Browsing by Subject "Schweinemast"
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Publication Attraktives Beschäftigungsmaterial zur Reduktion von Schwanz- und Ohrschäden beim Schwein(2021) Kauselmann, Karen; Schrader, LarsTail biting is a behavioural disorder that often occurs in commercially housed domestic pigs. It may affect welfare of involved pigs and cause economic losses for the farm. The causes of tail biting are multifactorial, which is why preventive tail docking is the most comon method to reduce tail damages in pigs until today. However, besides invasive interventions, the use of enrichment materials can reduce tail biting by increasing species-specific exploration behaviour. Thereby, the rapid habituation of pigs poses a challenge in the selection of enrichment materials. Within the research project “Label-Fit – Schweinehaltung fit für das Tierschutzlabel”, different plant-based enrichment materials for rearing and fattening pigs were investigated, which can be used in conventional housing systems with slatted floors. The aim of the present study was to identify attractive enrichment material based on the exploration duration. Furthermore, the influence of the enrichment materials on tail and ear damages was investigated in pigs with undocked tails. Prior to three long-term investigations, two choice tests were carried out for better delimination of plant-based enrichment materials considered attractive for pigs. Therefore, pigs were offered enrichment materials of different structure or, in the second test, straw with different edible additives. In both tests materials were offered in parallel in six boxes. By means of the individually recorded exploration durations, pigs showed clear preferences for pelleted materials and preferred chopped straw with edible additives, such as maize kernels. These results were used to select enrichment materials for further long-term investigations. In the three long-term investigations, material dispensers were equipped with an UHF-RFID system to record exploration durations of the pigs at the material dispenser filled with enrichment materials. Enrichment materials were offered in an alternating order and at each change of material the tails and ears of the pigs were recorded according to the “Deutscher Schweine Bonitur Schlüssel” (DSBS) regarding partial losses and skin injuries. In the first long-term investigation, rearing and fattening pigs received four enrichment materials with different structures (lucerne pellets, straw pellets, chopped hay and chopped straw) in a two-weekly change. Rearing pigs preferred pelletized materials, while fattening pigs showed preferences for chopped hay and lucerne pellets. Furthermore, exploration duration increased from rearing to fattening. When offering the enrichment materials that achieved the highest exploration durations in rearing (lucerne pellets or straw pellets), the fewest partial losses of the tails were recorded. However, when offering straw pellets in rearing, most injuries at the tails occurred. The second long-term investigation dealed with the question, if exploration duration of rearing and fattening pigs for chopped straw can be increased by adding maize kernels. Compared with pigs that received chopped straw without maize, pigs that received chopped straw with maize kernels showed higher exploration durations at the material dispenser during rearing and fattening. Furthermore, exploration duration could be increased from rearing to fattening, although there was no change of the material within the groups. Additionally, saisonal differences in the diurnal pattern of exploration of pigs were found. Interestingly, pigs that received chopped straw without maize kernels showed fewer length losses of the tails compared to pigs that received chopped straw with maize kernels. In the third long-term investigation, rearing and fattening pigs received different flavoured straw pellets in a weekly change. Different preferences for flavours were found between rearing and fattening pigs. During rearing, highest exploration durations were recorded for straw pellets with fried onion flavour or almond flavour. During fattening, pigs explored straw pellets without flavour or with strawberry flavour longest. Exploration duration could be maintained at a constant level from rearing to fattening. Most skin injuries at the tails occurred when using vanilla flavour or fried onion flavour during rearing, whereby vanilla, unlike fried onion, was one of the flavours with the lowest exploration durations. On the basis of the present investigations clear preferences of pigs for specific plant-based enrichment materials could be shown, which increased species-specific exploration behaviour. However, enrichment materials for which high exploration durations were recorded could not reduce tail damages, such as partial losses or skin injuries. This illustrates that, apart from the access to enrichment material, further factors influence the prevalence of tail damages, which have to be considered in relation to each other.Publication Improvement of the acceptance of a solid lying area by fattening pigs and rearing piglets(2022) Opderbeck, Svenja; Gallmann, EvaSociety’s demands for more and better animal welfare in Germany have increased in recent years which has been promoted by the introduction of a lot of animal welfare labels and legislative changes. Therefore, housing systems with fully slatted floors, a minimum space allowance and a few employment opportunities are no longer state of the art. However, the implementation of more animal welfare confronts farmers with a large number of challenges. Among other things, there are still many problems with the integration of a solid lying area, due to the high risk of fouling and the resulting poor indoor climate. Functionally reliable solutions were to be