{"id":20,"date":"2012-07-23T20:20:59","date_gmt":"2012-07-23T20:20:59","guid":{"rendered":"http:\/\/portfolio-pre.uqac.ca\/gabarit\/?page_id=20"},"modified":"2026-03-30T06:50:32","modified_gmt":"2026-03-30T10:50:32","slug":"publications","status":"publish","type":"page","link":"https:\/\/portfolio.uqac.ca\/sergiorossi\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

Click here<\/a>\u00a0to download the papers from the University’s library<\/p>\n

In press<\/strong><\/p>\n

Wang C, Fang K, Zhou F, Gao J, Rossi R, Liu J, Dong Z, Azorin-Molina C, Lin S, Camarero JJ, Wu P, Wu H, Linderholm HW, Mei Z, Altman J. Enhanced tropical cyclone precipitation variability is linked to Pacific Decadal Oscillation since the 1940s. Communication Earth & Environment<\/p>\n

2026<\/strong><\/p>\n

Alano Bonacini D, Mura C, Dyola N, Silvestro R, Raymond P, Rossi S (2026) Impacts of an early spring warming on budbreak of two sugar maple (Acer saccharum Marsh.) provenances. Journal of Forestry Research 37:65<\/p>\n

Barbier L, Lemay M-A, Boucher \u00c9, Rossi S, Gennaretti F (2026) Modeling eccentric growth explicitly to investigate intra-annual drivers of xylem cell production using xylogenetic data. Forest Ecosystems 15:100413<\/p>\n

Dyola N, Silvestro R, Rossi S (2026) The vacuum system increases maple sap yield without extending the sugar season. Trees, Forest & People 24:101169<\/p>\n

Klisz M, Battipaglia G, L\u00e9vesque M, Rossi S (2026) Editorial: Climate adaptations and challenges of non-native tree species in forest ecosystems. Frontiers in Plant Science 17:1768503<\/p>\n

Lin J, Rathgeber C, Fonti P, Rossi S, Cuny H, Castillo E, Cufar K, Camarero JJ, Giovannelli A, M\u00e4kinen H, Prislan P, Oberhuber W, Vavr\u010d\u00edk H, Huang J-G, Gruber A, Gryc V, Treml V, De Luis M, Gri\u010dar J, Delpierre N (2026) Temperature and photoperiod interactions influence the cessation of wood growth in three temperate and boreal conifers. Agricultural and Forest Meteorology 379:111056<\/p>\n

Wang C, Sylvain J-D, Silvestro R, Drolet G, Fang K, Rossi S (2026) The overlooked role of individual variability in autumn xylem phenology and carbon sequestration. Forest Ecosystems 15:100414<\/p>\n

2025<\/strong><\/p>\n

Almagro D, Martin-Benito D, Rossi S, Conde M, Fern\u00e1ndez de U\u00f1a L, Gea-Izquierdo G (2025) Long-term cambial phenology reveals diverging growth responses of two tree species in a mixed forest under climate change. Global Change Biology 31:e70503<\/p>\n

Bai C, Zhao W, Klisz M, Rossi S, Shen W, Guo X (2025) Growth rate and not growing season explains the increased productivity of masson pine in mixed stands. Plants 14:313<\/p>\n

Bhandari R, Silvestro R, Rossi S (2025) Decoding the seasonal clock of sugar maple: Timings and sequence of its phenological events. Trees, Forests & People 22:101020<\/p>\n

de Lima Santos G, Silvestro R, Sassamoto Kurokawa SY, de Lafontaine G, Rossi S (2025) Reassessing the schedule of the sugar season in maple under climate warming. Frontiers in Agronomy 6:1496255<\/p>\n

Deslauriers A, Benoit P, Balducci L, N\u00e9ron V, Guzman Marin R, Rossi S, Lavoie S, Isabel N (2025) Differentiating metabolic from functional trait effects on bud opening: comparing warming and defoliation on conifers. Plant Physiology 199:kiaf435<\/p>\n

Gao J, Fang K, Chen JM, Li J, Rossi S, Chen D, Linderholm HW, Camarero JJ, Esper J, Davi NK, Fung Au T, Gu Z (2025) Climate-driven patterns of global tree longevity. Communications Earth & Environment 6:610<\/p>\n

Gao J, Mura C, Sassamoto Kurokawa SY, Silvestro R, Rademacher T, Delagrange S, Fang K, Yang B, Rossi S (2025) Warmer spring advances bud phenology in sugar maple at its northern range limit. Journal of Forestry Research 36:100<\/p>\n

Garfa A, Silvestro R, Sassamoto Kurokawa SY, Rossi S, Deslauriers A, Lavoie S (2025) Sugar maple and red maple face-off: Which produces more sap and delivers the sweeter? Applied Sciences 15:1091<\/p>\n

He M, Sylvain J-D, Silvestro R, Drolet G, Arsenault R, Rossi S (2025) Xylogenesis under future climates: enhanced growth of balsam fir in a warming boreal forest. Frontiers in Plant Science 16:1563051<\/p>\n

Kumar A, Khare S, Rossi S (2025) PhenoAI: A deep learning Python framework to process close-range time-lapse Phenocam data. Ecological Informatics 88:103134<\/p>\n

Kumar A, Noolu GSS, Khare S, Rossi S (2025) A comparison of phenocam and satellite indices with in-situ observations for black spruce in the boreal forest of Quebec, Canada. Ecological Informatics 88:103137<\/p>\n

Kurokawa SYS, Silvestro R, Khan A, Santos GdL, Delagrange S, Rossi S (2025). The divergent advancements of sap phenology in maple under warming conditions can shorten the sugar season. Trees, Forests and People 19:100779<\/p>\n

Li X, Silvestro R, Liang E, Mencuccini M, Camarero JJ, Rathgeber CBK, Sylvain J-D, Nabais C, Giovannelli A, Saracino A, Saulino L, Guerrieri R, Gri\u010dar J, Prislan P, Peters RL, \u010cufar K, Yang B, Antonucci S, Babushkina E, Biondi F, Campelo F, Carrer M, De Luis, Deslauriers A, Drolet G, Fajstavr M, Fonti M, Fonti P, Garc\u00eda-Vald\u00e9s R, Gruber A, Gryc V, G\u00fcney A, Ka\u0161par J, Kirdyanov AV, Knorre AA, Lombardi F, M\u00e4kinen H, Malik RA, Martinez del Castillo E, N\u00f6jd P, Oberhuber W, Ouimette AP, Shishov V, Sukumar R, Tognetti R, Treml V, Vavr\u010d\u00edk H, Vieira J, Zeng Q, Ziaco E, Rossi S (2025) Warming increases the phenological mismatch between carbon sources and sinks in conifer forests of the Northern Hemisphere. Nature Climate Change 15: 1363-1370<\/p>\n

Lu X, Zheng X, Liang E, Piao S, Babst F, Elliott G, Sigdel SR, Wang T, Wang Y, Li X, Gao S, Zhang L, Sun J, Li J, Zhu H, Rossi S, Pe\u00f1uelas J, Camarero JJ (2025) Patterns, dynamics and drivers of alpine treelines and shrublines. Nature Reviews Earth & Environment 6:489-502<\/p>\n

McNulty H, Silvestro R, He M, Gennaretti F, Rossi S (2025) To flow or to grow? Impacts of tapping on sugar maple. Quantitative Plant Biology 6:e11<\/p>\n

Miolo G, De Diana E, Polverino de Laureto E, Realdon N, Rossi S, Rossi D (2025) Relationships between surface tensiometry properties and fluorescence intensity of dark and light exposed monoclonal antibody Nivolumab\/Opdivo\u00ae by using the contact angle method: A pilot study. Journal of Pharmaceutical Sciences 114:103823<\/p>\n

Mura C, Charrier G, Butt\u00f2 V, Delagrange S, Surget-Groba Y, Raymond P, Rossi S, Deslauriers A (2025) Local conditions have greater influence than provenance on sugar maple (Acer saccharum Marsh.) frost hardiness at its northern range limit. Tree Physiology 45:tpae167<\/p>\n

Mura C, Charrier G, Kovaleski AP, Raymond P, Deslauriers A, Rossi S (2025) Is it cold enough? Effects of artificial and natural chilling on budbreak and frost hardiness in Acer saccharum (Marsh.). Physiologia Plantarum 177:e70586<\/p>\n

Pompa-Garc\u00eda M, Vivar-Vivar ED, Acosta-Hern\u00e1ndez AC, Rossi S (2025) The transition of multispecies phenophases corresponds with NDVI drone data influenced by environmental variables. Forests 16:1118<\/p>\n

Ren P, Fang J, Song H, Silvestro R, Li X, Li Z, Wang Y, Rossi S (2025) Cell enlargement drives xylem hydraulic efficiency and safety in Pinus tabulaeformis on the Loess Plateau. Agricultural and Forest Meteorology 372:110724<\/p>\n

Saulino L, Garonna AP, Cardoso de Castro Rego FM, Rita A, Aquino A, Liuzzi G, Fornaro R, Pinelli E, Silvestro R, Rossi S, Saracino A (2025) Has the tortoise scale exacerbated fire severity in Mediterranean conifer forests? Fire Ecology 21:41<\/p>\n

Silvestro R, Deslauriers A, Prislan P, Rademacher T, Rezaei N, Richardson AD, Vitasse Y, Rossi S (2025) From roots to leaves: tree growth phenology in forest ecosystems. Current Forestry Reports 11:12<\/p>\n

Silvestro R, Rossi S, Berthiaume R, Bauce \u00c9, Rademacher T, Deslauriers A (2025) The impact of forest tent caterpillar defoliation on maple fitness and syrup production. Forest Ecology and Management 595:123011<\/p>\n

Scisci E, Ravaioli D, Rossi S, Guerrieri R (2025) L\u2019aumento artificiale della deposizione atmosferica di azoto non stimola l\u2019accrescimento di Picea mariana (Mill.) BSP nella foresta boreale canadese. Forest@ 22:18-26<\/p>\n

Wang C, Zheng Z, Gao J, Zhou F, Rossi S, Fang K (2025) Linking growth dynamics and intra-annual density fluctuations to last-summer precipitation in humid subtropical China. Frontiers in Plant Science 16:1568882<\/p>\n

