Wolfgang Lücke scite author profile

The slash-and-burn practice of land preparation that farmers use traditionally in forest-based fallow systems in the humid tropics causes land degradation and human health hazards. As an alternative to slash-and-burn, a mechanized, fire-free method of land preparation was evaluated on smallholdings in the eastern Amazon region. The use of machinery for harvesting fallow vegetation and chopping it for mulch eliminates the need for hard labor and fire for land clearing and increases labor productivity. Four different tractor-propelled choppers with power demand of 50 kW to 122 kW were tested. Their chopping capacity varied between 4.5 Mg and 20 Mg of fresh biomass per hour. The mechanized chop-and-mulch technology can be used in fallow vegetation that is up to 12 years old, which in the study region corresponded to 20 Mg to 150 Mg fresh biomass per hectare. Two additional choppers-a stationary silage chopper and a high-powered crawler tractor with a chopping device-were also tested but both were not suitable for smallholder fallow systems. In the context of the mulch technology, new low-input crop varieties were screened and their response to fertilizer was studied. The mulch technology facilitates extended cropping, to plant crops off-season, and modify crop rotation. Degraded fallow vegetation can be improved by enrichment planting using fast-growing leguminous tree species. Financial analysis of different scenarios revealed that farm income and labor productivity from chop-and-mulch systems can be up to two times greater than from the traditional slash-and-burn system.

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Effects of the colour and thickness of polyethylene film on ensiling conditions and silage quality of chopped maize, as investigated under ambient conditions and in mini‐silos

Snell

Oberndorfer

Lücke

et al. 2002

Grass and Forage Science

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The influences of variations in thickness and colour of agricultural plastic film on silage preservation conditions and silage quality were investigated. Thirty cylindrical plastic containers (mini‐silos; 0·3 m3) were filled with chopped maize and covered with five different types of film (90 µm white, 150 µm transparent, 150 µm white, 150 µm black, 200 µm white). Four mini‐silos of each variant were placed in the open air, and two were housed and subjected to a test procedure. The maximum storage period of silages was 104 d. The surface temperature of the films was found to be strongly dependent on the type of sheet. The temperatures inside the mini‐silos directly under the film differed significantly, whereas this effect was not recorded in the centre of the mini‐silos. In all, the differences were quantitatively small. Results of the chemical analysis of silages did not reveal any significant influence of film type. This was also the case when restricting the analysis to the uppermost silage layer. These findings are discussed against the background of the relatively small temperature differences and likely effects on gas permeability. On the basis of the results presented, it is concluded that, under the conditions of the experiment, well‐preserved forage of high nutritive value can be produced with silo sheets of differing colour, as well as with those of reduced thickness. Adequate mechanical robustness has to be ensured, if there is a reduction in film thickness.

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Effects of polyethylene colour and thickness on grass silage quality

Snell

Oberndorfer

Lücke

et al. 2003

Grass and Forage Science

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The aim of the investigation was to determine the influence of variations in thickness and colour of agricultural plastic film on silage preservation conditions and grass silage quality. For this purpose, 30 cylindrical plastic containers (mini‐silos; 0·3 m3) were filled with chopped grass and covered with five films of different thickness and colour: 90 μm, white; 125 μm, green; 150 μm, black; 200 μm, green and 200 μm, white. Four replications of each film type were placed in the open air. Two replications were housed indoors and exposed to an ‘artificial sky’ in a test apparatus. The surface temperature of the films was found to be strongly dependent on film thickness and colour. Results of the chemical analysis of silages did not reveal any significant influence of the films. This was also the case when restricting the analysis to the uppermost silage layer. The results showed that under the conditions of this experiment, well preserved forage can be produced with films of differing colour, as well as of lesser thickness.

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Prospects for the application of dielectric heating processes in the pre-treatment of oilseeds

Oberndorfer

Pawelzik²,

Lücke

2000

Eur. J. Lipid Sci. Technol.

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Wolfgang Lücke

A concept for the development of fire-free fallow management in the Eastern Amazon, Brazil

Mechanized land preparation in forest-based fallow systems: The experience from Eastern Amazonia

Effects of the colour and thickness of polyethylene film on ensiling conditions and silage quality of chopped maize, as investigated under ambient conditions and in mini‐silos

Effects of polyethylene colour and thickness on grass silage quality

Prospects for the application of dielectric heating processes in the pre-treatment of oilseeds

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