Publications
NIBIOs employees contribute to several hundred scientific articles and research reports every year. You can browse or search in our collection which contains references and links to these publications as well as other research and dissemination activities. The collection is continously updated with new and historical material.
2024
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Junbin ZhaoAbstract
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Erik J. JonerAbstract
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Ademir de Oliveira Ferreira João Carlos de Moraes Sá Rattan Lal Gabriel Barth Thiago Inagaki Daniel Ruiz Potma Gonçalves Clever Briedis Aline Roma Tomaz William Ramos da SilvaAbstract
Land management systems that comprise the principles of conservation agriculture (CA) can lead to soil organic carbon (SOC) gains over time. Nonetheless, how fertilization regimes interfere with their performance in highly weathered soils is still uncertain. This study presents results on SOC storage, crop yield, and soil resilience from a long-term experiment in southern Brazil (Ponta Grossa – Paraná State) 26 years after its establishment in 1989 combining a gradient of soil disturbance through diverse soil management strategies with contrasting fertilization regimes. We hypothesized that preserving soil structure rebuilt over time through no-till system plays a significant role in SOC persistence and the fertilization regime can impact land management performance on soil resilience and crop yield. The experimental design was laid out as a split plot through completely randomized blocks. The main plots comprised the treatments related to soil management systems: 1) conventional plow-based tillage – CT; 2) minimum tillage (Chiselling replacing plowing) – MT; 3) no-till with one chisel plowing every three years – NTch; and 4) continuous no-till system – NTS. The sub-plots comprised full crop fertilization (FCF) for all crops and low crop fertilization (LCF) by suppressing K and P fertilization and maintaining N in broadcast application. SOC stocks significantly improved as the soil disturbance diminished, resulting in higher soil resilience indexes for NTS and NTch. Differences in SOC stocks between the contrasting treatments NTS and CT were higher under low fertilization, resulting in C and N sequestration rates of 1.14 and 0.14 Mg ha−1 year−1 under LCF compared to 0.77 and 0.08 Mg ha−1 yr−1 in FCF at the 0–100 cm layer. Such higher differences were induced by overall higher SOC stocks of CT when under FCF and higher SOC stocks in subsoil depths promoted by NTS when under LCF. High fertilization treatments produced cumulative yields 1.5 times higher for soybeans and 2.5 times higher for corn throughout the 26 years of the experiment. Labile C fractions extracted by hot water (HWEOC) and K-permanganate (POXC) were systematically increased as the disturbance diminished. Gains in labile fractions were promoted in deeper layers in lower disturbance treatments (NTch and NTS). We conclude that combining conservation agriculture principles ultimately defined the potential for SOC sequestration. The high soil resilience under the NTS in this research indicates a considerable potential to reverse the soil degradation and decline of the SOC and labile fractions by conversion to intensive NTS (high and diversified annual C input) associated with absence of soil disturbance.
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The effect of climate change on mountain vegetation is influenced by environmental factors and site effects. To monitor the effect of climate change we therefore need to understand species' sensitivity to microclimate and environmental gradients. The objective of this study is to study widespread plant species' temporal and spatial variation along environmental and microclimate gradients in Norwegian mountains along a coast–inland gradient. Occurrence and abundance of plant species were surveyed in 110 study plots in four mountains at two points in time, seven years apart. Of the 222 plant species registered, Salix herbacea, Phyllodoce caerulea, Carex bigelowii, Juncus trifidus, Vaccinium myrtillus, Avenella flexuosa, and Empetrum nigrum were widespread across all mountains. These species responded differently to environmental and microclimate gradients, and abundance data were more sensitive than occurrence data. During the short time span we observed some indications of response which might support the assumption that boreal species outcompete alpine species in the forest transition zone, but our data do not indicate this effect at higher altitudes. Monitoring of climate change in mountains needs to include plots along environmental and microclimate gradients as well as an abundance of a set of widespread plant species that represent regional, local environmental, and climate gradients. However, when monitoring perennial plant species, the need for long-term monitoring projects is high because such species develop slowly over several decades.
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Inger MartinussenAbstract
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Authors
Ingeborg Klingen Nils Bjugstad Therese With Berge Krzysztof Kusnierek Hans Wilhelm Wedel-Jarlsberg Roger Holten Anette Sundbye Lene Sigsgaard Håvard Eikemo Kirsten Tørresen Valborg KvakkestadAbstract
Droner til bruk i plantevern i jord- og hagebruk er relativt nytt og i dette forprosjektet ønsket vi å etablere et kunnskapsgrunnlag for bærekraftig bruk av droner i norsk plantevern. Vi gjorde dette ved å: 1) Systematisere kunnskap om avdrift fra plantevernmidler fra sprøytedroner, 2) Gjennomføre et pilotstudie på en metode for å måle avdrift og avsetning av plantevernmidler utenfor målområdet fra sprøyte droner, 3) Skaffe kunnskap om eksponering av dronepilot for plantevernmidler, 4) Skaffe kunnskap om miljøeksponering inkludert rester av plantevernmidler i drone-sprøytede plantekulturer, 5) Skaffe kunnskap om bruk av droner i presis påføring av plantevernmidler, lavrisikostoffer og biologiske kontrollorganismer, 6) Øke vår kunnskap om forskrifter og standarder som kan påvirke bruken av droner i integrert plantevern i Norge. Basert på kunnskap gjort tilgjengelig i dette forprosjektet, foreslår vi videre studier som er nødvendig å utføre for å kunne bruke droner i integrert plantevern på en smart måte. Vårt håp er at resultatene fra dette forprosjektet vil gjøre det mulig å ta beslutninger om hvordan droner bør brukes i plantevern i Norge for å være i tråd med direktivet for bærekraftig bruk av plantevernmidler (Direktiv 2009/128/EF). Det er spesielt målgrupper som bønder, landbruksrådgivningstjenester, agroindustri, forskere, nasjonale statlige organer som Mattilsynet og lovgivere som kan tenkes å ha nytte av å lese denne rapporten.