Browsing by Person "Stein, Sophie"

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Carry‐over effect of leguminous winter cover crops and living mulches on winter wheat as a second main crop following white cabbage
(2024) Stein, Sophie; Zikeli, Sabine; Möller, Kurt; Stein, Sophie; Center for Organic Farming, University of Hohenheim, Stuttgart, Germany; Zikeli, Sabine; Center for Organic Farming, University of Hohenheim, Stuttgart, Germany; Möller, Kurt; Department of Fertilisation and Soil Matter Dynamics, Institute of Crop Science, University of Hohenheim, Stuttgart, Germany
Background: The direct effect of winter cover crops (WCCs) or living mulches (LMs) on a first vegetable crop has already been investigated. However, little is known about the effect on growth and yield of a second cash crop in the rotation. Aims: The aim of the study was to assess the carry‐over effect of legumes grown as WCC or LM on winter wheat as a second crop after cabbage, measured in yield and nitrogen release. Methods: Two field trials were carried out in Germany between 2019 and 2022. In the WCC trial, rye, rye with vetch, vetch, pea, and faba bean were used as WCC and compared to bare soil. The WCC biomass was incorporated before cabbage planting in late spring. For the LM trial, perennial ryegrass or white clover was used as LM during cabbage cultivation and compared to bare soil. The LM biomass was incorporated with the cabbage residues and compared to an early incorporation of LM biomass before cabbage planting. In both trials, winter wheat was sown in the fall as the second following main crop in the rotation. Results: Leguminous WCC species had significant higher wheat yield compared to non‐legumes but not compared to the control without WCC. Late incorporation of LM biomass resulted in increased wheat yield at 10.1–10.4 Mg ha −1 compared to an early incorporation before cabbage planting at 9.35 Mg ha −1 . Net N releases show that for WCC, the main effect of legume nitrogen fixation is achieved in the first crop cabbage immediately after incorporation of WCC biomass. In the case of leguminous LM, the effects of legume nitrogen fixation are of much higher relevance in the second main crop, winter wheat, due to LM biomass incorporation after cabbage cultivation. Conclusion: Therefore, we suggest to consider not only the direct but also the carry‐over effects of leguminous cover cropping in vegetable crop rotations.
The challenge to achieve a balanced fertilization management in intensive organic vegetable production – approaches for improvement
(2024) Stein, Sophie; Möller, Kurt
The nutrient supply – especially in stockless farms – is a major challenge for organic vegetable farms. Due to the lack of animal husbandry, the nutrient cycle within the farm is limited. At the same time, the nutrient flows in vegetable growing are very high due to the high nitrogen (N) and potassium (K) requirements of the crops. If the nutrient flows are not adapted to the needs of the crops, severe nutrient imbalances, yield or quality losses can occur. Fertilization with basic fertilizers such as manure or compost, based on the N-demand of the crops, can lead to an accumulation of phosphorus (P) in the soil in the long term. Fertilization with N-rich organic commercial fertilizers, on the other hand, is to some extent contradictory to the principles of organic farming due to their origin – mostly from conventional animal husbandry. Another possibility for the exclusive N supply of the farm is the targeted use of legumes with the ability for biological N-fixation (BNF). However, since the cultivation of fodder legumes or grain legumes plays a minor role in vegetable production without livestock, their use for fertilizer management is limited. The aim of this thesis was to optimize fertilizer management in vegetable production based on balanced nutrient budgets of the three main nutrients N, P and K, as well as to increase the supply of N within the farm through the N-fixation of legumes. In a farm survey, the status quo of nutrient management was determined and analyzed using nutrient budgets. In two systemic field trials, the contribution of the strategies legume winter cover crop and living mulch to the on-farm N supply was tested. The status quo of the budgets on organic vegetable farms without livestock shows average budget surpluses of 67.5 kg N ha-1, 2.06 kg P ha-1 and 0.26 kg K ha-1. Another result is that an increase in the N content of base fertilizers such as solid manure or champost leads to an increase in the P and K balance. In the long term, such a strategy carries the risk of nutrient enrichment in the soil. Strategies based on the use of large amounts of keratin fertilizers, on the other hand, have the opposite effect, namely a long-term depletion of P and K. The integration of legumes into the vegetable crop rotation shows that both strategies – leguminous winter cover crops as a preceding crop to white cabbage and leguminous living mulch in combination with white cabbage – lead to similar or even slightly higher cabbage yields than cultivation without legumes or green cover. The direct N-effect of the leguminous winter cover crop on the first crop of white cabbage is about 2/3 of the total N-effect, the N-effect on the second crop of winter wheat is about 1/3 of the total N-effect of the BNF. In the case of the living mulch biomass, which is only incorporated after cabbage cultivation, the direct N effect of BNF on the first main crop is less than 40 %. The N effect on the subsequent winter wheat crop is over 60 %. The results of this thesis show that organic vegetable farms face at least two major challenges in terms of nutrient management: They must implement nutrient management that ensures a balanced nutrient budget in the soil and on the farm while reducing N surpluses through more efficient use of internal and external N sources. This thesis provides important figures for the characterization and balancing of nutrient management in vegetable production. These figures can be used to address the challenge of balanced fertilization management.
The effects of leguminous living mulch intercropping and its growth management on organic cabbage yield and biological nitrogen fixation
(2022) Stein, Sophie; Hartung, Jens; Möller, Kurt; Zikeli, Sabine
In organic horticulture, living mulches (LM) are used for weed suppression and erosion prevention. In addition, leguminous LM can contribute to higher nitrogen (N) import into vegetable cultivation systems via biological N2 fixation (BNF). In order to investigate the effect of LM systems, a two- as well as three-year field experiment was conducted between 2019 and 2021 at two locations in Southwest Germany. White cabbage was intercropped with two different clover varieties (Trifolium repens cv. ‘Rivendel’, with regular growth and T. repens cv. ‘Pipolina’, a micro clover) and perennial ryegrass (Lolium perenne cv. ‘Premium’). Bare soil (with spontaneous vegetation) without intercropping was the control treatment. The second factor was the growth management of the LM: incorporation by rototilling before planting the cabbage, intercropping with the cabbage and no LM growth management, and intercropping with mulching of the LM during the cabbage growing. The results show that rototilling LM before planting the cabbage did not lead to higher weight of cabbage residues or differences in total head yield among the treatments for growth management. Intercropping without further LM growth management did not result in a reduced total head yield of cabbage compared to mulching. The micro clover ‘Pipolina’ showed no reduced competition with cabbage compared to the regular-growing white clover ‘Rivendel’. Therefore, we conclude that leguminous LM systems, regardless of growth management, can achieve high yields with sufficient irrigation and additional fertilization while increasing the inputs of N via BNF into the entire cropping system.