found in the project “Label-Fit” for the integration of a solid lying area into existing conventional housing systems for rearing piglets and fattening pigs. Based on literature research and expert discussions, the influencing factors group size, pen structure, type of perforated floor, light intensity, a cooled/heated lying area and a cover over the lying area were examined. These factors were investigated in four fattening and two rearing compartments over three years (five fattening periods with a total of 2200 pigs; six rearing periods with a total of 1152 piglets) in the Bildungs- und Wissenszentrum Boxberg (LSZ). The lying behavior, the fouling of the pens and animals and various climate parameters were recorded and evaluated to assess the acceptance of the lying area. In order to examine the influence of the light intensity, spotlights were located over the slatted area in fattening pens to make this area unattractive for lying and influence the lying behavior and the soiling of the lying surface positively. This increased light intensity leads to significantly more pigs lying on the solid lying area, but it did not affect the fouling. Furthermore, the effect of a cooled lying area on fattening pigs was tested. The cooling of the lying area leads to significantly more animals on the lying area even at higher temperatures, and the fouling of the animals was reduced significantly. The fouling of the lying area was not affected; however, the fouling was very low in this examination. The temperature requirements in the rearing of piglets change greatly during the rearing period, consequently, two heating systems and a floor cooling system were examined in two rearing compartments. There was no difference between the two heating systems on the lying behavior. However, significantly more piglets lay on the cooled lying area compared with the control pen during the last weeks. The fouling of the pens and animals was very low but not affected by the cooling or heating systems. Two of the fattening compartments were converted with pens for 18 pigs and two compartments with pens for 28 pigs. The two group sizes could only be compared descriptively due to structural and temporal differences. The acceptance and the cleanliness of the lying area in the groups with 28 animals were better than in the smaller groups. Furthermore, two different arrangements of the perforated area on one side or two sides of the lying area were tested, but only descriptively. It was shown that more animals were lying on the lying area in the pen with the slatted area on one side, but the solid lying area was dirtier. The position of the feeding can also influence the acceptance of the designated functional area. Therefore, two feeder positions were examined descriptively: In the middle and at the edge of the lying area. The results showed that more pigs were lying on the solid lying area when the feeding was placed at the edge. In addition, the fouling of the lying area and partly also of the animals was reduced in pens with feeding at the edge. The attractiveness of lying in the designated elimination area can be decreased by the type of floor. Therefore, a concrete slatted area was compared with a triangular grid area. Significantly more pigs lay on the solid lying area in pens with a triangular grid, especially when the temperature was low. Finally, the influence of the heated lying area and a cover over a part of the lying area was compared. The results showed that a cover over the lying area seems to lead to more pigs lying on the solid lying area, which was also fouled less than in pens with heated lying areas (no significant differences). Based on the results of this study and the results of other studies, recommendations for an optimized pen structure with a solid lying area are summarized in a decision aid for the structuring of a pen for fattening pigs or rearing piglets. In addition, as part of this dissertation, an optimized pen for fattening pigs with a solid lying area was designed. The results of the dissertation show that there are many ways to implement a solid lying area. A combination of several of these approaches has the potential to improve the acceptance of a solid lying area in conventional pig housing systems.Publication Untersuchungen zum Emissionsgeschehen von Ammoniak und Methan in der Mastschweinehaltung(2017) Gronow-Schubert, Stephanie; Gallmann, EvaThe growing of feed crops, the production of farm livestock and the processing of livestock products, along with the associated use of farmland for this entire production chain, all engender greenhouse gases on a worldwide scale. In this respect, ammonia and methane emissions are directly associated with livestock farming including the feeding of pigs for slaughter. The main aim of the work presented in this thesis was investigation of emissions produced in this way, and into selected strategies applied for reducing ammonia and methane release, particularly in management of liquid manure inside a fattening unit. In this context, the paper focusses on the three approaches – measuring, analysing and modelling - which are accordingly established as the following part-targets: • Applying emission reduction strategies as part of liquid manure management in a conventional fattening unit and comparing the resultant emissions with those from a reference system where no emission reduction actions had been taken. The selected emission reduction strategies should be practicable and sustainably applicable in existing livestock housing systems. • Analysing the main factors of influence on emissions throughout the fattening period during different seasons of the year, with special consideration of time series effects and regressions. • Examining the possibilities of substance flow modelling, application to own measurement data rather or for assessing the