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.
2018
Forfattere
Kaishan Song Zhidan Wen Yingxing Shang Hong Yang Lili Lyu Ge Liu Chong Fang Jia Du Ying ZhaoSammendrag
As a major fraction of carbon in inland waters, dissolved organic carbon (DOC) plays a crucial role incarbon cycling on a global scale. However, the quantity of DOC stored in lakes and reservoirs was notclear to date. In an attempt to examine the factors that determine the DOC storage in lakes and reservoirsacross China, we assembled a large database (measured 367 lakes, and meta-analyzed 102 lakes from fivelimnetic regions; measured 144 reservoirs, and meta-analyzed 272 reservoirs from 31 provincial units) ofDOC concentrations and water storages for lakes and reservoirs that are used to determine DOC storagein static inland waters. We found that DOC concentrations in saline waters (Mean/median ± S.D: 50.5/30.0 ± 55.97 mg/L) are much higher than those in fresh waters (8.1/5.9 ± 6.8 mg/L), while lake DOCconcentrations (25.9/11.5 ± 42.04 mg/L) are much higher than those in reservoirs (5.0/3.8 ± 4.5 mg/L). Interms of lake water volume and DOC storage, the Tibet-Qinghai lake region has the largest water volume(552.8 km3), 92% of which is saline waters, thus the largest DOC (13.39 Tg) is stored in these alpine lakeregion; followed by the Mengxin lake region, having a water volume of 99.4 km3in which 1.75 Tg DOCwas stored. Compared to Mengxin lake region, almost the same amount of water was stored in East Chinalake region (91.9 km3), however, much less DOC was stored in this region (0.43 Tg) due to the lower DOCconcentration (Ave: 3.45 ± 2.68 mg/L). According to our investigation, Yungui and Northeast lake regionshad water storages of 32.14 km3and 19.44 km3respectively, but relatively less DOC was stored in Yungui(0.13 Tg) than in Northeast lake region (0.19 Tg). Due to low DOC concentration in reservoirs, especiallythese large reservoirs having lower DOC concentration (V > 1.0 km3: 2.31 ± 1.48 mg/L), only 1.54 Tg wasstored in a 485.1 km3volume of water contained in reservoirs across the entire country.
Sammendrag
The forest understory is often associated with rapid rates of carbon and nutrient cycling, but cost-efficient quantification of its biomass remains challenging. We tested a new field technique for understory biomass assessment using an off-the-shelf handheld laser rangefinder. We conducted laser sampling in a pine forest with an understory dominated by invasive woody shrubs, especially Rhamnus frangula L. Laser sampling was conducted using a rangefinder, mounted on a monopod to provide a consistent reference height, and pointed vertically downward. Subsequently, the understory biomass was measured with destructive sampling. A series of metrics derived from the airborne LiDAR literature were evaluated alone and in combination for prediction of understory biomass using best-subsets regression. Resulting fits were good (r2 = 0.85 and 0.84 for the best single metric and best additive metric, respectively, and R2 = 0.93 for the best multivariate model). The results indicate that laser sampling could substantially reduce the need for costly destructive sampling within a double-sampling context.
Sammendrag
Xylella fastidiosa er en planteskadegjører som kan forårsake visnesyke i mange planteslag, bl.a. prunus og en lang rekke løvtrær og grøntanleggsplanter. Denne alvorlige planteskadegjøreren er aldri funnet i norge, men er de siste årene påvist i andre europeiske land, bl.a. er det et stort utbrudd i olivenplantinger i Sør-Italia. Det er hvert år betydelig import av vertplanter fra land hvor sykdommen er blitt påvist. I sesong 2017 mottok NIBIO 328 prøver fra 9 forskjellige land (inkludert norge) og 72 forskjellige vertplanter. Det ble ikke påvis smitte av Xylella fastidiosa i noen av prøvene.
