It takes mere seconds to compact a soil, but years or even decades for it to recover. Biological activities by plant roots and soil organisms (earthworms) as well as physical effects like drying out and rewetting phases, and freezing-thawing cycles are vital for natural regeneration. Exactly how recovery happens is being investigated in a long-term field trial. For this, an observational infrastructure with hundreds of soil probes – the Soil Structure Observatory (SSO) – was set up in 2014 together with ETH Zurich. After the initial compaction event, a fallow, a permanent grassland and a crop rotation with and without tillage were set up. This allows to analyse e.g. the influence of plants and tillage on recovery.
Milkers frequently suffer from musculoskeletal disorders, especially in the area of the shoulders and arms. Agroscope therefore investigated whether appropriate working heights can reduce workload in the milking parlour. For this, the angle of flexion of various joints during milking was recorded in one experiment, whilst a second experiment recorded muscle contractions at three different heights. The study showed that although a lower working height in the milking parlour has no effect on forearms or upper arms, it significantly reduces strain on the shoulders.
Effects of Acacia mearnsii added to silages differing in nutrient composition and condensed tannins on ruminal and manure-derived methane emissions of dairy cows.
Journal of Dairy Science, 106, (10), 2023, 6816-6833.
This study investigated the effects of acacia (extract of Acacia mearnsii) and sainfoin (Onobrychis viciifolia) as condensed tannin (CT)-rich sources on ruminal and manure methane (CH4) emissions in comparison with non-CT silages characterized by different contents of the cell wall and water-soluble carbohydrates. In a 3 × 6 incomplete Latin square design, 30 Holstein cows (63 ± 23 d in milk; mean ± SD; 33.8 ± 7.6 kg of milk per day, body weight 642 ± 81 kg) were provided with ad libitum access to 1 of 6 total mixed rations comprising 790 g of silage and 210 g of concentrate per kilogram of dry matter (DM). The silages were either rich in sainfoin [neutral detergent fiber (NDF): 349 g/kg of DM], perennial ryegrass (NDF: 420 g/kg of DM), or red clover (NDF: 357 g/kg of DM). Each silage was supplemented with 20 g/kg (of total diet DM) of acacia or straw meal. Feed intake and milk yield were recorded daily. Milk composition and ruminal fluid characteristics and microbiota were analyzed. The individual ruminal CH4 production was determined using the GreenFeed system, and CH4 emissions from the manure of cows fed the same diets were measured in a parallel experiment over 30 d at 25°C using a dynamic flux chamber. The CT sources did not reduce CH4 yield or emission intensity. Acacia reduced milk production (from 26.3 to 23.2 kg/d) and DM intake (from 19.7 to 16.7 kg/d) when supplemented with ryegrass, and both CT sources reduced the milk protein content and yield. Acacia supplementation and ryegrass silage reduced the ruminal acetate: propionate ratio. Furthermore, during acacia treatment, the abundance of Methanobrevibacter archaea tended to be lower and that of Thermoplasmata was higher. Acacia reduced the CH4 emissions from manure for the ryegrass group by 17% but not for the sainfoin and clover groups. Feeding sainfoin silage resulted in the lowest manure-derived CH4 emissions (−47% compared with ryegrass). In conclusion, acacia reduced ruminal CH4 production by 10%, but not emission intensity, and the mitigation effect of sainfoin depended on the silage to which it was compared. Because mitigation was partially associated with animal productivity losses, careful evaluation is required before the implementation of tanniferous feeds in farm practice.
On behalf of Micarna SA, Agroscope analysed the environmental impacts of beef, pork and poultry production. With beef production, feed intensity was crucial. In the case of pork and poultry production, the quantity of feed used per kg of meat had the greatest influence on environmental impacts. The use of European soya with its shorter transport distances had a positive effect.