage
The analysis of variance of green manure crop and tillage/crop rotation system for green manure above ground biomass yield, green manure above ground biomass N content and green manure C/N ratio showed a significant influence of the green manure crops, the tillage/crop rotation systems and a significant interaction at the 0.001 probability level each (Table 3)
Summary
Methods with reduced tillage, such as shallow ploughing, are recognized as environmentally friendly alternatives to conventional ploughing. 12–20 cm) offers numerous advantages for the structure of the soil and soil life. These advantages include the enrichment of organic material, soil organisms and nutrients on the soil surface [1]. If conventional ploughing is avoided in organic farming, the nitrogen supply for the crops may be reduced due to potentially low or delayed mineralization [2,3]. Because no soluble fertilizers and no synthetic pesticides may be used in organic farming, reduced tillage can cause yield losses in these systems [2,4]
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