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
Forest tree breeding must undergo significant revisions to adapt to the evolving challenges posed by climate change. Addressing the shifts in environmental conditions requires a comprehensive multidisciplinary approach that includes theoretical work and practical application. Specifically, there is a need to focus on developing new breeding strategies that are theoretically sound and practically feasible, considering the economic constraints of actual tree breeding programs. We present a novel concept utilizing genetic evaluation of multiple traits in forest stands of successive ages across wide ecological ranges. Incorporating genomics allows for detailed genetic evaluation, making use of high-density SNP markers and sophisticated algorithms like GBLUP for genetic parameter estimates. High-throughput phenotyping is conducted using drone-borne lidar technology to capture tree height and survival data across various forest stands. Assisted migration is considered to strategically position genotypes across predicted environmental climatic gradients, thereby accommodating the dynamic nature of ecological shifts. Mathematical optimization acts as an essential component for logistics, guiding the spatial allocation and timely substitution of genotypes to ensure a continually adaptive breeding program. The concept replaces distinct breeding cycles with continuous evaluation and selection, enhancing the rate of genetic response over time.
Forfattere
Natthidech Beesa Buncha Chinnasri Anongnuch Sasnarukkit Tida Dethoup Kansiree Jindapunnapat Agnes W. Kiriga Kanan Saikai Solveig Haukeland Danny CoyneSammendrag
The legume cavalcade, Centrosema pascuorum, is used extensively as a cover crop and as a component of conservation agriculture systems. It is also an attractive rotation or cover crop for the management of root-knot nematodes (RKN; Meloidogyne spp.) as it is a non-host. RKN are persistent pests that are well known to be difficult to control. However, the mechanisms governing the non-host status of cavalcade is unknown. The current study established that cavalcade leaves are toxic to RKN as either aqueous extracts or soil amendments. Bioassays conducted using Meloidogyne javanica showed that a 90% concentration of aqueous extract derived from 1-month-old cavalcade leaves (89 mg crude extract ml−1) suppressed nematode hatch (82.9%) and killed infective second-stage juveniles of M. javanica (85.3%). Soil amendments with 1% (w/w) of 1-month-old cavalcade leaves (0.99 mg crude extract g−1 soil) also provided effective control of M. javanica in the glasshouse on okra. One-month-old leaves appeared more effective than 2- or 3-month-old leaves. The soil amendments had no adverse phytotoxic effect on okra seed germination. Our study demonstrates the potential for using cavalcade leaves or extracts to manage RKN. This may be due to the nematicidal activity of the various compounds in the leaves, such as flavonoids, phenols and terpenoids, which should be further assessed.
Forfattere
Taavi Riit Michelle Cleary Kalev Adamson Mimmi Blomquist Daiva Burokienė Diana Marčiulynienė Jonàs Oliva Anna Poimala Miguel Angel Redondo Gunn Strømeng Venche Talgø Leho Tedersoo Iben Margrete Thomsen Anne Uimari Johanna Witzell Rein DrenkhanSammendrag
Det er ikke registrert sammendrag
Forfattere
Budiman Minasny Diana Vigah Adetsu Matt Aitkenhead Rebekka R. E. Artz Nikki Baggaley Alexandra Barthelmes Amélie Beucher Jean Caron Giulia Conchedda John Connolly Raphaël Deragon Chris Evans Kjetil Fadnes Dian Fiantis Zisis Gagkas Louis Gilet Alessandro Gimona Stephan Glatzel Mogens H. Greve Wahaj Habib Kristell Hergoualc’h Cecilie Hermansen Darren B. Kidd Triven Koganti Dianna Kopansky David J. Large Tuula Larmola Allan Lilly Haojie Liu Matthew Marcus Maarit Middleton Keith Morrison Rasmus Jes Petersen Tristan Quaife Line Rochefort NN Rudiyanto Linda Toca Francesco N. Tubiello Peter Lystbæk Weber Simon Weldon Wirastuti Widyatmanti Jenny Williamson Dominik ZakSammendrag
Peatlands cover only 3–4% of the Earth’s surface, but they store nearly 30% of global soil carbon stock. This significant carbon store is under threat as peatlands continue to be degraded at alarming rates around the world. It has prompted countries worldwide to establish regulations to conserve and reduce emissions from this carbon rich ecosystem. For example, the EU has implemented new rules that mandate sustainable management of peatlands, critical to reaching the goal of carbon neutrality by 2050. However, a lack of information on the extent and condition of peatlands has hindered the development of national policies and restoration efforts. This paper reviews the current state of knowledge on mapping and monitoring peatlands from field sites to the globe and identifies areas where further research is needed. It presents an overview of the different methodologies used to map peatlands in nine countries, which vary in definition of peat soil and peatland, mapping coverage, and mapping detail. Whereas mapping peatlands across the world with only one approach is hardly possible, the paper highlights the need for more consistent approaches within regions having comparable peatland types and climates to inform their protection and urgent restoration. The review further summarises various approaches used for monitoring peatland conditions and functions. These include monitoring at the plot scale for degree of humification and stoichiometric ratio, and proximal sensing such as gamma radiometrics and electromagnetic induction at the field to landscape scale for mapping peat thickness and identifying hotspots for greenhouse gas (GHG) emissions. Remote sensing techniques with passive and active sensors at regional to national scale can help in monitoring subsidence rate, water table, peat moisture, landslides, and GHG emissions. Although the use of water table depth as a proxy for interannual GHG emissions from peatlands has been well established, there is no single remote sensing method or data product yet that has been verified beyond local or regional scales. Broader land-use change and fire monitoring at a global scale may further assist national GHG inventory reporting. Monitoring of peatland conditions to evaluate the success of individual restoration schemes still requires field work to assess local proxies combined with remote sensing and modeling. Long-term monitoring is necessary to draw valid conclusions on revegetation outcomes and associated GHG emissions in rewetted peatlands, as their dynamics are not fully understood at the site level. Monitoring vegetation development and hydrology of restored peatlands is needed as a proxy to assess the return of water and changes in nutrient cycling and biodiversity.
