Your search keyword '"Christer, Nilsson"' showing total 3 results

1. Recovery of nitrogen cycling in riparian zones after stream restoration using δ15N along a 25-year chronosequence in northern Sweden

Author

Niles J. Hasselquist, Eliza Maher Hasselquist, Jed P. Sparks, and Christer Nilsson

Subjects

0106 biological sciences, Delta, Time gradient, 010504 meteorology & atmospheric sciences, Chronosequence, Soil Science, Plant Science, STREAMS, Ecological succession, 010603 evolutionary biology, 01 natural sciences, Mycorrhizae, Boreal, Succession, Nitrogen cycle, 0105 earth and related environmental sciences, Riparian zone, Phytometer, Ekologi, Hydrology, geography, geography.geographical_feature_category, Ecology, Geovetenskap och miljövetenskap, Environmental Sciences (social aspects to be 507), 15. Life on land, Space-for-time substitution, Environmental science, Earth and Related Environmental Sciences, Stream restoration

Abstract

Swedish boreal streams were modified to transport timber by pushing boulders to stream sides, creating levees that disconnected streams from riparian areas. Many streams have since been restored and our goal was to understand how this affects riparian nitrogen (N) cycling. We compared the natural abundance of delta N-15 isotopes in foliage and roots of Filipendula ulmaria plus soils and litter along streams restored 2-25 years ago. We measured sources of N, potential immobilization of N, namely plant diversity and biomass, and the amount and sources of carbon (C) to determine if these were important for describing riparian N cycling. The delta N-15 of F. ulmaria foliage changed dramatically just after restoration compared to the channelized, disconnected state and then converged over the next 25 years with the steady-state reference. The disturbance and reconnection of the stream with the riparian zone during restoration created a short-term pulse of N availability and gaseous losses of N as a result of enhanced microbial processing of N. With increasing time since restoration, N availability appears to have decreased, and N sources changed to those derived from mycorrhizae, amino acids, or the humus layer, or there was enhanced N-use efficiency by older, more diverse plant communities.

Published

2017

2. Gait and Force Analysis of Provoked Pig Gait on Clean and Fouled Concrete Surfaces

Author

Christer Nilsson, H. von Wachenfelt, and Stefan Pinzke

Subjects

Materials science, Soil Science, Slip (materials science), Kinematics, Stride length, Preferred walking speed, body regions, Force analysis, Control and Systems Engineering, Forensic engineering, Slip frequency, Geotechnical engineering, Coefficient of friction, Animal nutrition and management, Agronomy and Crop Science, human activities, Food Science

Abstract

Gait and force analysis have proven to be useful methods in linking claw injuries to surface material conditions. To determine the relationship between claw disorders and floor properties such as friction and surface abrasiveness, the factors controlling gait must be characterised. The effects of fouled concrete floor conditions on the gait of 10 pigs walking in a curve, using kinematics and kinetics to record gait parameters and slip frequency are described and compared with clean conditions. Pigs adapted to fouled floor conditions by reducing their walking speed and stride length, using a higher number of 3-foot support phases and by lowering diagonality. This adaption produced lower vertical forces, a twofold reduction in propulsion and outward stabilisation force and a threefold increase in braking force, without reducing the peak utilised coefficient of friction (UCOF). The UCOF values for both limbs of the curve walking pigs exceeded the recorded dynamic coefficient of friction and the corresponding UCOF values for pigs walking a straight line in fouled floor condition. As UCOF increased and available friction from the fouled floor surface decreased, this resulted in higher forward and backward slip frequencies in both limbs for pigs walking in a curve. Pigs provoked to walk in a curve can adapt to fouled floor condition, but if the floor is heavily fouled this adaption is not sufficient to ensure safe walking.

Published

2009

3. Gait analysis of unprovoked pig gait on clean and fouled concrete surfaces

Author

Hans von Wachenfelt, Stefan Pinzke, Christer Nilsson, Ove Olsson, and Carl-Johan Ehlorsson

Subjects

body regions, Control and Systems Engineering, Soil Science, Physiology and nutrition, Animal nutrition and management, Agronomy and Crop Science, human activities, Animal hygiene, Food Science

Abstract

Inadequate floor properties are considered the primary cause of the majority of claw disorders in pigs but to date no clear relationship has been found between claw disorders and floor properties such as friction and surface abrasiveness. To determine this relationship, the factors controlling pig gait must be characterised. This study examined unprovoked pig gait on a concrete floor in clean conditions and compared it with gait in fouled floor conditions. Kinematics were used to record gait parameters such as walking speed, stride length, swing and stance time, stride elevation together with limb support phases, gait symmetry, diagonality and duty factor. On clean floors, pigs had an unprovoked symmetrical gait with alternating two- and three-beat support phases and a high rate of diagonality. Stride length, swing and stance time and stride elevation showed little variation. Pigs altered their gait in accordance with floor conditions to maintain gait control by reducing walking speed, lowering diagonality and employing more three-limb support phases. Pigs also shortened their stride length and prolonged their stance time.

Published

2008