Wang J, Hua H, Guo J, Qiu H, Huang X, Zhang X, Yang Y, Wang D, Guo X, Smith NG, Rossi S, Penuelas J, Ciais P, Wu C, Chen L (2025) Late spring frost delays tree spring phenology by reducing photosynthetic productivity. Nature Climate Change 15:201-209<\/p>\n

Yang T, Yang B, Wang S, Boucher \u00c9, Rossi S, Hermoso I, Osborn TJ (2025) Climate offsets CO2 increase as the main driver of tree growth in arid and semi-arid northern China. Journal of Geophysical Research \u2013 Atmospheres 130:e2025JD043318<\/p>\n

Zhang Y, Huang J-G, Wang M, Wang W, Yang F, Deslauriers A, Fonti P, Liang E, M\u00e4kinen H, Oberhuber W, Rathgeber CBK, Tognetti R, Treml V, Yang B, Zhai L, Antonucci S, Butt\u00f2 V, Camarero JJ, Campelo F, \u010cufar K, De Luis M, Fajstavr M, Giovannelli A, Gri\u010dar J, Gruber A, Gryc V, G\u00fcney V, Jyske T, Ka\u0161par J, King G, Krause C, Lemay A, Lombardi F, Mart\u00ednez del Castillo E, Morin H, Nabais C, N\u00f6jd P, Peters RL, Prislan P, Saracino A, Shishov VV, Swidrak I, Vavr\u010d\u00edk H, Vieira J, Zeng Q, Rossi S (2025) Soil nitrogen drives inverse acclimation of xylem growth cessation to rising temperature in Northern Hemisphere conifers. Proceedings of the National Academy of Sciences of the United States of America 122:e2421834122<\/p>\n

2024<\/strong><\/p>\n

Coelho-Silva D, Guimar\u00e3es ZTM, Podadera DS, Modolo GS, Rossi S, Ferreira MJ, Marcati CR (2024) Hydraulic and structural traits of trees across light gradients in the Amazon secondary forest. Tree Physiology 44:tpae146<\/p>\n

Danneyrolles V, Smetanka C, Fournier R, Boucher J, Guindon L, Waldron K, Bourdon J-F, Bonfils D, Beaudoin M, Ibarzabal J, Rossi S, Boucher Y (2024) Assessing spatial patterns of burn severity for guiding post-fire salvage logging in boreal forests of Eastern Canada. Forest Ecology and Management 556:121756<\/p>\n

Dyola N, Liang E, Penuelas J, Camarero JJ, Sigdel SR, Aryal S, Lin W, Liu X, Liu Y, Ding J, Sun J, Zhang G, Wang T, Xu X, Rossi S (2024) Linking leaf elemental traits to biomass across forest biomes in the Himalayas. Science China Earth Sciences 67:1518-1528<\/p>\n

Gao S, Liang E, Liu R, Lu X, Rossi S, Babst F, Leavitt S, Piao S, Pe\u00f1uelas J, Camarero JJ (2024) Shifts of forest resilience after seismic disturbances in tectonically active regions. Nature Geoscience 38:1443-1457<\/p>\n

Guzm\u00e1n Mar\u00edn R, He M, Rossi S, Gloria Rodr\u00edguez C, Urrutia Jalabert R, Lara A (2024) Growth decline and anatomical traits in Nothofagus dombeyi populations along a latitudinal gradient in the Andes, Chile. Trees 38:1443-1457<\/p>\n

Marquis B, Lamara M, Roy A, Rossi S, Bergeron Y, Godbout J, Aubin I, Perron M (2024) Spatio-temporal trends in the frost regime reveal late frost exposure to white spruce (Picea glauca [Moench] Voss) persists in northeastern America. Environmental Research: Climate 3:045020<\/p>\n

Li X, Li D, Li Z, Fu Y, Zhang J, Zhao Y, Wang Y, Liang E, Rossi S (2024) Drought limits vegetation carbon sequestration by affecting photosynthetic capacity of semi-arid ecosystems on the Loess Plateau. Science of the Total Environment 912:168778<\/p>\n

Niu Y, Bai Y, Rossi S (2024) Editorial: Vegetation-based degradation and restoration on the alpine grasslands of the Tibetan plateau. Frontiers in Plant Science 15:1467335<\/p>\n

Podadera DS, Balducci L, Rossi S, Carten\u00ec F, N\u00e9ron V, Saint-Amant R, Mazzoleni S, R\u00e9gni\u00e8re J, Moise E, Bowden JJ, Candau J-N, Dupont A, Amos-Binks L, Berthiaume R, Carleton D, Edwards S, Johns RC, McIntosh RL, Perreault P, Poniatowski B, Ross F, Undershultz M, Whitehouse C, Deslauriers A. (2024) Differential advances in budburst timing among black spruce, white spruce and balsam fir across Canada. Agricultural and Forest Meteorology 349:109950<\/p>\n

Sassamoto Kurokawa SY, Bhatt G, de Lima Santos G, Silvestro R, Delagrange S, Rossi S (2024) Measuring natural sap production in sugar maple at high temporal resolution. iForest 17:323-330<\/p>\n

Silvestro R, Mencuccini M, Garc\u00eda-Vald\u00e9s R, Antonucci S, Arzac A, Biondi F, Butt\u00f2 V, Camarero JJ, Campelo F, Cochard H, \u010cufar K, Cuny HE, De Luis M, Deslauriers A, Drolet G, Fonti MV, Fonti P, Giovannelli A, Gri\u010dar J, Gruber A, Gryc V, Guerrieri R, G\u00fcney A, Guo X, Huang J-G, Jyske T, Ka\u0161par J, Kirdyanov AV, Klein T, Lemay A, Li X, Liang E, Lintunen AM, Liu F, Lombardi F, Ma Q, M\u00e4kinen H, Malik RA, Martinez del Castillo E, Martinez-Vilalta J, Mayr S, Morin H, Nabais C, N\u00f6jd P, Oberhuber W, Olano JM, Ouimette AP, Paljakka TV, Peltoniemi M, Peters RL, Ping R, Prislan P, Rathgeber CBK, Sala A, Saracino A, Saulino L, Schiestl-Aalto P, Shishov V, Stokes A, Sukumar R, Sylvain J-D, Tognetti R, Treml T, Urban J, Vavr\u010d\u00edk H, Vieira J, von Arx G, Wang Y, Yang B, Qiao Z, Zhang S, Ziaco E, Rossi S (2024) Partial asynchrony of forest carbon sources and sinks at the intra-annual time scale. Nature Communications 15:6169<\/p>\n

Wang W, Huang J-G, Yang F, Zhou P, Wang Z, Rossi S (2024) Growth rate determines the superior xylem growth of Siberian spruce over Siberian larch in the southern Altai Mountains, northwest China. Trees 38:1049-1062<\/p>\n

Zhang Y, Huang J.-G., Wang M, Yu X, Deslauriers D, Fonti P, Liang E, M\u00e4kinen H, Oberhuber W, Rathgeber CBK, Tognetti R, Treml V, Yang B, Zhai L, Zhang JL, Antonucci S, Bergeron Y, Camarero JJ, Campelo F, \u010cufar K, Cuny HE, De Luis M, Fajstavr M, Giovannelli A, Gri\u010dar J, Gruber A, Gryc V, G\u00fcney A, Guo X, Jyske T, Ka\u0161par J, King G, Krause C, Lemay A, Liu F, Lombardi F, Ma Q, Martinez del Castillo E, Morin H, Nabais C, N\u00f6jd P, Peters RL, Prislan P, Saracino A, Shishov VV, Swidrak I, Vavr\u010d\u00edk H, Vieira J, Yu B, Zhang S, Zeng Q, Rossi S (2024) High preseason temperature variability drives convergence of xylem phenology in the Northern Hemisphere conifers. Current Biology 34:1161-1167<\/p>\n

2023<\/strong><\/p>\n

Butt\u00f2 V, Khare S, Jain P, de Lima Santos G, Rossi S (2023) Spatial patterns and climatic drivers of leaf spring phenology of maple in Eastern North America. Science of the Total Environment 857:159064<\/p>\n

Dutra R, Nogueira A, Rossi S, D\u00f3ria LC, Butt\u00f2 V, Marcati CR (2023) The role of organ and leaf habit on the secondary xylem anatomy variation across 15 species from Brazilian Cerrado. Forests 14:269<\/p>\n

Gao J, Yang B, Mura C, Boucher Y, Rossi S (2023) Increased inter-annual variability in budburst dates towards the northern range edge of black spruce. Agricultural and Forest Meteorology 333:109410<\/p>\n

Guo X, Butt\u00f2 V, Surget-Groba Y, Huang J-G, Delagrange S, Rossi S (2023) Phenological plasticity and adaptive potential of sugar maple populations. Frontiers in Ecology and Evolution 11:1217871<\/p>\n

Huang J-G, Zhang Y, Wang M, Yu X, Deslauriers A, Fonti P, Liang E, M\u00e4kinen H, Oberhuber W, Rathgeber CBK, Tognetti R, Treml V, Yang B, Zhai L, Zhang J-L, Antonucci S, Bergeron Y, Camarero JJ, Campelo F, \u010cufar K, Cuny HE, De Luis M, Fajstavr M, Giovannelli A, Gri\u010dar J, Gruber A, Gryc V, G\u00fcney A, Guo X, Jyske T, Ka\u0161par J, King G, Krause C, Lemay A, Liu F, Lombardi F, Ma Q, Martinez del Castillo E, Morin H, Nabais C, N\u00f6jd P, Peters RL, Prislan P, Saracino A, Shishov VV, Swidrak I, Vavr\u010d\u00edk H, Vieira J, Yu B, Zhang S, Zeng Q, Rossi S (2023) A critical thermal transition driving spring phenology of Northern Hemisphere conifers. Global Change Biology 29:1606-1617<\/p>\n

Li X, Khare S, Khare S, Jiang N, Liang E, Deslauriers A, Rossi S (2023) Comparing phenocam color indices with phenological observations of black spruce in the boreal forest. Ecological Informatics 76:102149<\/p>\n

Li X, Liang E, Camarero JJ, Rossi S, Fu YH, Wang T, Zhu H, Piao S, Pe\u00f1uelas J (2023) Warming-induced phenological mismatch between trees and shrubs explains high-elevation mountain forest expansion. National Science Review 10:nwad182<\/p>\n

