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.
2017
Abstract
This paper provides an overview of recent developments in remote and proximal sensing technologies and their basic applicability to various aspects of forest operations. It categorises these applications according to the technologies used and considers their deployment platform in terms of their being space-, airborne or terrestrial. For each combination of technology and application, a brief review of the state-of-the-art has been described from the literature, ranging from the measurement of forests and single trees, the derivation of landscape scale terrain models down to micro-topographic soil disturbance modelling, through infrastructure planning, construction and maintenance, to forest accessibility with ground and cable based harvesting systems. The review then goes on to discuss how these technologies and applications contribute to reducing impacts on forest soils, cultural heritage sites and other areas of special value or interest, after which sensors and methods necessary in autonomous navigation and the use of computer vision on forest machines are discussed. The review concludes that despite the many promising or demonstrated applications of remotely or proximately sensed data in forest operations, almost all are still experimental and have a range of issues that need to be addressed or improved upon before widespread operationalization can take place.
Authors
Lampros LamprinakisAbstract
No abstract has been registered
Authors
Biancha Cavicchi Sergio Palmieri Marco OdaldiAbstract
No abstract has been registered
Authors
Hong Yang Junqiang Xia Julian R. Thompson Roger J. FlowerAbstract
On December 20, 2015 at 11:40 am a landslide in one of China’s most advanced cities, Shenzhen, killed 73 people and damaged 33 buildings. In the absence of heavy rainfall or earthquakes, the landslide was an unexpected and profound shock to many people. According to China’s Ministry of Land and Resources, the landslide was triggered by the collapse of an enormous pile of construction and demolition waste (CDW). With China’s rapid urbanization, an increasing amount of CDW is being generated, especially in major cities. In total, China produces some 30% of the world’s municipal solid waste and of this about 40% is CDW. To prevent landslides associated with CDW, the volume of waste dumped in landfills should be regulated. More specifically 4-Rs (reduce, reuse, recycle and recover) policies should be implemented more widely and efficiently. Although landfill will continue to be an important disposal option, proper management and careful monitoring of CDW are urgently needed to satisfy pressing safety issues. International collaboration, sharing of knowledge, and use of the latest technologies are needed so that the similar landslides can be prevented in China and elsewhere.
Abstract
The world’s need for industrial wood is expected to greatly increase in coming decades. Somatic embryogenesis (SE) is a way in which an almost unlimited number of genetically identical plants (clones) can be produced from a single mother plant/seed, and it offers an effective way to convey the genetic gain obtained in breeding to the planting stock. As cultures or methods of SE, for example in Norway spruce (Picea abies), may become the subject of intellectual property rights (IPRs), a legal conflict may arise between the right holder and the rights of the general public covered by the Every man’s rights to freely sample, for example, forest genetic resources (FGRs). Various IPR systems may be relevant for the protection of SE material in forestry, but they possibly differ in how well sufficient genetic variation can be encompassed by protection claims. We therefore specifically advocate awareness of genetic variation in future SE-related IPR claims in forestry, and argue that process patents are most applicable. In face of the bioeconomy, it is mandatory to be aware of the possible conflicts between IPRs and rights of the public to FGRs, and the genetic variation of future IPR-protected SE material in forestry.
Authors
Robert Jankowiak Beata Strzałka Piotr Bilański Riikka Linnakoski Truls Aas Halvor Solheim Małgorzata Groszek Z. Wilhelm de BeerAbstract
Species of Leptographium are generally characterized by mononematous conidiophores and are commonly associated with bark beetles and weevils. These species are responsible for sapstain and in some cases serious diseases on a range of primarily coniferous trees. In comparison with coniferous trees, the occurrence of Leptographium species on hardwood trees has been poorly studied in Europe. During a survey of ophiostomatoid fungi on various tree species in Norway and Poland, three unusual species, which fit the broader morphological description of Leptographium spp., were found in association with Scolytus ratzeburgi, Dryocoetes alni and Trypodendron domesticum on a variety of hardwoods, and from wounds on Tilia cordata. Phylogenetic analyses of sequence data for three gene regions (ITS2-LSU, β-tubulin, and TEF1-α) showed that these Leptographium species are phylogenetically closely related to each other and form a well-supported lineage that included Grosmannia grandifoliae and Leptographium pruni. The first species could be distinguished from the other Leptographium species based on conidiophores arising from spiral hyphae, chlamydospore-like structures and a hyalorhinocladiella-like synanamorph in culture. The second species differs from the previous one by having distinctly shorter conidiophores and smaller conidia. This species also produces a well-developed sporothrix-like synanamorph with denticulate conidiogenous cells. Based on these unusual morphological characteristics and distinct DNA sequences, these fungi were recognised as new taxa for which the names Leptographium trypodendri sp. nov. and L. betulae sp. nov. are provided. The third group of isolates belonged to Grosmannia grandifoliae, representing the first report of this species outside of the USA. The newly defined G. grandifoliae complex is the first species complex in Leptographium s.l. consisting of only hardwood-infecting species.
Abstract
No abstract has been registered
Authors
Catherine Lecomte-Pradines Turid Hertel-Aas Claire Coutris Rodolphe Gilbin Deborah Helen Oughton Frederic AlonzoAbstract
Understanding how toxic contaminants affect wildlife species at various levels of biological organization (subcellular, histological, physiological, organism, and population levels) is a major research goal in both ecotoxicology and radioecology. A mechanistic understanding of the links between different observed perturbations is necessary to predict the consequences for survival, growth, and reproduction, which are critical for population dynamics. In this context, experimental and modeling studies were conducted using the nematode Caenorhabditis elegans. A chronic exposure to external gamma radiation was conducted under controlled conditions. Results showed that somatic growth and reproduction were reduced with increasing dose rate. Modeling was used to investigate whether radiation effects might be assessed using a mechanistic model based upon the dynamic energy budget (DEB) theory. A DEB theory in toxicology (DEB-tox), specially adapted to the case of gamma radiation, was developed. Modelling results demonstrated the suitability of DEB-tox for the analysis of radiotoxicity and suggested that external gamma radiation predominantly induced a direct reduction in reproductive capacity in C. elegans and produced an increase in costs for growth and maturation, resulting in a delay in growth and spawning observed at the highest tested dose rate.
Authors
Nina Veflen Oddveig Storstad Bendik Meling Samuelsen Solveig Langsrud Therese Hagtvedt Øydis Ueland Fredrik Alexander Gregersen Joachim ScholdererAbstract
No abstract has been registered
Authors
Sigridur Dalmannsdottir Marit Jørgensen Marcin Rapacz Liv Østrem Arild Larsen Rolf Rødven Odd Arne RognliAbstract
This is the peer reviewed version of the following article: Dalmannsdottir, S., Jørgensen, M., Rapacz, M., Østrem, L., Larsen, A., Rødven, R. & Rognli, O. A. (2017). Cold acclimation in warmer extended autumns impairs freezing tolerance of perennial ryegrass (Lolium perenne) and timothy (Phleum pratense). Physiologia Plantarum: An International Journal for Plant Biology, 160(3), 266-281, which has been published in final form at <a href=http://doi.org/10.1111/ppl.12548> http://doi.org/10.1111/ppl.12548.</a> This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-Archiving.