potential of emission reduction methods as well as evaluation of the selected approach for substance flow modelling. In-barn liquid manure management with fattening pigs markedly influences ammonia and methane emissions whereby the concrete reduction potentials are not yet sufficiently clarified. Within this study, a first work package compares, through a case control approach, the liquid manure management strategies - weekly emptying of the liquid manure channel as well as covering of the underfloor stored liquid manure surface as well as the addition of Effective Microorganisms to the liquid manure – with the strategies tested for emission reduction potential and compared over a feeding cycle in each case with the stored manure method as reference. The pig housing used in the trial was divided into two compartments (experimental and reference compartment) each holding 50 animals. In quasi-continuous measurement, incoming air, compartment and exhaust air ammonia and methane concentrations, temperatures of incoming air, compartment and exhaust air, and the temperature and pH of the liquid manure, were all recorded. Additionally, liquid manure samples were analysed in 14-day rhythm and the level of liquid manure measured as well as the degree of dirtiness of pen floors. Also recorded were pig weights and performance or feeding data. No further differences in terms of feeding, ventilation or management existed between trial and reference compartments. The applied reduction strategies were able to partially reduce ammonia and methane emissions (weekly emptying of liquid manure channel: methane emission rates reduced by 39 % based on emission rate in grams per day and livestock unit; liquid manure cover: 13.8 % ammonia emission rates reduction in grams per day and livestock unit), had in part no effect, or even a negative influence on the emissions (weekly emptying of the liquid manure channel: no effect on ammonia emissions; liquid manure cover: 119.9 % rise in methane emission rates in terms of grams per day and livestock unit). The selected interval of one week between emptying the liquid manure channel was not sufficient as a reduction strategy. With covering of the liquid manure surface underfloor, it is important to consider that the almost airtight sealing of the liquid manure surface delivered favourable conditions for methanogenesis. The influence of the addition of Effective Microorganisms to the liquid manure on the emissions of ammonia and methane was marginal. The emissions of ammonia increased of 8.3 % and the emissions of methane of 5.9 %. The evaluations (time series and regression analyses) of the data from the reference compartments from a total of four feeding cycles (two summer and two winter cycles) comprised the second work package. The time series analysis enabled insight into the relationships between the ammonia and methane emissions in terms of time, and insights into the influential factors affecting release and transport of the gases. For example, the time-related influences of high temperatures on the system “fattening unit” and on the release of emissions, could be graphically shown. The time series analysis gave indications as to how dynamic, or how stable, climatic conditions can be in pig housing. The regression analyses clearly showed that the emission process, with ammonia as well as with methane, is influenced particularly through the amount of liquid manure involved, the temperature and the air volume flow. In the same way, the distance between the liquid manure surface and the slatted flooring (‘headspace’) was found to have direct influence on the release of ammonia and methane from the liquid manure. A larger ‘headspace‘ correlated with reduced emissions and vice versa. Following recording and statistical evaluation of the emission data, the contribution that can be made through substance flow modelling of ammonia emissions towards increasing knowledge on the emission process and on methods for its reduction within pig housing was examined as a third work package. This involved the transfer of selected recorded data into the substance flow model. Serving as basis was the model from CORTUS et al. (2010a) adapted in three steps to take account of the conditions in the pig housing being used. The constructional outline of the trial livestock housing served as system limit. Berkeley Madonna 8.3.18 software was used for numerical integration of the differential equation system. Own data was applied for calibration and validation, in each case taken from the reference compartment of two different feeding cycles. In principle, the adapted model was capable of modelling ammonia concentrations and emissions. In addition, the influence of the liquid manure temperature and pH value of the liquid manure could be depicted. However, the model generally reacted sensitively to temperature and pH values. Because of this, the model underestimated and overestimated recorded values, in part substantially. An important influence on the model accuracy appeared to be related to the submodel considering urine puddles. For the purposes of own modelling, this submodel was cut out of the main model during its adaptation according to the recorded data. Compared to recordings, modelling of gas concentrations and emissions offers the advantage of cost-efficient and time-saving estimations of emission potential for different housing systems, e.g. for feeding pig production. Calibration and validation, as well as adaptation to suit the type of application requires, however, particular care and expertise. Through the various methods for measurement, analysis and modelling that were applied, the work reported here contributes to better understanding of the emission process and the reduction of emissions, particularly in the case of liquid manure management in feeding pig production.