Pereira Lopes O, Butt\u00f2 V, Rossi S, Zanatto B, Angeles G, Longui EL (2023) Crown hydraulic architeture of three brazilian species. IAWA Journal 44:156-169<\/p>\n

Qiao Y, Gu H, Xu H, Ma Q, He D, Luo Y, Yan Q, Rossi S, Smith NG, Chen L (2023) Accelerating effects of growing-season warming on tree seasonal activities are progressively disappearing. Current Biology 33:3625-3633<\/p>\n

Rademacher T, Clich\u00e9 M, Bouchard \u00c9, Kurokawa SYS, Rapp J, Deslauriers A, Messier C, Rossi S, Dupras J, Filotas \u00c9, Delagrange S (2023) On the importance of tap and tree characteristics in maple sugaring. Forest Ecology and Management 535:120896<\/p>\n

Sassamoto Kurokawa SY, Weiss G, Lapointe D, Delagrange S, Rossi S (2023) Daily timings of sap production in sugar maple in Quebec, Canada. International Journal of Biometeorology 67:211-218<\/p>\n

Saulino L, Rita A, Stinca A, Liuzzi G, Silvestro R, Rossi S, Saracino A. Wildfire promotes the invasion of Robinia pseudoacacia in Mediterranean Castanea sativa coppice forests (2023) Frontiers in Forests and Global Change 6:1177551<\/p>\n

Silvestro R, Mura C, Alano Bonacini D, de Lafontaine G, Faubert P, Mencuccini M, Rossi S (2023) Local adaptation shapes functional traits and resource allocation in black spruce Scientific Reports 13:21257<\/p>\n

Silvestro R, Zeng Q, Butt\u00f2 V, Sylvain JD, Drolet G, Mencuccini M, Thiffault N, Yuan S, Rossi S (2023) More is less, a longer wood growing season does not lead to higher carbon sequestration. Scientific Reports 13:4059<\/p>\n

Wang X, Xu H, Ma Q, Luo Y, He D, Smith N, Rossi S, Chen L (2023) Chilling and forcing act in parallel to regulate spring leaf unfolding in temperate trees. Global Ecology and Biogeography 32:1914-1927<\/p>\n

Yu B, Rossi S, Su H, Zhao P, Zhang S, Hu B, Liang H, Li X, Huang J-G (2023) Mismatch between primary and secondary growth and its consequences on wood formation in Qinghai spruce. Tree Physiology 43:1886-1902<\/p>\n

Zhang Y, Hong S, Liu Q, Huntingford C, Pe\u00f1uelas J, Rossi S, Myneni RB, Piao S (2023) Autumn canopy senescence has slowed down with global warming since the 1980s in the Northern Hemisphere. Communications Earth & Environment 4:173<\/p>\n

Zhou Y, Bai C, Guo X, Mohytych V, Klisz M, Delagrange S, Rossi S (2023) Inland populations of sugar maple manifest higher phenological plasticity than coastal populations. Frontiers in Ecology and Evolution 11:1320745<\/p>\n

2022<\/strong><\/p>\n

D\u00f3ria LC, Sonsin-Oliveira J, Rossi S, Marcati CR (2022) Functional trade-offs in volume allocation to xylem cell types in 75 species from the Brazilian Savanna Cerrado. Annals of Botany 130:445-456<\/p>\n

Gao S, Liang E, Liu R, Babst F, Camarero JJ, Fu YH, Piao S, Rossi S, Shen M, Wang T, Penuelas J (2022) An earlier start of the thermal growing season enhances tree growth in cold humid areas but not in dry areas. Nature Ecology and Evolution 6:397-404<\/p>\n

Gennaretti F, Carrer M, Garc\u00eda-Gonz\u00e1lez I, Rossi S, von Arx G (2022) Editorial: Quantitative Wood Anatomy to Explore Tree Responses to Global Change. Frontiers in Plant Science 13:998895<\/p>\n

Gu H, Qiao Y, Xi Z, Rossi S, Smith NG, Liu J, Chen L (2022) Warming-induced increase in carbon uptake leads to earlier spring phenology in temperate and boreal forests. Nature Communications 13:3698<\/p>\n

Guo X, Huang J-G, Butt\u00f2 V, Luo D, Shen C, Li J, Liang H, Zhang S, Hou X, Zhao P, Rossi S (2022) Lower auxin concentration corresponded to a reduced annual xylem production of Pinus massoniana in a subtropical forest in south China. Tree Physiology 42:317-324<\/p>\n

Guo X, Klisz M, Pucha\u0142ka R, Silvestro R, Faubert P, Belien E, Huang J-G, Rossi S (2022) Common-garden experiment reveals clinal trends of bud phenology in black spruce populations from a latitudinal gradient in the boreal forest. Journal of Ecology 110:1043-1053<\/p>\n

Jev\u0161enak J, Gri\u010dar J, Rossi S, Prislan P (2022) Modelling seasonal dynamics of secondary growth in R. Ecography e06030:1-8<\/p>\n

Khare S, Deslauriers A, Morin H, Latifi H, Rossi S (2022) Comparing time-lapse PhenoCams with satellite observations across the boreal forest of Quebec, Canada. Remote Sensing 14:100<\/p>\n

Marquis B, Bergeron Y, Houle D, Leduc M, Rossi S (2022) Variability in frost occurrence under climate change and consequent risk of damage to trees of western Quebec, Canada. Scientific Reports 12:7220<\/p>\n

Marty C, Khare S, Rossi S, Lafond J, Boivin M, Par\u00e9 MC (2022) Detection of management practices and cropping phases in wild lowbush blueberry fields using multispectral UAV data. Canadian Journal of Remote Sensing 48:469-480<\/p>\n

Mura C, Butt\u00f2 V, Silvestro R, Deslauriers A, Charrier G, Raymond P, Rossi S (2022). The early bud gets the cold: diverging spring phenology drives exposure to late frost in a Picea mariana [(Mill.) BSP] common garden. Physiologia Plantarum 174:e13798<\/p>\n

Pappas C, B\u00e9langer N, Bastien-Beaudet G, Couture C, D’Orangeville L, Duchesne L, Gennaretti F, Houle D, Hurley A, Klesse S, Lebel Desrosiers S, Montoro Girona M, Peters R, Rossi S, St-Amand K, Kneeshaw D (2022) Xylem porosity, sapwood characteristics, and uncertainties in temperate and boreal forest water use. Agricultural and Forest Meteorology 323:109092<\/p>\n

Silvestro R, Sylvain JD, Drolet G, Butt\u00f2 V, Auger I, Mencuccini M, Rossi S (2022) Upscaling xylem phenology: Sample size matters. Annals of Botany 130: 811-823<\/p>\n

Yang B, Qin C, Br\u00e4uning A, Osborn TJ, Trouet V, Charpentier Ljungqvist F, Esper J, Schneider L, Grie\u00dfinger J, B\u00fcntgen U, Rossi S, Dong G, Yan M, Ning L, Wang J, Wang X, Fan B, Wang S, Luterbacher J, Cook ER, Stenseth NC (2022) Reply to Weiss: Tree-ring stable oxygen isotopes suggest an increase in Asian monsoon rainfall at 4.2 ka BP. PNAS 119: e2204067119<\/p>\n

Yu B, Rossi S, Liang H, Guo X, Ma Q, Zhang S, Kang J, Ping Z, Zhang W, Ju Y, Huang J-G (2022) Effects of nitrogen addition and increased precipitation on xylem growth of Quercus acutissima Caruth. in central China. Tree Physiology 42:754-770<\/p>\n

Zeng Q, Khan A, Deslauriers A, Rossi S (2022) May temperature drives cambial resumption in the boreal black spruce. Forests 13:2168<\/p>\n

Zeng Q, Marquis B, Delagrange S, Zhou P, Shaoxiong Y, Sylvain J-D, Raymond P, Rossi S (2022) Late frost as a driver of ecotypic differentiation in sugar maple: implications for assisted migration. Agricultural and Forest Meteorology 323:109041<\/p>\n

Zhang J, Li X, Ren P, Chai C, Camarero JJ, Leavitt SW, Rossi S, Liang E (2022) Lengthening height-growth duration in Smith fir as onset becomes more synchronous across elevations under climate warming scenarios. Agricultural and Forest Meteorology 326:109193<\/p>\n

Zhang J, Li X, Ren P, Leavitt SW, Rossi S, Liang E (2022) Terminal bud size, spring and summer temperatures regulate the timing of height-growth cessation of Smith fir on the southeastern Tibetan Plateau. Agricultural and Forest Meteorology 316:108883<\/p>\n

2021<\/strong><\/p>\n

Ang\u00e9lico TdS, Marcati CR, Rossi S, da Silva MR, Sonsin-Oliveira J (2021) Soil effects on stem growth and wood anatomy of tamboril are mediated by tree age. Forests 12:1058<\/p>\n

Balducci L, Deslauriers A, de Barba D, Rossi S, Houle D, Bergeron Y, Morin H (2021) Influence of soil warming and N-addition on sap flux density and stem radius variation in boreal stands in Quebec, Canada. Ecohydrology 14:e2261<\/p>\n

Bonanomi G, Mogavero V, Rita A, Zotti M, Saulino L, Tesei G, Allegrezza M, Saracino A, Rossi S, Allevato E 2021 Shrub facilitation promotes advancing of Fagus sylvatica treeline across the Apennines (Italy). Journal of Vegetation Science 32:e13054<\/p>\n

Butt\u00f2 V, Khare S, Drolet G, Sylvain J-D, Gennaretti F, Deslauriers A, Morin H, Rossi S (2021) Regionwide temporal gradients of carbon allocation allow for shoot growth and latewood formation in boreal black spruce. Global Ecology and Biogeography 30:1657-1670<\/p>\n

Butt\u00f2 V, Millan M, Rossi S, Delagrange S (2021) Contrasting carbon allocation strategies of ring-porous and diffuse-porous species converge towards similar growth responses to drought. Frontiers in Plant Science 12:760859<\/p>\n

Butt\u00f2 V, Rozenberg P, Deslauriers A, Rossi S, Morin H (2021) Environmental and developmental factors driving xylem anatomy and micro-density in black spruce. New Phytologist 230:957-971<\/p>\n

Gao J, Yang B, Peng X, Rossi S (2021) Kinetics of tracheid development under drought events and formation of false ring in the semi-arid China. Agricultural and Forest Meteorology 308-309:108572<\/p>\n

