Your search keyword '"Banse, M."' showing total 55 results

51. Further concepts and approaches for enhancing food system resilience.

Author

Ingram J, Bellotti W, Brklacich M, Achterbosch T, Balázs B, Banse M, Fielke S, Gordon L, Hasnain S, Herman L, Kanter R, Kaye-Blake W, Mounsey J, Pihlanto A, Quinlan A, Six J, Stotten R, Tomich T, Tóth A, Yacamán C, and Zurek M

Subjects

Adaptation, Psychological, Resilience, Psychological

Published

2023

52. Legacy effects of temporary grassland in annual crop rotation on soil ecosystem services.

Author

Hoeffner K, Beylich A, Chabbi A, Cluzeau D, Dascalu D, Graefe U, Guzmán G, Hallaire V, Hanisch J, Landa BB, Linsler D, Menasseri S, Öpik M, Potthoff M, Sandor M, Scheu S, Schmelz RM, Engell I, Schrader S, Vahter T, Banse M, Nicolaï A, Plaas E, Runge T, Roslin T, Decau ML, Sepp SK, Arias-Giraldo LF, Busnot S, Roucaute M, and Pérès G

Subjects

Agriculture, Ascomycota, Biodiversity, Crop Production, Grassland, Ecosystem, Soil

Abstract

The introduction of temporary grassland into an annual crop rotation is recognized to improve soil ecosystem services, and resulting legacies can be beneficial for the following crops. In this context, the aim of the present study was to evaluate legacy effects of introducing temporary grassland into an annual crop rotation on five ecosystem services (i) soil structure maintenance (aggregate stability), (ii) water regulation (saturated hydraulic conductivity), (iii) biodiversity conservation (microbial biomass and microbial metabolic activity, as well as microorganism, enchytraeid, springtail and earthworm communities), (iv) pathogen regulation (soil suppressiveness to Verticillium dahliae), and (v) forage production and quality. Three crop rotation schemes, maintained for twelve years, were compared in four random blocks, one being an annual crop rotation without grassland (0%), another with a medium percentage of grassland (50%, corresponding to 3 years of continuous grassland in the crop rotation), and a third one with a high percentage of grassland in the crop rotation (75%, corresponding to 6 years of continuous grassland in the crop rotation). The results showed that the grassland introduction into an annual crop rotation improved, whatever the duration of the grassland, soil structure maintenance and biodiversity conservation, while it decreased pathogen regulation and did not modify water regulation. Comparing the two crop rotations that included grassland, indicated a stronger beneficial grassland legacy effect for the higher proportion of grassland concerning soil structure maintenance and biodiversity conservation. By contrast, water regulation, pathogen regulation and forage production were not affected by the legacy of the 75% grassland during the rotation. Overall, our findings demonstrated the extent to which grassland legacies are affecting the current state of soil properties and possible ecosystem services provided. To improve ecosystem services, soil management should take legacy effects into account and consider longer timeframes to apply beneficial practices., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

53. Sound production in piranhas is associated with modifications of the spinal locomotor pattern.

Author

Banse M, Chagnaud BP, Huby A, Parmentier E, and Kéver L

Subjects

Animals, Electromyography, Locomotion, Motor Neurons, Muscles, Sound, Spinal Cord, Characiformes

Abstract

In piranhas, sounds are produced through the vibration of the swim bladder wall caused by the contraction of bilateral sonic muscles. Because they are solely innervated by spinal nerves, these muscles likely evolved from the locomotor hypaxial musculature. The transition from a neuromuscular system initially shaped for slow movements (locomotion) to a system that requires a high contraction rate (sound production) was accompanied with major peripheral structural modifications, yet the associated neural adjustments remain to this date unclear. To close this gap, we investigated the activity of both the locomotor and the sonic musculature using electromyography. The comparison between the activation patterns of both systems highlighted modifications of the neural motor pathway: (1) a transition from a bilateral alternating pattern to a synchronous activation pattern, (2) a switch from a slow- to a high-frequency regime, and (3) an increase in the synchrony of motor neuron activation. Furthermore, our results demonstrate that sound features correspond to the activity of the sonic muscles, as both the variation patterns of periods and amplitudes of sounds highly correspond to those seen in the sonic muscle electromyograms (EMGsonic). Assuming that the premotor network for sound production in piranhas is of spinal origin, our results show that the neural circuit associated with spinal motor neurons transitioned from the slow alternating pattern originally used for locomotion to a much faster simultaneous activation pattern to generate vocal signals., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2021. Published by The Company of Biologists Ltd.)

Published

2021

54. The development of hearing abilities in the shark Scyliorhinus canicula.

Author

Parmentier E, Banse M, Boistel R, Compère P, Bertucci F, and Colleye O

Subjects

Animals, Brain growth & development, Ear, Inner growth & development, Brain physiology, Dogfish physiology, Ear, Inner physiology, Hearing physiology

Abstract

The few works on audition in sharks and rays concern only adult specimens. We report the hearing abilities in the dogfish Scyliorhinus canicula at different stages, from embryos that still have their yolk sac inside their egg, to juveniles. Hearing development corresponds to an increase in the frequency range from 100-300 Hz in early pre-hatching stages to 100-600 Hz in juveniles. Modifications in hearing abilities correspond to the development of the brain, the increase of the volume of the membranous labyrinth, the growth of the sensory epithelium, and the development of stereocilia in addition to kinocilium before hatching. This work offers solid insights into the development of hearing abilities that usually can only be inferred from the anatomy of vertebrates or after birth/hatching. It shows also that shark can be sensitive to background noise during development., (© 2020 Anatomical Society.)

Published

2020

55. [Cost of dialysis].

Author

Banse M and Rose W

Subjects

Costs and Cost Analysis, Germany, East, Hospital Departments, Humans, Kidney Failure, Chronic therapy, Kidneys, Artificial, State Medicine, Renal Dialysis

Published

1976