Measurement Duration but Not Distance, Angle, and Neighbour-Proximity Affects Precision in Enteric Methane Emissions when Using the Laser Methane Detector Technique in Lactating Dairy Cows

SIMPLE SUMMARY: Methane that is breathed out and eructed from ruminants is a potent greenhouse gas that contributes to climate change. Although metabolic chambers are the “gold standard” for measuring methane from livestock, their application in production farms is very limited. There is a need to develop proxy methods that can be applied in such production environments. The proprietary Laser Methane Detector (LMD) has been trialed for the previous decade and has demonstrated its usefulness as a non-invasive and portable instrument to determine methane output from ruminants. In validating the reliability and stability of the data generated by the LMD, the current study gives answers to some very practical assumptions used in the use of the LMD and enhances the confidence in its use in ruminants. ABSTRACT: The laser methane detector (LMD), is a proprietary hand-held open path laser measuring device. Its measurements are based on infrared absorption spectroscopy using a semiconductor laser as a collimated excitation source. In the current study, LMD measurements were carried out in two experiments using 20 and 71 lactating dairy cows in Spain and Scotland, respectively. The study aimed at testing four assumptions that may impact on the reliability and repeatability of the LMD measurements of ruminants. The study has verified that there is no difference in enteric methane measurements taken from a distance of 3 m than from those taken at a distance of 2 m; there was no effect to the measurements when the measurement angle was adjusted from 90° to 45°; that the presence of an adjacent animal had no effect on the methane measurements; and that measurements lasting up to 240 s are more precise than those taken for a shorter duration. The results indicate that angle, proximity to other animals, and distance had no effects and that measurements need to last a minimum of 240 s to maintain precision

An innovative approach to integrated training for smallholder dairying

Purpose: This paper assesses an integrated approach in smallholder dairy training through a partnership between Malawi and Scotland.<p></p> Design/ methodology/ approach: Acute staff shortages and inadequate expertise hamper progress in Malawi’s smallholder dairy production despite its potential to substantially contribute to sustainable household income, food and nutritional security. An integrated training initiative trained farmers, extension workers, development managers, researchers and trainers and graduate students (MSc, MPhil, PhD, and Postdoctoral). To date eight graduate students and one postdoctoral scientist have been associated with this programme. Twenty-two experts have exchanged visits between Scotland and Malawi. A total of 28 lead farmers and 43 extension workers have been trained in forage production, feeding, animal breeding and recording.<p></p> Practical implications: In an evaluation of the programmes, 76% of farmers indicated that they had accessed animal breeding services, and there was a drop of 69% and 34% in milk lost due to mastitis and adulteration, respectively. Three of the MSc students trained in this programme have been recruited as lecturers at Bunda College.<p></p> Originality/ value: Through this initiative, a practical diploma course in dairy science has been established in Malawi and a flexible programme for life-long learning is envisaged in the future. Both the integrated approach and the partnership model can be used in other countries across the world to enhance local agricultural education and extension.<p></p&gt