Gabira MM, Silva RBG, Bortolheiro FPAP, Mateus CMD, Villas Boas RL, Rossi S, Girona MM, Silva MR (2021) Composted sewage sludge as an alternative substrate for forest seedlings production. iForest 14:569-575<\/p>\n

Gao J, Rossi S, Yang B (2021) Origin of intra-annual density fluctuations in a semi-arid area of Northwestern China. Frontiers in Plant Science 12: 777753<\/p>\n

He M, Br\u00e4uning A, Rossi S, Gebrekirstos A, Grie\u00dfinger J, Mayr C, Peng C, Yang B (2021) No evidence for carryover effect in tree rings based on a pulse-labelling experiment on Juniperus communis in South Germany. Trees 35:493-502<\/p>\n

He X, Chen S, Wang J, Smith NG, Rossi S, Yang H, Liu J, Chen L (2021) Delaying effect of humidity on leaf unfolding in Europe. Science of Total Environment 800:149563<\/p>\n

Jain P, Khare S, Sylvain J-D, Raymond P, Rossi S (2021) Predicting the location of maple habitat under warming scenarios in two regions at the northern range in Canada. Forest Science 67:446-456<\/p>\n

Kang J, Jiang S, Tardif JC, Liang H, Zhang S, Li J, Yu B, Wang Z, Zhou P, Bergeron Y, Rossi S, Huang JG (2021) Radial growth responses of two dominant conifers to climate in the Altai Mountains, Central Asia. Agricultural and Forest Meteorology 298-299:108297<\/p>\n

Khare S, Latifi H, Rossi S (2021) A 15-year spatio-temporal analysis of plant beta-diversity using Landsat time series derived Rao’s Q index. Ecological Indicators 121:107105<\/p>\n

Li X, Rossi S, Dawadi B, Ram S, Liang E (2021) Warming menaces high-altitude Himalayan birch forests: evidence from cambial phenology and wood anatomy. Agricultural and Forest Meteorology 308-309:108577<\/p>\n

Ren P, Liang E, Raymond P, Rossi S (2021) Bud break in sugar maple submitted to changing conditions simulating a northward migration. Canadian Journal of Forest Research 51:842-847<\/p>\n

Rita A, Bonanomi G, Allevato E, Borghetti M, Cesarano G, Mogavero V, Rossi S, Saulino S, Zotti M, Saracino A (2021) Topography modulates near-ground microclimate in the Mediterranean Fagus sylvatica treeline. Scientific Reports 11:8122<\/p>\n

Saulino L, Allevato E, Rossi S, Minotta G, Fiorentino N, Saracino A (2021) Lengthening single-stem rotation improves biomass yield and water use efficiency in black poplar genotype multi-stem rotation coppice plantations. Biomass and Bioenergy 154:106256<\/p>\n

Yang B, Qin C, Br\u00e4uning A, Osborn TJ, Trouet V, Charpentier Ljungqvist F, Esper J, Schneider L, Grie\u00dfinger J, B\u00fcntgen U, Rossi S, Yan M, Wang J, Luterbacher J (2021) Long-term decrease in Asian monsoon rainfall and abrupt climate change events over the past 6,700 years. Proceedings of the National Academy of Sciences 118:e2102007118<\/p>\n

Yang T, Yang B, Boucher \u00c9, Rossi S (2021) How did climate and CO2 concentration affect intrinsic water-use efficiency and tree growth in a semi-arid region of China? Trees 35:769-781<\/p>\n

Wang J, Xi Z, He X, Chen S, Rossi S, Smith N, Liu J, Chen L (2021) Contrasting temporal variations in responses of leaf unfolding to daytime and nighttime warming. Global Change Biology 27:5084-5093<\/p>\n

Zhou P, Huang J-G, Liang H, Rossi S, Bergeron Y, Shishov VV, Jiang S, Zhu H, Dong Z (2021) Radial growth response of Larix sibirica to climate along an altitudinal gradient in Altai Mountains, China. Agricultural and Forest Meteorology 304-305:108397<\/p>\n

2020<\/strong><\/p>\n

Balducci L, Fierravanti A, Rossi S, Delzon S, De Grandpr\u00e9 L, Kneeshaw DD, Deslauriers A (2020) The paradox of defoliation: declining tree water status with increasing soil water content. Agricultural and Forest Meteorology 290:108025<\/p>\n

Butt\u00f2 V, Deslauriers A, Rossi S, Rosenberg P, Shishov V, Morin H (2020) The role of hormones in tree-ring formation. Trees 34:315-335<\/p>\n

Butt\u00f2 V, Shishov V, Tychkov I, Popkova M, He M, Rossi S, Deslauriers A, Morin H (2020) Comparing the cell dynamics of tree-ring formation observed in microcores and as predicted by the Vaganov\u2013Shashkin model. Frontiers in Plant Science 11:1268<\/p>\n

Chen L, H\u00e4nninen H, Rossi S, Smith NG, Pau S, Liu Z, Feng G, Gao J, Liu J (2020) Leaf senescence exhibits stronger climatic responses during warm than during cold autumns. Nature Climate Change DOI: 10.1038\/s41558-020-0820-2<\/p>\n

Du Q, Rossi S, Lu X, Wang Y, Dawadi B, Sigdel SR, Zhu H, Liang E, Camarero JJ (2020) Negative growth responses to temperature of sympatric species converge under warming conditions in the southeastern Tibetan Plateau. Trees 34:395-404<\/p>\n

Fu T, Liang E, Lu X, Gao S, Zhang L, Zhu H, Rossi S, Camarero JJ (2020) Tree growth responses and resilience after the 1950-Zayu-Medog earthquake, southeast Tibetan Plateau. Dendrochronologia 62:125724<\/p>\n

Klisz M, Butt\u00f2 V, Rossi S, Morin H, Jastrz\u0119bowski S (2020) Intra-annual stem size variations converge across marginal populations of European beech. Trees 34:255-265<\/p>\n

Malik R, Rossi S, Sukumar R (2020) Cambial phenology in Abies pindrow<\/em> (Pinaceae) along an altitudinal gradient in northwestern Himalaya. IAWA J 41:186-201<\/p>\n

Malik R, Rossi S, Sukumar R (2020) Variations in the timing of different phenological stages of cambial activity in Abies pindrow<\/em> (Royle) along an elevation gradient in the north-western Himalaya. Dendrochronologia 59:125660<\/p>\n

Puchi P, Castagneri D, Rossi S, Carrer M (2020) Wood anatomical traits in back spruce reveal latent water constraints on the boreal forest. Global Change Biology 26:1767\u20131777<\/p>\n

Ren P, Liang E, Raymond P, Rossi S (2020) Phenological differentiation in sugar maple populations and responses of bud break to an experimental warming. Forests 11:929<\/p>\n

Ren P, N\u00e9ron V, Rossi S, Liang E, Bouchard M, Deslauriers A (2020) Warming counteracts the defoliation-induced mismatch by increasing the herbivore-plant phenological synchrony. Global Change Biology 26:2072-2080<\/p>\n

Rodrigues da Silva J, Rossi S, Khare S, Luiz Longui E, Regina Marcati C (2020) Disentangling the effects of genotype and environment on growth and wood features of Balfourodendron riedelianum<\/em> trees by common garden experiments in Brazil. Forests 11:905<\/p>\n

Rossi D, Rossi S, Dobrzy\u0144ski D, Dolmella A, Realdon N (2020) Assessment of spring waters from Lourdes (France) by contact angle method. Surfaces and Interfaces 19:100471<\/p>\n

Silvestro R, Brasseur S, Klisz M, Mencuccini M, Rossi S (2020) Bioclimatic distance and performance of apical shoot extension: disentangling the role of growth rate and duration in ecotypic differentiation. Forest Ecology and Management 477:118483<\/p>\n

Zhang S, Belien E, Ren H, Rossi S, Huang J-G (2020) Wood anatomy of boreal species in a warming world: a review. iForest 13:130-138<\/p>\n

Zhang S, Butt\u00f2 V, Khare S, Deslauriers A, Morin H, Huang J-G, Ren H, Rossi S (2020) Calibrating phenocam data with phenological observations in black spruce. Canadian Journal of Remote Sensing 46:154-165<\/p>\n

Zeng Q, Rossi S, Yang B, Qin C, Li G (2020) Environmental drivers for cambial reactivation of Qilian junipers (Juniperus przewalskii<\/em>) in a semi-arid region of Northwestern China. Atmosphere 11:232<\/p>\n

2019<\/strong><\/p>\n

Allevato E, Saulino L, Cesarano G, Chirico GB, D’Urso G, Falanga Bolognesi S, Rita A, Rossi S, Saracino A, Bonanomi G (2019) Canopy damage by spring frost in European beech along the Apennines: effect of latitude, altitude and mountain aspect. Remote Sensing of Environment 225:431-440<\/p>\n

Antonucci S, Rossi S, Lombardi F, Marchetti M, Tognetti R (2019) Influence of climatic factors on silver fir xylogeneiss along the Italian peninsula. IAWA Journal 40:259-275<\/p>\n

Balducci L, Deslauriers A, Rossi S, Giovannelli A (2019) Stem cycle analyses help decipher the nonlinear response of the trees to concurrent warming and drought. Annals of Forest Science 76:88<\/p>\n

Butt\u00f2 V, Rossi S, Deslauriers A, Morin H (2019) Is size an issue of time? Relationship between the duration of xylem development and cell traits. Annals of Botany 123:1257-1265<\/p>\n

Chen L, Rossi S, Deslauriers A, Liu J (2019) Contrasting strategies of xylem formation between black spruce and balsam fir in Quebec, Canada. Tree Physiology 39:747-754<\/p>\n

Delpierre N, Lireux S, Hartig F, Camarero JJ, Cheaib A, Cufar K, Cuny H, Deslauriers A, Fonti P, Gri\u010dar J, Huang J-G, Krause C, Liu G, De Luis M, M\u00e4kinen H, Mart\u00ednez del Castillo E, Morin H, N\u00f6jd P, Oberhuber W, Prislan P, Rossi S, Saderi S, Treml V, Vavrick H, Rathgeber C (2019) Support for a two-phase temperature model using chilling and forcing temperatures to predict the onset of wood formation in Northern hemisphere conifers. Global Change Biology 25:1089-1105<\/p>\n