Sammendrag
Bakterien Xanthomonas arboricola pv. pruni kan gi stor skade i planter av Prunus slekten, især plomme. Bakterien har ikke vært påvist i Norge før man begynte med systematisk kartlegging. Målsettingen for programmet i 2017 var å få mer kunnskap om utbredelse i Norge. Først og fremst skulle grøntanlegg med mye laurbærhegg og prydvarianter av kirsebær, plomme, fersken, aprikos og mandel undersøkes. Mattilsynet har organisert prøveuttaket. Det ble i 2017 totalt sendt inn 416 prøver for analyse, ingen av dem viste seg å inneholde smitte av bakterien Xanthomonas arboricola pv. pruni.
Forfattere
Jutta KapferSammendrag
Det er ikke registrert sammendrag
Forfattere
Jutta KapferSammendrag
Det er ikke registrert sammendrag
Forfattere
Anita SønstebySammendrag
Det er ikke registrert sammendrag
Forfattere
Anita SønstebySammendrag
Det er ikke registrert sammendrag
Forfattere
Gregor Kalinkat, Tea Ammunet Madeleine Barton Andrea Battisti Sanford D. Eigenbrode Jane Uhd Jepsen Philipp Lehmann Seppo Neuvonen Pekka Niemelä Bjørn Økland John s. Terblanche Christer BjörkmanSammendrag
Recently, Deutsch and colleagues(1) projected future increases in yield losses to insect pests of the three globally most important staple crops under different climate change scenarios. Their results are based on model simulations parameterized with thermal sensitivity analyses of population growth and metabolic rates from a geographically and functionally diverse set of insect species taken from an earlier study(2). A subset of the original data compilation was then used to estimate the direct impact of warming on insect fitness across latitudes(3). More precisely, the derived thermal-dependence of fitness for globally distributed terrestrial insect species was integrated with projected geographic distribution of climate change for the next century (3). These models were then deployed in the new study investigating potential yield losses in three specific crops(1). We submit that Deutsch and colleagues rely on inadequate empirical data for their model parameterization to estimate pest-related crop losses. Strikingly, their source data did not include major pest taxa of the focal staple crops and were not restricted to herbivores despite that temperature-dependence of metabolic and performance responses are known to vary substantially among trophic levels and functional groups(4,5). Hence, the inferences drawn by Deutsch and colleagues(1) may be unreliable. Mitigating potential climate change responses of pest organisms jeopardizing future food security can only be successful if they are based on high-quality information relevant to the crop system in question(6). References 1. C. A. Deutsch et al., Science. 361, 916–919 (2018). 2. M. R. Frazier, R. B. Huey, D. Berrigan, Am. Nat. 168, 512–520 (2006). 3. C. A. Deutsch et al., Proc. Natl. Acad. Sci. 105, 6668–6672 (2008). 4. A. I. Dell, S. Pawar, V. M. Savage, Proc. Natl. Acad. Sci. 108, 10591–10596 (2011). 5. A. I. Dell, S. Pawar, V. M. Savage, J. Anim. Ecol. 83, 70–84 (2014). 6. P. Lehmann et al., bioRxiv (2018), doi:10.1101/425488.
Forfattere
Nga Nguyen Marko Suokas Katja Karppinen Jaana Vuosku Laura Jaakola Hely HäggmanSammendrag
Bilberry (Vaccinium myrtillus L.) fruits are an excellent natural resource for human diet because of their special favor, taste and nutritional value as well as medical properties. Bilberries are recognized for their high anthocyanin content and many of the genes involved in the anthocyanin biosynthesis have been characterized. So far, neither genomic nor RNA-seq data have been available for the species. In the present study, we de novo sequenced two bilberry fruit developmental stages, unripe green (G) and ripening (R). A total of 57,919 unigenes were assembled of which 80.2% were annotated against six public protein databases. The transcriptome served as exploratory data to identify putative transcription factors related to fruit ripening. Diferentially expressed genes (DEGs) between G and R stages were prominently upregulated in R stage with the functional annotation indicating their main roles in active metabolism and catalysis. The unigenes encoding putative ripening-related regulatory genes, including members of NAC, WRKY, LOB, ERF, ARF and ABI families, were analysed by qRTPCR at fve bilberry developmental stages. Our de novo transcriptome database contributes to the understanding of the regulatory network associated with the fruit ripening in bilberry and provides the frst dataset for wild Vaccinium species acquired by NGS technology.