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Title Authors PubMed ID
1 Mechanochemistry for Metal-Organic Frameworks and Covalent-Organic Frameworks (MOFs, COFs): Methods, Materials, and Mechanisms Marrett JM; Effaty F; Ottenwaelder X; Frišcic T; 40708349
CHEMBIOCHEM
2 Revealing the Freezing-Induced Alteration in Microplastic Behavior and Its Implication for the Microplastics Released from Seasonal Ice Chen Z; Elektorowicz M; An C; Tian X; Wang Z; Yang X; Lyu L; 39031076
ENCS
3 Surviving chlorinated waters: bleaching sensitivity and persistence of free-living amoebae Zahid MT; Mustafa G; Sajid R; Razzaq A; Waheed M; Khan MA; Hwang JH; Park YK; Chung WJ; Jeon BH; 39017868
ENCS
4 Who Should Decide How Machines Make Morally Laden Decisions? Dominic Martin 27905083
JMSB
5 Non-invasive paper-based sensors containing rare-earth-doped nanoparticles for the detection of D-glucose López-Peña G; Ortiz-Mansilla E; Arranz A; Bogdan N; Manso-Silván M; Martín Rodríguez E; 38729020
CHEMBIOCHEM
6 Spending Money in Free-to-Play Games: Sociodemographic Characteristics, Motives, Impulsivity and Internet Gaming Disorder Specificities Costes JM; Bonnaire C; 36497782
CONCORDIA
7 A Synthetic Biosensor for Detecting Putrescine in Beef Samples Selim AS; Perry JM; Nasr MA; Pimprikar JM; Shih SCC; 36356104
BIOLOGY
8 Cold region data accessibility portal for Québec (CRDAP-QC): An integrated, multi-variable and multi-scale data repository for studying cold-region hydrological processes in Québec Nazemi A; Jiwa S; Hatami S; 35637887
ENCS
9 Neural evidence for age-related deficits in the representation of state spaces Ruel A; Bolenz F; Li SC; Fischer A; Eppinger B; 35510942
PERFORM
10 A Proposed Multi-Criteria Optimization Approach to Enhance Clinical Outcomes Evaluation for Diabetes Care: A Commentary Wan TTH; Matthews S; Luh H; Zeng Y; Wang Z; Yang L; 35372638
ENCS
11 Structure-Based Virtual Screening Reveals Ibrutinib and Zanubrutinib as Potential Repurposed Drugs against COVID-19 Kaliamurthi S; Selvaraj G; Selvaraj C; Singh SK; Wei DQ; Peslherbe GH; 34209188
CHEMBIOCHEM
12 Late-spring frost risk between 1959 and 2017 decreased in North America but increased in Europe and Asia. Zohner CM, Mo L, Renner SS, Svenning JC, Vitasse Y, Benito BM, Ordonez A, Baumgarten F, Bastin JF, Sebald V, Reich PB, Liang J, Nabuurs GJ, de-Miguel S, Alberti G, Antón-Fernández C, Balazy R, Brändli UB, Chen HYH, Chisholm C, Cienciala E, Dayanandan S, Fayle TM, Frizzera L, Gianelle D, Jagodzinski AM, Jaroszewicz B, Jucker T, Kepfer-Rojas S, Khan ML, Kim HS, Korjus H, Johannsen VK, Laarmann D, Lang M, Zawila-Niedzwiecki T, Niklaus PA, Paquette A, Pretzsch H, Saikia P, Schall P, Šeben V, Svoboda M, Tikhonova E, Viana H, Zhang C, Zhao X, Crowther TW 32393624
BIOLOGY
13 Drude polarizable force field for cation-π interactions of alkali and quaternary ammonium ions with aromatic amino acid side chains Orabi EA; Davis RL; Lamoureux G; 31652004
CERMM
14 Metacontrol of decision-making strategies in human aging. Bolenz F, Kool W, Reiter AM, Eppinger B 31397670
PERFORM
15 Start-up of oxygen-limited autotrophic partial nitrification-anammox process for treatment of nitrite-free wastewater in a single-stage hybrid bioreactor. Hosseinpour B, Saborimanesh N, Yerushalmi L, Walsh D, Mulligan CN 31378146
CSFG
16 Differences in MEG and EEG power-law scaling explained by a coupling between spatial coherence and frequency: a simulation study. Bénar CG, Grova C, Jirsa VK, Lina JM 31292816
PERFORM
17 Proteomic Analysis of Morphologically Changed Tissues after Prolonged Dexamethasone Treatment Malkawi AK; Masood A; Shinwari Z; Jacob M; Benabdelkamel H; Matic G; Almuhanna F; Dasouki M; Alaiya AA; Rahman AMA; 31247941
CHEMBIOCHEM
18 Ideal despotic distributions in convict cichlids (Amatitlania nigrofasciata)? Effects of predation risk and personality on habitat preference. Church KDW, Grant JWA 30529688
BIOLOGY

 