Deslauriers A, Rossi S (2019) Metabolic memory in the phenological events of plants: looking beyond climatic factors. Tree Physiology 39:1272-1276<\/p>\n

Fierravanti A, Rossi S, Kneeshaw D, De Grandpr\u00e9 L, Deslauriers A (2019) Low non-structural carbon accumulation in spring reduces growth and increases mortality in conifers defoliated by spruce budworm. Frontiers in Forests and Global Change 2:15<\/p>\n

He M, Yang B, Br\u00e4uning A, Rossi S, Ljungqvist FC, Shishov V, Grie\u00dfinger J, Wang J, Liu J, Qin C (2019) Recent advances in dendrochronology in China. Earth-Science Reviews 194:521-535<\/p>\n

He M, Yang B, Rossi S, Br\u00e4uning A, Shishov V, Kang S (2019) Simulated and predicted responses of tree stem radial growth to climate change\u2013a case study in the semi-arid north central China. Dendrochronologia 58:125632<\/p>\n

Khare S, Drolet G, Sylvain JD, Par\u00e9 MC, Rossi S (2019) Assessment of spatio-temporal patterns of black spruce bud phenology across Quebec based on MODIS-NDVI time series and field observations. Remote Sensing 11:2745<\/p>\n

Khare S, Latifi H, Rossi S (2019) Forest beta-diversity analysis by remote sensing: how scale and sensors affect the Rao’s Q index. Ecological Indicators 106:105520<\/p>\n

Khare S, Latifi H, Rossi S, Ghosh SK (2019) Fractional cover mapping of invasive plant species by combining very high-resolution stereo and multi-sensor multispectral imageries. Forests 10:540<\/p>\n

Li X, Rossi S, Liang E (2019) The onset of xylogenesis in Smith fir is not related to the outer bark thickness. American Journal of Botany 106:1386-1391<\/p>\n

Pamerleau-Couture \u00c9, Rossi S, Pothier D, Krause C (2019) Wood properties of black spruce [Picea mariana (Mill.) BSP] in relation to ring width and tree height in even- and uneven-aged boreal stands. Annals of Forest Science 76:43<\/p>\n

Prislan P, Gricar J, Cufar K, de Luis M, Merela M, Rossi S (2019) Growing season and radial growth predicted for Fagus sylvatica under climate change. Climatic Change 153:181-197<\/p>\n

Ren P, Ziaco E, Rossi S, Biondi F, Prislan P, Liang E (2019) Growth rate rather than growing season length determines wood biomass in dry environments. Agricultural and Forest Metereology 271:46-53<\/p>\n

Saulino L, Allevato E, Todaro L, Rossi S, Bonanomi G, Saracino A (2019) Comparative study of hybrids and native black poplars genotypes in the first three-years cycle of a multi-stem short rotation coppice. Biomass and Bioenergy 122:17-27<\/p>\n

Silvestro R, Rossi S, Zhang S, Froment I, Huang J-G, Saracino A (2019) From phenology to forest management: ecotypes selection can avoid early or late frosts, but not both. Forest Ecology and Management 436:21-26<\/p>\n

Wang Y, Case B, Rossi S, Zhu L, Liang E, Ellison A (2019) Spring frost controls spring tree phenology along elevational gradients on the southeastern Tibetan Plateau. International Journal of Biometeorology 63:963-972<\/p>\n

Zhang S, Isabel N, Huang J-G, Ren H, Rossi S (2019) Responses of bud-break phenology to daily-asymmetric warming: daytime warming intensifies the advancement of bud break. International Journal of Biometeorology 63:1631-1640<\/p>\n

2018<\/span><\/strong><\/p>\n

Bonanomi G, Rita A, Cesarano G, Saulino L, Allevato E, Di Pasquale G, Allegrezza M, Pesaresi S, Borghetti M, Rossi S, Saracino A (2018) Anthropogenic and environmental factors affect the treeline position of Fagus sylvatica along the Apennines (Italy). Journal of Biogeography 45:2595-2608<\/p>\n

Carten\u00ec F, Deslauriers A, Rossi S, Morin H, De Micco V, Mazzoleni S, Giannino F (2018) The physiological mechanisms behind the earlywood-to-latewood transition: a process-based modelling approach. Frontiers in Plant Science 9:1053<\/p>\n

Chen L, Huang J-G, Ma Q, H\u00e4nninen H, Rossi S, Piao S, Bergeron Y (2018) Spring phenology at different latitudes is becoming more uniform under global warming in Europe. Global Change Biology 24:3969-3975<\/p>\n

Fern\u00e1ndez-de-U\u00f1a L, Aranda I, Rossi S, Fonti P, Ca\u00f1ellas I, Gea-Izquierdo G (2018) Divergent phenological and leaf gas exchange strategies of two competing tree species drive contrasting responses to drought at their altitudinal boundary. Tree Physiology 38:1152-1165<\/p>\n

Huang J-G, Guo X, Rossi S, Zhai L, Chen L, Yu B, Zhang S (2018) Intra-annual wood formation of subtropical Chinese red pine shows better growth in dry season than wet season. Tree Physiology 38:1225-1236<\/p>\n

Liu S, Li X, Rossi S, Wang L, Li W, Liang E, Leavitt SW (2018). Differences in xylogenesis between dominant and suppressed trees. American Journal of Botany 105:950-956<\/p>\n

He M, Yang B, Shishov V, Rossi S, Br\u00e4uning A, Charpentier Ljungqvist F, Grie\u00dfinger J (2018) Projections for the changes in growing season length of tree-ring formation on the Tibetan Plateau based on CMIP5 model simulations. Internation Journal of Biometeorology 62:631-641<\/p>\n

He M, Yang B, Shishov V, Rossi S, Br\u00e4uning A, Ljungqvist F, Grie\u00dfinger J (2018) Relationships between wood formation and cambium phenology on the Tibetan Plateau during 1960\u20132014. Forests 9:86<\/p>\n

Popkova M, Vaganov E, Shishov V, Babushkina E, Rossi S, Bryukhanova M, Fonti P (2018) Modeled tracheidograms disclose drought influence on Pinus sylvestris tree-rings structure from Siberian forest-steppe. Frontiers in Plant Science 9:1144<\/p>\n

Ren P, Rossi S, Camarero JJ, Ellison AM, Liang E, Pe\u00f1uelas J (2018) Critical temperature and precipitation thresholds for the onset of xylogenesis of Juniperus przewalskii in a semi-arid area of the northeastern Tibetan Plateau. Annals of Botany 121:617-624<\/p>\n

Rossi S, Plourde P-Y, Krause C (2018) Does a spruce budworm outbreak affect the response of black spruce to a subsequent thinning? Frontiers in Plant Science 9:1061<\/p>\n

Zeng Q, Rossi S, Yang B (2018) Effects of age and size on xylem phenology in two conifers of northwestern China. Frontiers in Plant Science 8:2264<\/p>\n

Zhang S, Rossi S, Huang J-G, Jiang S, Yu B, Zhang W, Ye Q (2018) Intra-annual dynamics of xylem formation in Liquidambar formosana submitted to canopy and understory N addition. Frontiers in Plant Science 9:79<\/p>\n

2017<\/span><\/strong><\/p>\n

Antonucci S, Rossi S, Deslauriers A, Morin H, Lombardi F, Marchetti M, Tognetti R (2017) Large-scale estimation of xylem phenology in black spruce through remote sensing. Agricultural and Forest Meteorology 233:92-100<\/p>\n

Br\u00e4uning A, Bolte A, Nabais C, Rossi S, Sass-Klaassen U (2017) Editorial: studying tree responses to extreme events. Frontiers in Plant Science 8:506<\/p>\n

Fern\u00e1ndez-de-U\u00f1a L, Rossi S, Aranda I, Fonti P, Gonz\u00e1lez-Gonz\u00e1lez BD, Ca\u00f1ellas I, Gea-Izquierdo G (2017) Xylem and leaf functional adjustments to drought in Pinus sylvestris<\/em> and Quercus pyrenaica<\/em> at their elevational boundary. Frontiers in Plant Science 8:1200<\/p>\n

Fierravanti A, Fierravanti E, Cocozza C, Tognetti R, Rossi S (2017) Eligible reference cities in relation to BVOC-derived O3 pollution. Urban Forestry & Urban Greening 28:73-80<\/p>\n

Lemay A, Krause C, Rossi S, Achim A 2017 Xylogenesis in stems and roots after thinning in the boreal forest of Quebec, Canada. Tree physiology 37:1554-1563<\/p>\n

Li X, Liang E, Gricar J, Rossi S, \u010cufar K, Ellison AM (2017) Critical minimum temperature limits xylogenesis and maintains treelines on the southeastern Tibetan Plateau. Science Bulletin 62:804-812<\/p>\n

Montoro Girona M, Rossi S, Lussier J-M, Walsh D, Morin H (2017) Understanding tree growth responses after partial cuttings: a new approach. PLoS ONE 12:e0172653<\/p>\n

P\u00e9rez-de-Lis G, Olano JM, Rozas V, Rossi S, V\u00e1zquez-Ruiz RA, Garc\u00eda-Gonz\u00e1lez I (2017) Environmental conditions and vascular cambium regulate carbon allocation to xylem growth in deciduous oaks. Functional Ecology 31:592-603<\/p>\n

Perrin M, Rossi S, Isabel N (2017) Synchronisms between bud and cambium phenology in black spruce: early flushing provenances exhibit early xylem formation. Tree Physiology 37:593-603<\/p>\n

Rossi S, Isabel N (2017) Bud break responds more strongly to daytime than night-time temperature under asymmetric experimental warming. Global Change Biology 23:446-454<\/p>\n

Rossi S, Isabel N (2017) The timing of bud break in warming conditions: variation among seven sympatric conifer species from Eastern Canada. International Journal of Biometeorology 61:1983-1991<\/p>\n

Rossi S, Morin H, Gionest F, Laprise D (2017) Inter- and intra-annual patterns of seed rain in the black spruce stands of Quebec, Canada. iForest 10:189-195<\/p>\n

Saracino A, Bellino A, Allevato E, Mingo A, Conti S, Rossi S, Bonanomi G, Carputo D, Mazzoleni S (2017) Repeated stand-replacing crown fires affect seed morphology and germination in Aleppo pine. Frontiers in Plant Science 8:1160<\/p>\n

