Publikasjoner
NIBIOs ansatte publiserer flere hundre vitenskapelige artikler og forskningsrapporter hvert år. Her finner du referanser og lenker til publikasjoner og andre forsknings- og formidlingsaktiviteter. Samlingen oppdateres løpende med både nytt og historisk materiale. For mer informasjon om NIBIOs publikasjoner, besøk NIBIOs bibliotek.
2023
Sammendrag
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Forfattere
Marleen Pallandt Bernhard Ahrens Marion Schrumpf Holger Lange Sönke Zaehle Markus ReichsteinSammendrag
Soil organic carbon (SOC) is the largest terrestrial carbon pool, but it is still uncertain how it will respond to climate change. Especially the fate of SOC due to concurrent changes in soil temperature and moisture is uncertain. It is generally accepted that microbially driven SOC decomposition will increase with warming, provided that sufficient soil moisture, and hence enough C substrate, is available for microbial decomposition. We use a mechanistic, microbially explicit SOC decomposition model, the Jena Soil Model (JSM), and focus on the depolymerization of litter and microbial residues by microbes. These model processes are sensitive to temperature and soil moisture content and follow reverse Michaelis-Menten kinetics. Microbial decomposition rate V of the substrate [S] is limited by the microbial biomass [B]: V = Vmax * [S] * [B]/(kMB + [B]). The maximum reaction velocity, Vmax, is temperature sensitive and follows an Arrhenius function. Also, a positive correlation between temperature and kMB-values of different enzymes has been empirically shown, with Q10 values ranging from 0.71-2.80 (Allison et al., 2018). Q10 kMB-values for microbial depolymerization of microbial residues would be low compared to those of a (lignified) litter pool. An increase in kMB leads to a lower reaction velocity (V) and V becomes less temperature sensitive at low substrate concentrations. In this work we focus on the following questions: “how do temperature and soil moisture changes affect modelled heterotrophic respiration through the Michaelis-Menten term? Is there a temperature compensation effect on modelled decomposition rate because of the counteracting temperature sensitivities of Vmax and kMB?” We model these interactions under a mean warming experiment (+3.5 °K) as well as three soil moisture experiments: constant soil moisture, a drought, and a wetting scenario.
Sammendrag
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Forfattere
Magni Olsen Kyrkjeeide Marianne Evju Kristin Magnussen Øyvind Nystad Handberg Vegar Bakkestuen Tor Erik Brandrud Harald Bratli Børre Kind Dervo Nina Elisabeth Eide Anders Endrestøl Marie-Pierre Gosselin Oddvar Hanssen Rannveig Margrete Jacobsen Stein Ivar Johnsen Bjørn Mejdell Larsen Anders Lyngstad Marit Mjelde Bård Gunnar Stokke Ellen Johanne Svalheim Liv Guri Velle Dag-Inge Øien Aljoscha Schöpfer Lars Martin HauglandSammendrag
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Forfattere
Bjarne Bjerg Peter Demeyer Julien Hoyaux Mislav Didara Juha Grönroos Melynda Hassouna Barbara Amon Thomas Bartzanas Renáta Sándor Micheal Fogarty Sivan Klas Stefano Schiavon Violeta Juskiene Miroslav Kjosevski George Attard André Aarnink Vibeke Lind Tadeusz Kuczynski David Fangueiro Monica Paula Marin Stefan Mihina Jože Verbič Salvador Calvet Knut-Håkan Jeppsson Harald Menzi Özge Sizmaz Tomas Norton Biljana Rogic Stepan Nosek Olga Frolova Günther Schauberger Nigel PenlingtonSammendrag
This chapter gathers information about the current legal requirements related to the emission of ammonia from animal housing in 24 out of the 27 EU countries and in 7 non-EU countries. Overall, the chapter shows that most of the included countries have established substantial procedures to limit ammonia emission and practically no procedures to limit greenhouse gas emission. The review can also be seen as an introduction to the substantial initiatives and decisions taken by the EU in relation to ammonia emission from animal housing, and as a notification on the absence of corresponding initiatives and decisions in relation to greenhouse gases. An EU directive on industrial emissions from 2010 and an implementation decision from 2017 are the main general instruments to reduce ammonia emission from animal housing in the EU. These treaties put limits to ammonia emissions from installations with more than 2000 places for fattening pigs, with more than 750 places for sows, and with more than 40,000 places for poultry. As an example, the upper general limit for fattening pigs is 2.6 kg ammonia per animal place per year. This chapter indicates that the important animal producing countries in the EU as well as United Kingdom have implemented the EU requirements and that a few countries including the Flemish part of Belgium, Denmark, the Netherlands, Slovakia, and Spain have introduced even stricter requirements.
Forfattere
Emmanuel Oladeji Alamu Michael Adesokan Segun Fawole Busie Maziya-Dixon Mehreteab Tesfai David ChikoyeSammendrag
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Forfattere
Haruna Sekabira Ghislain Tchoromi Tepa-Yotto Arnaud R. M. Ahouandjinou Karl Thunes Barry Pittendrigh Yusuf Kaweesa Manuele TamòSammendrag
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Forfattere
Julie Sørlie Paus-Knudsen Henrik Andersen Sveinsson Merete Grung Katrine Borgå Anders NielsenSammendrag
Bumblebees carry out the complex task of foraging to provide for their colonies. They also conduct pollination, an ecosystem service of high importance to both wild plants and entomophilous crops. Insecticides can alter different aspects of bumblebee foraging behavior, including the motivation to leave the hive, finding the right flowers, handling flowers, and the ability to return to the colony. In the present study, we assessed how the neonicotinoid imidacloprid affects bumblebees' foraging behavior after exposure to four different treatment levels, including field-realistic concentrations (0 [control], 1, 10, and 100 μg/L), through sucrose solution over 9 days. We observed the behavior of several free-flying bumblebees simultaneously foraging on artificial flowers in a flight arena to register the bees' complex behavior postexposure. To conduct a detailed assessment of how insecticides affect bumblebee locomotor behavior, we used video cameras and analyzed the recordings using computer vision. We found that imidacloprid impaired learning and locomotor activity level when the bumblebees foraged on artificial flowers. We also found that imidacloprid exposure reduced sucrose solution intake and storage. By using automated analyses of video recordings of bumblebee behavior, we identified sublethal effects of imidacloprid exposure at field-realistic doses. Specifically, we observed negative impacts on consumption of sucrose solution as well as on learning and locomotor activity level. Our results highlight the need for more multimodal approaches when assessing the sublethal effects of insecticides and plant protection products in general.
Forfattere
Mathias Amundsen Laura Jaakola Kjersti Aaby Inger Martinussen N. Kelanne S. Tuominen O. Laaksonen B. Yang Anne Linn HykkerudSammendrag
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Forfattere
Luís F.J. Almeida Ivan F. Souza Luís C.C. Hurtarte Pedro P.C. Teixeira Thiago Inagaki Ivo R. Silva Carsten W. MuellerSammendrag
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