14 results on '"Shetti, Rohan"'
Search Results
2. Incorporating high-resolution climate, remote sensing and topographic data to map annual forest growth in central and eastern Europe
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Jevšenak, Jernej, Klisz, Marcin, Mašek, Jiří, Čada, Vojtěch, Janda, Pavel, Svoboda, Miroslav, Vostarek, Ondřej, Treml, Vaclav, van der Maaten, Ernst, Popa, Andrei, Popa, Ionel, van der Maaten-Theunissen, Marieke, Zlatanov, Tzvetan, Scharnweber, Tobias, Ahlgrimm, Svenja, Stolz, Juliane, Sochová, Irena, Roibu, Cătălin-Constantin, Pretzsch, Hans, Schmied, Gerhard, Uhl, Enno, Kaczka, Ryszard, Wrzesiński, Piotr, Šenfeldr, Martin, Jakubowski, Marcin, Tumajer, Jan, Wilmking, Martin, Obojes, Nikolaus, Rybníček, Michal, Lévesque, Mathieu, Potapov, Aleksei, Basu, Soham, Stojanović, Marko, Stjepanović, Stefan, Vitas, Adomas, Arnič, Domen, Metslaid, Sandra, Neycken, Anna, Prislan, Peter, Hartl, Claudia, Ziche, Daniel, Horáček, Petr, Krejza, Jan, Mikhailov, Sergei, Světlík, Jan, Kalisty, Aleksandra, Kolář, Tomáš, Lavnyy, Vasyl, Hordo, Maris, Oberhuber, Walter, Levanič, Tom, Mészáros, Ilona, Schneider, Lea, Lehejček, Jiří, Shetti, Rohan, Bošeľa, Michal, Copini, Paul, Koprowski, Marcin, Sass-Klaassen, Ute, Izmir, Şule Ceyda, Bakys, Remigijus, Entner, Hannes, Esper, Jan, Janecka, Karolina, Martinez del Castillo, Edurne, Verbylaite, Rita, Árvai, Mátyás, de Sauvage, Justine Charlet, Čufar, Katarina, Finner, Markus, Hilmers, Torben, Kern, Zoltán, Novak, Klemen, Ponjarac, Radenko, Puchałka, Radosław, Schuldt, Bernhard, Škrk Dolar, Nina, Tanovski, Vladimir, Zang, Christian, Žmegač, Anja, Kuithan, Cornell, Metslaid, Marek, Thurm, Eric, Hafner, Polona, Krajnc, Luka, Bernabei, Mauro, Bojić, Stefan, Brus, Robert, Burger, Andreas, D'Andrea, Ettore, Đorem, Todor, Gławęda, Mariusz, Gričar, Jožica, Gutalj, Marko, Horváth, Emil, Kostić, Saša, Matović, Bratislav, Merela, Maks, Miletić, Boban, Morgós, András, Paluch, Rafał, Pilch, Kamil, Rezaie, Negar, Rieder, Julia, Schwab, Niels, Sewerniak, Piotr, Stojanović, Dejan, Ullmann, Tobias, Waszak, Nella, Zin, Ewa, Skudnik, Mitja, Oštir, Krištof, Rammig, Anja, and Buras, Allan
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- 2024
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3. What determines vegetation on rock outcrops of the Western Ghats: the macro-environment or lithotype?
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Kulkarni, Aboli, Shetti, Rohan, Shigwan, Bhushan K., Vijayan, Smrithy, and Datar, Mandar N.