Saracino A, Rita A, Rossi S, Andreu-Hayles L, Helle G, Todaro L (2017) Climatic signal from Pinus leucodermis<\/em> axial resin ducts: a tree-ring time series approach. European Journal of Forest Research 136:27-36<\/p>\n

Vieira J, Nabais C, Rossi S, Carvalho A, Freitas H, Campelo F (2017) Rain exclusion affects cambial activity in adult maritime pines. Agricultural and Forest Meteorology 237-238:303-310<\/p>\n

Yang B, He M, Shishov V, Tychkov I, Vaganov E, Rossi S, Ljungqvist FC, Br\u00e4uning A, Grie\u00dfinger J (2017) A new perspective on spring vegetation phenology and global climate change based on Tibetan Plateau tree-ring data. Proceedings of the National Academy of Sciences 114:6966-6971<\/p>\n

Zhang S, Huang J-G, Rossi S, Ma Q, Yu B, Zhai L, Dawei L, Guo X, Fu S, Zhang W (2017) Intra-annual dynamics of xylem growth in Pinus massoniana<\/em> submitted to N addition in Central China. Tree Physiology 37:1546-1553<\/p>\n

2016<\/span><\/strong><\/p>\n

Balducci L, Cuny HE, Rathgeber CBK, Deslauriers A, Giovannelli A, Rossi S (2016) Compensatory mechanisms mitigate the effect of warming and drought on wood formation. Plant Cell & Environment 39:1338-1352<\/p>\n

Bosio F, Rossi S, Regina Marcati C (2016) Periodicity and environmental drivers of apical and lateral growth in a Cerrado woody species. Trees 30:1495-1505<\/p>\n

De Barba D, Rossi S, Deslauriers A, Morin H (2016) Effects of soil warming and nitrogen foliar applications on bud burst of black spruce. Trees 30:87-97<\/p>\n

Deslauriers A, Huang J-G, Balducci L, Beaulieu M, Rossi S (2016) The contribution of carbon and water in modulating wood formation. Plant Physiology 170:2072-2084<\/p>\n

Li X, Camarero JJ, Bradley C, Liang E, Rossi S (2016) The onset of xylogenesis is not related to distance from the crown in Smith fir trees from south-eastern Tibetan Plateau. Canadian Journal of Forest Research 46:885-889<\/p>\n

Li X, Rossi S, Liang E, Camarero JJ (2016) Temperature thresholds for the onset of xylogenesis in alpine shrubs on the Tibetan Plateau. Trees 30:2091-2099<\/p>\n

P\u00e9rez-de-Lis G, Rossi S, V\u00e1zquez-Ruiz R A, Rozas V, Garc\u00eda-Gonz\u00e1lez I (2016) Do changes in spring phenology affect earlywood vessels? Perspective from the xylogenesis monitoring of two sympatric ring-porous oaks. New Phytologist 209:521-530<\/p>\n

Rossi S, Anfodillo T, \u010cufar K, Cuny HE, Deslauriers A, Fonti P, Frank D, Gri\u010dar J, Gruber A, Huang J-G, Jyske T, Ka\u0161par J, King G, Krause C, Liang E, M\u00e4kinen H, Morin H, N\u00f6jd P, Oberhuber W, Prislan P, Rathgeber CBK, Saracino A, Swidrak I, Treml V (2016) Pattern of xylem phenology in conifers of cold ecosystems at the northern hemisphere. Global Change Biology 22:3804-3813<\/p>\n

Rossi S, Couture \u00c9, Plante X, Morin H (2016) Fine roots and ectomycorrhizal colonization in black spruce subjected to reductions in soil moisture. Botany 94:23-30<\/p>\n

van der Maaten E, van der Maaten-Theunissen M, Smiljani\u0107 M, Rossi S, Simard S, Wilmking M, Deslauriers A, Fonti P, von Arx G, Bouriaud O (2016) DendrometeR: analyzing the pulse of trees in R. Dendrochronologia 40:12-16<\/p>\n

Ziaco E, Biondi F, Rossi S, Deslauriers A (2016) Environmental drivers of cambial phenology in Great Basin bristlecone pine. Tree Physiology 36:818-831<\/p>\n

2015<\/strong><\/p>\n

Antonucci<\/span><\/span> S, Rossi S, Deslauriers A, Lombardi F, Marchetti M, Tognetti R (2015)Synchronisms and correlations of spring phenology between apical and lateral meristems in two boreal conifers. Tree Physiol<\/span> 35:1086-1094<\/span><\/p>\n

Balducci L, Deslauriers A, Giovannelli A, Beaulieu M, Delzon<\/span> S, Rossi S, Rathgeber CBK (2015) How do drought and warming influence plant survival and wood traits of Picea mariana<\/i> saplings? J Exp<\/span> Bot 66:377-389<\/span><\/p>\n

Biondi F, Rossi S (2015) Plant-water relationships in the Great Basin Desert of North America derived from Pinus monophylla<\/span><\/i> hourly dendrometer records. Int<\/span> J Biometeorol<\/span> 59:939-953<\/span><\/p>\n

Carvalho A, Nabais<\/span> C, Vieira J, Rossi S, Campelo<\/span> F (2015) Plastic response of tracheids inPinus pinaster<\/span><\/i> in a water-limited environment: adjusting lumen size instead of wall thickness. PLoS<\/span> ONE 10:e0136305<\/span><\/p>\n

Cuny HE, Rathgeber CBK, Frank D, Fonti P, Fournier M, M\u00e4kinen H, Prislan P, Rossi S, Martinez del Castillo E, Campelo<\/span> F, Vavr\u010d\u00edk<\/span> H, Camarero JJ, Bryukhanova M, Jyske T,Gri\u010dar<\/span> J, Gryc V, De Luis M, Vieira J, \u010cufar<\/span> K, Kirdyanov A, Oberhuber<\/span> W, Huang J-G,Treml<\/span> V, Li X, Swidrak<\/span> I, Deslauriers A, Liang E, N\u00f6jd<\/span> P, Gruber A, Nabais<\/span> C, Morin H, Krause C, King G (2015) Intra-annual dynamics of woody biomass production in coniferous forests. Nature Plants 1: 15160<\/span><\/p>\n

Dao MCE, Rossi S, Morin H, Houle D (2015) A 6-year-long manipulation with soil warming and canopy nitrogen additions does not affect xylem phenology and cell production of mature black spruce. Front Plant Sci<\/span> 6:877<\/span><\/p>\n

Deslauriers A, Caron L, Rossi S (2015) Carbon allocation during defoliation: testing a defence-growth trade-off in balsam fir. Front Plant Sci<\/span> 6:338<\/span><\/p>\n

Fierravanti A, Cocozza C, Palombo C, Rossi S, Tognetti R (2015) Environmental-mediated relationships between tree growth of black spruce and abundance of spruce budworm along a latitudinal transect in Quebec, Canada. Agricultural ForestMeteorol<\/span> 213:53-63<\/span><\/p>\n

Girard M-J, Rossi S, Morin H (2015) Mapping events: cambium phenology across the latitudinal distribution of black spruce. IAWA J 36:270-285<\/span><\/p>\n

Ren P, Rossi S, Gri\u010dar<\/span> J, Liang E, \u010cufar<\/span> K (2015) Is precipitation a trigger of cambial reactivation in Juniperus<\/i><\/span> przewalskii<\/span><\/i> on the northeastern<\/span> Tibetan Plateau? Ann Bot 115: 629-639<\/span><\/p>\n

Rossi S (2015) Local adaptations and climate change: converging sensitivity of bud break in black spruce provenances. Int<\/span> J Biometeorol<\/span> 59:827-835<\/span><\/p>\n

Rossi S, Cairo E, Krause C, Deslauriers A (2015) Growth and basic wood properties of black-spruce along an alti<\/span>-latitudinal gradient in Quebec, Canada. Ann For Sci<\/span><\/span> 72:77-87<\/span><\/p>\n

Urrutia-Jalabert<\/span> R, Rossi S, Deslauriers A, Malhi<\/span> Y, Lara A (2015) Environmental correlates of stem radius change in the endangered Fitzroya<\/i><\/span> cupressoides<\/span><\/i> forests of southern Chile. Agricultural Forest Meteorol<\/span> 200:209-221<\/span><\/p>\n

Vieira J, Campelo<\/span> F, Rossi S, Carvalho A, Freitas H, Nabais<\/span> C (2015) Adjustment capacity of maritime pine cambial activity in drought-prone environments. PLOS ONE 10:e0126223<\/span><\/p>\n

Walsh D, Rossi S, Lord D (2015) Size and age: intrinsic confounding factors affecting the responses to a water deficit in black spruce seedlings. iForest<\/span> 8:401-409<\/span><\/p>\n

 <\/p>\n

2014<\/strong><\/p>\n

Belien E, Rossi S, Morin H, Deslauriers A (2014) High resolution analysis of stem radius variations in black spruce subjected to rain exclusion for three summers. Trees 28:1257-1265<\/p>\n

Belien E, Rossi S, Morin H, Deslauriers A, Gaudard J (2014) Testing foliar absorption in black spruce [Picea mariana<\/em> (Mill.) BSP] saplings. Am J Exp Biol 1:52-60<\/p>\n

Deslauriers A, Beaulieu M, Balducci L, Giovannelli A, Gagnon M, Rossi S (2014) Impact of warming and drought on carbon balance related to wood formation in black spruce. Ann Bot 114:335-345<\/p>\n

Huang J-G, Deslauriers A, Rossi S (2014) Xylem formation can be modeled statistically as a function of primary growth and cambium activity. New Phytol 203:831-841<\/p>\n

Lupi C, Rossi S, Vieira J, Morin H, Deslauriers A (2014) Assessment of xylem phenology: a first attempt to verify its accuracy and precision. Tree Physiol 34:87-93<\/p>\n

Rossi S, Bousquet J (2014) The bud break process and its variation among local populations of boreal black spruce. Front Plant Sci 5:574<\/p>\n

Rossi S, Girard M-J, Morin H (2014) Lengthening of the duration of xylogenesis engenders disproportionate increases in xylem production. Global Change Biol 20:2261-2271<\/p>\n