Sammendrag
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Sammendrag
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Forfattere
Ludmila Sromek Eeva Ylinen Mervi Kunnasranta Simo Maduna Tuula Sinisalo Craig T. Michell Kit M. Kovacs Christian Lydersen Evgeny Ieshko Elena Andrievskaya Vyacheslav Alexeev Sonja Leidenberger Snorre Hagen Tommi NymanSammendrag
Det er ikke registrert sammendrag
Forfattere
Mireia Pecurul-Botines Laura Secco Laura Bouriaud Alex Giurca Maria Brockhaus Vilis Brukas Marjanke Hoogstra-Klein Agata Konczal Lenka Marcinekova Krzysztof Niedzialkowski Knut Øistad Špela Pezdevšek Malovrh Niina Pietarinen Jeanne-Lazya Roux Bernhard Wolfslehner Georg WinkelSammendrag
What is at stake? The new Forest Strategy for 2030 for the European Union (EU) was adopted in July 2021, creating a new drive for forest policymaking on an EU level. Its main reference is the European Green Deal that puts forests in the light of a decarbonised society until 2050, and emphasises carbon sequestration, biodiversity protection, and forest restoration. The strategy aims to improve the quality and quantity of EU forests, enhance their multifunctionality and resilience, and address challenges linked to the increasing strain on forests through human activities and natural processes, including climate change. The Strategy’s priorities include: 1. supporting the socio-economic forest functions and boosting bioeconomy within its sustainability boundaries; 2. protecting, restoring and enlarging forests in the EU; 3. ensuring a strategic forest monitoring, reporting and data collection and 4. encouraging dialogue and stakeholder engagement. Compared to earlier versions, the new EU Forest Strategy has become more concrete and comprehensive in its vision and tries to tie in different objectives of the plethora of EU forest-related policies (such as e.g., bioeconomy enhancement, biodiversity protection, climate mitigation and adaptation etc.). The implementation of the new EU Forest Strategy and meeting its goals has therefore potentially larger implications for national authorities than earlier ones, through its stronger embedding in the overall political framework of the EU, although the Strategy as such is not legally binding. What are the study’s aims? This study assesses whether and to what extent national and regional policy developments meet the EU Forest Strategy goals. It analyses those policies in 15 countries in and outside the EU, as well as in three regions in Spain. The countries are: Austria (AT), Czech Republic (CZ), Finland (FI), Germany (DE), Ireland (IE), Italy (IT), Lithuania (LT), the Netherlands (NL), Norway (NO), Poland (PL), Romania (RO), Slovakia (SK), Slovenia (SI), Spain (ES), and Sweden (SE). Although not a member of the EU, Norway was included into this study as it is closely related through the EEA agreement and a bilateral agreement on cooperation with the EU to fulfil the 2030 climate target. What patterns emerge? There is a striking diversity of socio-economic, environmental and political settings for forests and forestry in Europe and even within countries, which affect the impact of the Forest Strategy. Differences related to both ecological site conditions (determining the type of forest), basic socioeconomic factors (such as ownership), societal demands and needs as well as private sector interests, and urban or rural forest settings determine past and current forest governance and management practices in European countries. At the same time, there are common issues for forest governance and management across Europe, relating to: • a considerable divide of forestry and conservation interests found in all studied countries; • the increasing impact of climate change and related forest disturbances (with regionally different consequences for forests and forestry); and • the embeddedness of European forest governance and markets within larger structures, for example related to (global) energy and resource trade and investment patterns. Other patterns relate to ‘silences’ in member states’ policies, e.g., missing references to forest-sector specific internal threats to biodiversity, as well as to the risk (and reality) of conversion of old growth forests, or missing action and strategies to collect data that is not (yet) part of ‘traditional’ monitoring and reporting activities and systems. ...........................
Forfattere
Erling MeisingsetSammendrag
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Forfattere
Erling MeisingsetSammendrag
Det er ikke registrert sammendrag