Title:Late-spring frost risk between 1959 and 2017 decreased in North America but increased in Europe and Asia.
Authors:Zohner CMMo LRenner SSSvenning JCVitasse YBenito BMOrdonez ABaumgarten FBastin JFSebald VReich PBLiang JNabuurs GJde-Miguel SAlberti GAntón-Fernández CBalazy RBrändli UBChen HYHChisholm CCienciala EDayanandan SFayle TMFrizzera LGianelle DJagodzinski AMJaroszewicz BJucker TKepfer-Rojas SKhan MLKim HSKorjus HJohannsen VKLaarmann DLang MZawila-Niedzwiecki TNiklaus PAPaquette APretzsch HSaikia PSchall PŠeben VSvoboda MTikhonova EViana HZhang CZhao XCrowther TW
Link:https://www.ncbi.nlm.nih.gov/pubmed/32393624
DOI:10.1073/pnas.1920816117
Publication:Proceedings of the National Academy of Sciences of the United States of America
Keywords:climate changefreezing damagelate frostphenologyspring leaf-out
PMID:32393624 Category:Proc Natl Acad Sci U S A Date Added:2020-05-13
Dept Affiliation: BIOLOGY
1 Institute of Integrative Biology, ETH Zurich (Swiss Federal Institute of Technology), 8092 Zurich, Switzerland; constantin.zohner@t-online.de.
2 Institute of Integrative Biology, ETH Zurich (Swiss Federal Institute of Technology), 8092 Zurich, Switzerland.
3 Systematic Botany and Mycology, Department of Biology, Ludwig Maximilian University of Munich, 80638 Munich, Germany.
4 Center for Biodiversity Dynamics in a Changing World (BIOCHANGE), Department of Biology, Aarhus University, DK-8000 Aarhus C, Denmark.
5 Section for Ecoinformatics and Biodiversity, Department of Biology, Aarhus University, DK-8000 Aarhus C, Denmark.
6 Swiss Federal Institute for Forest, Snow and Landscape Research WSL, CH-8903 Birmensdorf, Switzerland.
7 Department of Biological Sciences, University of Bergen, 5020 Bergen, Norway.
8 Copernicus Institute of Sustainable Development, University of Utrecht, 3584 CS Utrecht, The Netherlands.
9 Computational and Applied Vegetation Ecology Lab, Department of Applied Ecology and Environmental Biology, Faculty of Bioscience Engineering, Ghent University, Ghent 9000, Belgium.
10 Department of Forest Resources, University of Minnesota, St. Paul, MN 55108.
11 Hawkesbury Institute for the Environment, Western Sydney University, Penrith NSW 2753, Australia.
12 Lab of Forest Advanced Computing and Artificial Intelligence, Department of Forestry and Natural Resources, Purdue University, West Lafayette, IN 47907.
13 Wageningen Environmental Research, Wageningen University and Research, 6700AA, Wageningen, The Netherlands.
14 Forest Ecology and Forest Management, Wageningen University and Research, 6700AA, Wageningen, The Netherlands.
15 Department of Crop and Forest Sciences, University of Lleida, E25198 Lleida, Spain.
16 Joint Research Unit, Forest Science and Technology Centre of Catalonia CTFC-Centre for Research in Agrotechnology, E25280, Solsona, Spain.
17 Department of Agricultural, Food, Environmental and Animal Sciences, University of Udine, 33100 Udine, Italy.
18 Institute of BioEconomy, National Research Council, 50019 Florence, Italy.
19 Division of Forestry and Forest Resources NIBIO, Norwegian Institute of Bioeconomy Research, NO-1431 Ås, Norway.
20 Department of Geomatics, Forest Research Institute, Sekocin Stary, 05-090 Raszyn, Poland.
21 Swiss National Forest Inventory, Swiss Federal Institute for Forest, Snow and Landscape Research WSL, CH-8903 Birmensdorf, Switzerland.
22 Faculty of Natural Resources Management, Lakehead University, Thunder Bay, ON P7B 5E1, Canada.
23 Key Laboratory for Humid Subtropical Eco-geographical Processes of the Ministry of Education, School of Geographical Sciences, Fujian Normal University, 350117 Fujian, China.
24 Institute of Forest Ecosystem Research IFER, CZ 254 01 Jilove u Prahy, Czech Republic.
25 Global Change Research Institute, Czech Academy of Sciences, CZ 603 00 Brno, Czech Republic.
26 Centre for Structural and Functional Genomics, Biology Department, Concordia University, Montreal, QC H4B 1R6, Canada.
27 Quebec Centre for Biodiversity Science, Biology Department, Concordia University, Montreal, QC H4B 1R6, Canada.
28 Biology Centre of the Czech Academy of Sciences, Institute of Entomology, 370 05 Ceske Budejovice, Czech Republic.
29 Institute for Tropical Biology and Conservation, Universiti Malaysia Sabah, 88400 Kota Kinabalu, Sabah, Malaysia.

Description:

Late-spring frosts (LSFs) affect the performance of plants and animals across the world's temperate and boreal zones, but despite their ecological and economic impact on agriculture and forestry, the geographic distribution and evolutionary impact of these frost events are poorly understood. Here, we analyze LSFs between 1959 and 2017 and the resistance strategies of Northern Hemisphere woody species to infer trees' adaptations for minimizing frost damage to their leaves and to forecast forest vulnerability under the ongoing changes in frost frequencies. Trait values on leaf-out and leaf-freezing resistance come from up to 1,500 temperate and boreal woody species cultivated in common gardens. We find that areas in which LSFs are common, such as eastern North America, harbor tree species with cautious (late-leafing) leaf-out strategies. Areas in which LSFs used to be unlikely, such as broad-leaved forests and shrublands in Europe and Asia, instead harbor opportunistic tree species (quickly reacting to warming air temperatures). LSFs in the latter regions are currently increasing, and given species' innate resistance strategies, we estimate that ~35% of the European and ~26% of the Asian temperate forest area, but only ~10% of the North American, will experience increasing late-frost damage in the future. Our findings reveal region-specific changes in the spring-frost risk that can inform decision-making in land management, forestry, agriculture, and insurance policy.

PMID: 32393624 [PubMed - indexed for MEDLINE]




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