Vieira J, Rossi S, Campelo F, Freitas H, Nabais C (2014) Xylogenesis of Pinus pinaster<\/em> under a Mediterranean climate. Ann For Sci 71:71-80<\/p>\n

Vieira J, Rossi S, Campelo F, Nabais C (2014) Are neighbouring trees in tune? Wood formation in Pinus pinaster<\/em>. Eur J Forest Res 133:41-50<\/p>\n

Ziaco E, Biondi F, Rossi S, Deslauriers A (2014) Climatic influences on wood anatomy and tree-ring features of Great Basin conifers at a new mountain observatory. App Plant Sci 2:1400054<\/p>\n

Ziaco E, Biondi F, Rossi S, Deslauriers A (2014) Intra-annual wood anatomical features of high-elevation conifers in the Great Basin, USA. Dendrochronologia 32:303-312<\/p>\n

 <\/p>\n

2013<\/strong><\/p>\n

Balducci L, Deslauriers A, Giovannelli A, Rossi S, Rathgeber CBK (2013). Effects of temperature and water deficit on cambial activity and woody ring features in Picea mariana<\/em> saplings. Tree Physiol 33:1006-1017<\/p>\n

Li X, Liang E, Gri\u010dar J, Prislan P, Rossi S, \u010cufar K. Age dependence of xylogenesis and its climatic sensitivity in Smith fir on the south-eastern Tibetan Plateau. Tree Physiol 33:48-56<\/p>\n

Lupi C, Morin H, Deslauriers A, Rossi S, Houle D (2013) Role of soil nitrogen for the conifers of the boreal forest: a critical review. Int J Plant Soil Sci 2:155-189<\/p>\n

Rossi S, Anfodillo T, \u010cufar K, Cuny HE, Deslauriers A, Fonti P, Frank D, Gri\u010dar J, Gruber A, King G, Krause C, Morin H, Oberhuber W, Prislan P, Rathgeber CBK. A meta-analysis of cambium phenology and growth: Linear and nonlinear patterns in conifers of the northern hemisphere. Ann Bot 112:1911-1920<\/p>\n

Rossi S, Bordeleau A, Morin H, Houle D (2013) The effects of N-enriched rain and warmer soil on the ectomycorrhizae of black spruce remain inconclusive in the short-term. Ann For Sci 70:825-834<\/p>\n

Rossi S, Morin H, Gionest F, Laprise D (2013) Spatially explicit structure of natural stands dominated by black spruce. Silva Fenn 47:973<\/p>\n

Vieira J, Rossi S, Campelo F, Freitas H, Nabais C (2013) Seasonal and daily cycles of stem radial variation of Pinus pinaster in a drought-prone environment. Agricultural Forest Meteorol 180:173-181<\/p>\n

 <\/p>\n

2012<\/strong><\/p>\n

Anfodillo T, Deslauriers A, Menardi R, Tedoldi L, Petit G, Rossi S (2012) Widening of xylem conduits in a conifer tree depends on the longer time of cell expansion downwards along the stem. J Exp Bot 63:837-845<\/p>\n

Belien E, Rossi S, Morin H, Deslauriers A (2012) Xylogenesis in black spruce subjected to a rain exclusion in the field. Can J For Res 42:1306-1315<\/p>\n

Boulouf Lugo J, Deslauriers A, Rossi S (2012) Duration of xylogenesis in black spruce lengthened between 1950 and 2010. Ann Bot 110:1099-1108<\/p>\n

Krause C, Luszcsynski B, Morin H, Rossi S, Plourde P-Y (2012) Timing of growth reductions in black spruce stem and branches during the 1970s spruce budworm outbreak. Can J For Res 42:1220-1227<\/p>\n

Lupi C, Morin H, Deslauriers A, Rossi S (2012) Xylogenesis in black spruce: does soil temperature matter? Tree Physiol 32:74-82<\/p>\n

Lupi C, Morin H, Deslauriers A, Rossi S, Houle D (2012) Increasing nitrogen availability and soil temperature: effects on xylem phenology and anatomy of mature black spruce. Can J For Res 42:1277-1288<\/p>\n

Rossi S, Bordeleau A, Houle D, Morin H (2012) Effect of chronic ammonium-nitrate addition on the ectomycorrhizal community in a black spruce stand. Can J For Res 42:1204-1212<\/p>\n

Rossi D, Mioni E, Zancato M, Bettero A, Rossi S (2012) Development of a tensiometric model for surface energy characterization of raw coffee beans. J Food Eng 112:352-357<\/p>\n

Rossi S, Morin H, Gionest F, Laprise D (2012) Episodic recruitment of the seedling bank in balsam fir and white spruce. Am J Bot 99:1-9<\/p>\n

Rossi D, Rossi S, Morin H, Bettero A (2012) Within-tree variations in the surface free energy of wood assessed by contact angle analysis. Wood Sci Technol 46:287-298<\/p>\n

Rossi S, Morin H, Deslauriers A (2012) Causes and correlations in cambium phenology: towards an integrated framework of xylogenesis. J Exp Bot 63:2117-2163<\/p>\n

Rossi S, Morin H, Laprise D, Gionest F (2012) Testing masting mechanisms of boreal forest species at different stand densities. Oikos 121:665-674<\/p>\n

 <\/p>\n

2011<\/strong><\/p>\n

Deslauriers A, Rossi S, Turcotte A, Morin H, Krause C (2011) A three-step procedure in SAS to analyze the time series from automatic dendrometers. Dendrochronologia 29:151-161<\/p>\n

Giovannelli A, Emiliani G, Traversi ML, Deslauriers A, Rossi S (2011) Sampling cambial region and mature xylem for carbohydrate analyses. Dendrochronologia 29:177-182<\/p>\n

Rathgeber CBK, Rossi S, Bontemps J-D (2011) Cambial activity related to tree size in a mature silver fir plantation. Ann Bot 108:429-438<\/p>\n

Rossi S, Morin H (2011) Demography and spatial dynamics in balsam fir stands after a spruce budworm outbreak. Can J For Res 41:1112-1120<\/p>\n

Rossi S, Morin H, Deslauriers A (2011) Multi-scale Influence of snowmelt on xylogenesis of black spruce. Arct Antarct Alpine Res 43:457-464<\/p>\n

Rossi S, Morin H, Deslauriers A, Plourde P-Y (2011) Predicting xylem phenology in black spruce under climate warming. Global Change Biol 17:614-625<\/p>\n

Tremblay M-J, Rossi S, Morin H (2011) Growth dynamics of black spruce in stands located between the 51st<\/sup> and 52nd<\/sup> parallels in the boreal forest of Quebec, Canada. Can J For Res 41:1769-1778<\/p>\n

Turcotte A, Rossi S, Deslauriers A, Krause C, Morin H (2011) Dynamics of depletion and replenishment of water storage in stem and roots of black spruce measured by dendrometers. Front Plant Sci 2:21<\/p>\n

 <\/p>\n

2010<\/strong><\/p>\n

Krause C, Rossi S, Thibeault-Martel M, Plourde P-Y (2010) Cell features and climatic influences in stems and roots of black spruce and balsam fir. Ann For Sci 67:402<\/p>\n

Lupi C, Morin H, Deslauriers A, Rossi S (2010) Xylem phenology and wood production: resolving the chicken-or-egg dilemma. Plant Cell Environ 33:1721-1730<\/p>\n

Rossi S, Morin H, Tremblay M-J (2010) Growth and productivity of black spruce (Picea mariana<\/em>) belonging to the first cohort in stands within and north of the commercial forest in Quebec, Canada. Ann For Sci 67:807<\/p>\n

 <\/p>\n

2009<\/strong><\/p>\n

Deslauriers A, Giovannelli A, Rossi S, Castro G, Fragnelli G, Traversi L (2009) Intra-annual cambial activity and carbon availability in stem of poplar. Tree Physiol 29:1223-1235<\/p>\n

Rossi S, Rathgeber CBK, Deslauriers A (2009) Comparing needle and shoot phenology with xylem development on three conifer species in Italy. Ann For Sci 66:206<\/p>\n

Rossi S, Simard S, Deslauriers A, Morin H (2009) Wood formation in Abies balsamea<\/em> seedlings subjected to artificial defoliation. Tree Physiol 29:551-558<\/p>\n

Rossi S, Simard S, Rathgeber CBK, Deslauriers A, De Zan C (2009) Effects of a 20-day-long dry period on cambial and apical meristem growth in Abies balsamea<\/em> seedlings. Trees 23:85-93<\/p>\n

Rossi S, Tremblay M-J, Morin H, Levasseur V (2009) Stand structure and dynamics of Picea mariana<\/em> on the northern border of the natural closed boreal forest in Quebec, Canada. Can J For Res 39: 2307-2318<\/p>\n

Rossi S, Tremblay M-J, Morin H, Savard G (2009) Growth and productivity of black spruce in even- and uneven-aged stands at the limit of the closed boreal forest. For Ecol Manage 258:2153-2161<\/p>\n

 <\/p>\n

2008<\/strong><\/p>\n

Deslauriers A, Rossi S, Anfodillo T, Saracino A (2008) Cambium phenology, wood formation and temperature thresholds in two contrasting years at high altitude in Southern Italy. Tree Physiol 28:863-871<\/p>\n

Rossi S, Deslauriers A, Anfodillo T, Carrer M (2008) Age-dependent xylogenesis in timberline conifers. New Phytol 177:199-208<\/p>\n

Rossi S, Deslauriers A, Gri\u010dar J, Seo J-W, Rathgeber CBK, Anfodillo T, Morin H, Levanic T, Oven P, Jalkanen R (2008) Critical temperatures for xylogenesis in conifers of cold climates. Global Ecol Biogeogr 17:696-707<\/p>\n

Thibeault-Martel M, Krause C, Morin H, Rossi S (2008) Cambial activity and intra-annual xylem formation in roots and stems of Abies balsamea<\/em> and Picea mariana<\/em>. Ann Bot 102:667-674<\/p>\n

Valese E, Anfodillo T, Rossi S, Carraro V, Deslauriers A, Carrer M, Monai M, Lemessi A, Ramon E (2008) Realizzazione di un sistema di calcolo e di spazializzazione dell\u2019indice canadese di pericolo d\u2019incendio boschivo FWI (Fire Weather Index) per la Regione Veneto. Forest@ 5: 176-186<\/p>\n

 <\/p>\n

2007<\/strong><\/p>\n

Deslauriers A, Anfodillo T, Rossi S, Carraro V (2007) Using simple causal modelling to understand how water and temperature affect daily stem radial variation in trees. Tree Physiol 27:1125-1136<\/p>\n

Deslauriers A, Rossi S, Anfodillo T (2007) Dendrometer and intra-annual tree growth: what kind of information can be inferred? Dendrochronologia 25:113-124<\/p>\n

Giovannelli A, Deslauriers A, Fragnelli G, Scaletti L, Castro G, Rossi S, Crivellaro A (2007) Evaluation of drought response of two poplar clones (Populus x canadensis M\u00f6nch \u2018I-214\u2019 and P. deltoides Marsh. \u2018Dvina\u2019) through high resolution analysis of stem growth. J Exp Bot 58:2673-2683<\/p>\n

Rossi S, Deslauriers A (2007) Intra-annual time scales in tree rings (Editorial). Dendrochronologia 25:75-77<\/p>\n

Rossi S, Deslauriers A (2007) Scale temporali di azione di temperatura e fotoperiodo sulla xilogenesi al limite superiore del bosco. Forest@ 4:6-10<\/p>\n

Rossi S, Deslauriers A, Anfodillo T, Carraro V (2007) Evidence of threshold temperatures for xylogenesis in conifers at high altitudes. Oecologia 152:1-12<\/p>\n

Rossi S, Deslauriers A, Anfodillo T, Carraro V, Carrer M, Urbinati C, Menardi R, Fontanella F (2007) Effetti della temperatura e del fotoperiodo sulla xilogenesi al limite superiore del bosco. L’Italia Forestale e Montana 2:81-97<\/p>\n

 <\/p>\n

2006<\/strong><\/p>\n

Anfodillo T, Carraro V, Carrer M, Fior C, Rossi S (2006) Converging tapering of xylem conduits in different woody species. New Phytol 169:279-290<\/p>\n

Montecchio L, Rossi S (2006) Amphinema byssoides (Pers.:Fr.) J. Erikss. In Agerer R (ed) Colour Atlas of Ectomycorrhizae, plate 169. Einhorn, Schw\u00e4bisch Gm\u00fcnd<\/p>\n

Montecchio L, Rossi S (2006) Cortinarius ionochlorus (Maire). In Agerer R (ed) Colour Atlas of Ectomycorrhizae, plate 170. Einhorn, Schw\u00e4bisch Gm\u00fcnd<\/p>\n

Montecchio L, Rossi S (2006) Leccinum lepidum (Bouchet ex Essette). In Agerer R (ed) Colour Atlas of Ectomycorrhizae, plate 172. Einhorn, Schw\u00e4bisch Gm\u00fcnd<\/p>\n

Montecchio L, Rossi S, Causin R, Grendene A (2006) Leccinum lepidum (Bouchet ex Essette) Quadr.+Quercus ilex L. Descriptions of Ectomycorrhizae 9\/10:55-60<\/p>\n

Montecchio L, Rossi S, Courty P-E, Garbaye J (2006) Entoloma nitidum Qu\u00e9l.+Carpinus betulus L. Descriptions of Ectomycorrhizae 9\/10:33-38<\/p>\n

Rossi S, Anfodillo T, Menardi R (2006) Campionatore Trephor, uno strumento a supporto delle analisi anatomiche del legno. Sherwood 142:41-44<\/p>\n

Rossi S, Deslauriers A, Anfodillo T (2006) Assessment of cambial activity and xylogenesis by microsampling tree species: an example at the Alpine timberline. IAWA J 27:383-394<\/p>\n

Rossi S, Deslauriers A, Anfodillo T, Morin H, Saracino A, Motta R, Borghetti M (2006) Conifers in cold environments synchronize maximum growth rate of tree-ring formation with day length. New Phytol 170:301-310<\/p>\n

Rossi S, Anfodillo T, Menardi R (2006) Trephor: a new tool for sampling microcores from tree stems. IAWA J 27:89-97<\/p>\n

Rossi S, Montecchio L (2006) “Quercirhiza araneosa”. In Agerer R (ed) Colour Atlas of Ectomycorrhizae, plate 174. Einhorn, Schw\u00e4bisch Gm\u00fcnd<\/p>\n

Rossi S, Montecchio L (2006) “Quercirhiza bicolor”. In Agerer R (ed) Colour Atlas of Ectomycorrhizae, plate 177. Einhorn, Schw\u00e4bisch Gm\u00fcnd<\/p>\n

 <\/p>\n

2005<\/strong><\/p>\n

Rossi S, Menardi R, Fontanella F, Anfodillo T (2005) Campionatore Trephor: un nuovo strumento per l\u2019analisi della xilogenesi in specie legnose. Dendronatura 1:60-67<\/p>\n

Rossi S, Montecchio L (2005) L’ectomicorrizazione artificiale nella vivaistica forestale, applicazione e cure colturali (seconda parte). Sherwood 107:35-38<\/p>\n

Rossi S, Pilli R (2005) Applicazione di un modello di distribuzione dei danni da ghiro ad alcune particelle forestali della Comunit\u00e0 Montana dei Sette Comuni (VI). Linea Ecologica 37(2): 57-64<\/p>\n

 <\/p>\n

2004<\/strong><\/p>\n

Montecchio L, Causin R, Rossi S, Mutto Accordi S (2004) Changes in ectomycorrhizal diversity in a declining Quercus ilex coastal forest. Phytopathol Mediterr 43: 26-34<\/p>\n

Montecchio L, Rossi S, Grendene A, Causin R (2004) “Quercirhiza cistidiofora” + Quercus ilex. Descriptions of ectomycorrhizae 7\/8:95-100<\/p>\n

Rossi S, Montecchio L (2004) L’ectomicorrizazione artificiale nella vivaistica forestale, scelta e coltivazione del fungo (prima parte). Sherwood 106:11-14<\/p>\n

Rossi S, Pilli R, Milocco E (2004) Danni da ghiro: modello di distribuzione in alcuni popolamenti forestali dell\u2019Altopiano di Asiago (VI). Sherwood 100:11-16<\/p>\n

 <\/p>\n

2003<\/strong><\/p>\n

Rossi S, Deslauriers A (2003) La formazione dell\u2019anello legnoso nelle piante forestali: dinamismi e metodi di analisi. Monti e Boschi 5:25-33<\/p>\n

Rossi S, Deslauriers A, Morin H (2003) Application of the Gompertz equation for the study of xylem cell development. Dendrochronologia 21:33-39<\/p>\n

 <\/p>\n

2002<\/strong><\/p>\n

Montecchio L, Rossi S, Grendene A, Causin R (2002) Amphinema byssoides (Pers.:Fr.) J. Erikss. + Quercus ilex. Descriptions of Ectomycorrhizae 6:1-6<\/p>\n

 <\/p>\n

2001<\/strong><\/p>\n

Montecchio L, Rossi S, Causin R (2001) “Quercirhiza incrustata” + Quercus ilex. Descriptions of ectomycorrhizae 5:73-78<\/p>\n

Montecchio L, Rossi S, Grendene A, Causin R (2001) Cortinarius ionochlorus (Maire) + Quercus ilex. Descriptions of Ectomycorrhizae 5:35-40<\/p>\n

 <\/p>\n

2000<\/strong><\/p>\n

Montecchio L, Rossi S (2000) L\u2019ectomicorrizazione: efficace mutualismo tra funghi e piante forestali. Sherwood 6:5-8<\/p>\n

 <\/p>\n

1999<\/strong><\/p>\n

Montecchio L, Rossi S, Grendene A, Causin R, Mutto Accordi S (1999) “Quercirhiza araneosa” + Quercus ilex. Descriptions of Ectomycorrhizae 4:91-96<\/p>\n

Montecchio L, Rossi S, Grendene A, Causin R, Mutto Accordi S (1999) “Quercirhiza bicolor” + Quercus ilex. Descriptions of Ectomycorrhizae 4:97-102<\/p>\n

 <\/p>\n

1998<\/strong><\/p>\n

Montecchio L, Rossi S, Grendene A, Causin R., Mutto Accordi S. (1998) “Quercirhiza sublutea” + Quercus ilex. Descriptions of Ectomycorrhizae 3:93-98<\/p>\n

Montecchio L, Rossi S, Grendene A, Causin R, Mutto Accordi S (1998) “Quercirhiza sublutea”. In Agerer R (ed) Colour Atlas of Ectomycorrhizae, plate 133. Einhorn, Schw\u00e4bisch Gm\u00fcnd<\/p>\n","protected":false},"excerpt":{"rendered":"

Click here\u00a0to download the papers from the University’s library In press Wang C, Fang K, Zhou F, Gao J, Rossi R, Liu J, Dong Z, Azorin-Molina C, Lin S, Camarero JJ, Wu P, Wu H, Linderholm HW, Mei Z, Altman J. Enhanced tropical cyclone precipitation variability is linked to Pacific Decadal Oscillation since the 1940s. … Continue reading Publications<\/span> →<\/span><\/a><\/p>\n","protected":false},"author":87,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"tags":[],"_links":{"self":[{"href":"https:\/\/portfolio.uqac.ca\/sergiorossi\/wp-json\/wp\/v2\/pages\/20"}],"collection":[{"href":"https:\/\/portfolio.uqac.ca\/sergiorossi\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/portfolio.uqac.ca\/sergiorossi\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/portfolio.uqac.ca\/sergiorossi\/wp-json\/wp\/v2\/users\/87"}],"replies":[{"embeddable":true,"href":"https:\/\/portfolio.uqac.ca\/sergiorossi\/wp-json\/wp\/v2\/comments?post=20"}],"version-history":[{"count":63,"href":"https:\/\/portfolio.uqac.ca\/sergiorossi\/wp-json\/wp\/v2\/pages\/20\/revisions"}],"predecessor-version":[{"id":708,"href":"https:\/\/portfolio.uqac.ca\/sergiorossi\/wp-json\/wp\/v2\/pages\/20\/revisions\/708"}],"wp:attachment":[{"href":"https:\/\/portfolio.uqac.ca\/sergiorossi\/wp-json\/wp\/v2\/media?parent=20"}],"wp:term":[{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/portfolio.uqac.ca\/sergiorossi\/wp-json\/wp\/v2\/tags?post=20"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}