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- 2021
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4. Tundra Trait Team : A database of plant traits spanning the tundra biome
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Bjorkman, Anne D., Myers-Smith, Isla H., Elmendorf, Sarah C., Normand, Signe, Thomas, Haydn J. D., Alatalo, Juha M., Alexander, Heather, Anadon-Rosell, Alba, Angers-Blondin, Sandra, Bai, Yang, Baruah, Gaurav, te Beest, Mariska, Berner, Logan, Björk, Robert G., Blok, Daan, Bruelheide, Helge, Buchwal, Agata, Buras, Allan, Carbognani, Michele, Christie, Katherine, Collier, Laura S., Cooper, Elisabeth J., Cornelissen, J. Hans C., Dickinson, Katharine J. M., Dullinger, Stefan, Elberling, Bo, Eskelinen, Anu, Forbes, Bruce C., Frei, Esther R., Iturrate-Garcia, Maitane, Good, Megan K., Grau, Oriol, Green, Peter, Greve, Michelle, Grogan, Paul, Haider, Sylvia, Hájek, Tomáš, Hallinger, Martin, Happonen, Konsta, Harper, Karen A., Heijmans, Monique M. P. D., Henry, Gregory H. R., Hermanutz, Luise, Hewitt, Rebecca E., Hollister, Robert D., Hudson, James, Hülber, Karl, Iversen, Colleen M., Jaroszynska, Francesca, Jiménez-Alfaro, Borja, Johnstone, Jill, Jorgesen, Rasmus Halfdan, Kaarlejärvi, Elina, Klady, Rebecca, Klimešová, Jitka, Korsten, Annika, Kuleza, Sara, Kulonen, Aino, Lamarque, Laurent J., Lantz, Trevor, Lavalle, Amanda, Lembrechts, Jonas J., Lévesque, Esther, Little, Chelsea J., Luoto, Miska, Macek, Petr, Mack, Michelle C., Mathakutha, Rabia, Michelsen, Anders, Milbau, Ann, Molau, Ulf, Morgan, John W., Mörsdorf, Martin Alfons, Nabe-Nielsen, Jacob, Nielsen, Sigrid Schøler, Ninot, Josep M., Oberbauer, Steven F., Olofsson, Johan, Onipchenko, Vladimir G., Petraglia, Alessandro, Pickering, Catherine, Prevéy, Janet S., Rixen, Christian, Rumpf, Sabine B., Schaepman-Strub, Gabriela, Semenchuk, Philipp, Shetti, Rohan, Soudzilovskaia, Nadejda A., Spasojevic, Marko J., Speed, James David Mervyn, Street, Lorna E., Suding, Katharine, Tape, Ken D., Tomaselli, Marcello, Trant, Andrew, Treier, Urs A., Tremblay, Jean-Pierre, Tremblay, Maxime, Venn, Susanna, Virkkala, Anna-Maria, Vowles, Tage, Weijers, Stef, Wilmking, Martin, Wipf, Sonja, and Zamin, Tara
- Published
- 2018
5. Major tree species of Central European forests differ in their proportion of positive, negative, and nonstationary growth trends.
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Kašpar, Jakub, Tumajer, Jan, Altman, Jan, Altmanová, Nela, Čada, Vojtěch, Čihák, Tomáš, Doležal, Jiří, Fibich, Pavel, Janda, Pavel, Kaczka, Ryszard, Kolář, Tomáš, Lehejček, Jiří, Mašek, Jiří, Hellebrandová, Kateřina Neudertová, Rybníček, Michal, Rydval, Miloš, Shetti, Rohan, Svoboda, Miroslav, Šenfeldr, Martin, and Šamonil, Pavel
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NORWAY spruce ,SCOTS pine ,EUROPEAN beech ,TEMPERATE forests ,DURMAST oak ,ENGLISH oak ,SPECIES - Abstract
Temperate forests are undergoing significant transformations due to the influence of climate change, including varying responses of different tree species to increasing temperature and drought severity. To comprehensively understand the full range of growth responses, representative datasets spanning extensive site and climatic gradients are essential. This study utilizes tree‐ring data from 550 sites from the temperate forests of Czechia to assess growth trends of six dominant Central European tree species (European beech, Norway spruce, Scots pine, silver fir, sessile and pedunculate oak) over 1990–2014. By modeling mean growth series for each species and site, and employing principal component analysis, we identified the predominant growth trends. Over the study period, linear growth trends were evident across most sites (56% increasing, 32% decreasing, and 10% neutral). The proportion of sites with stationary positive trends increased from low toward high elevations, whereas the opposite was true for the stationary negative trends. Notably, within the middle range of their distribution (between 500 and 700 m a.s.l.), Norway spruce and European beech exhibited a mix of positive and negative growth trends. While Scots pine growth trends showed no clear elevation‐based pattern, silver fir and oaks displayed consistent positive growth trends regardless of site elevation, indicating resilience to the ongoing warming. We demonstrate divergent growth trajectories across space and among species. These findings are particularly important as recent warming has triggered a gradual shift in the elevation range of optimal growth conditions for most tree species and has also led to a decoupling of growth trends between lowlands and mountain areas. As a result, further future shifts in the elevation range and changes in species diversity of European temperate forests can be expected. [ABSTRACT FROM AUTHOR]
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- 2024
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6. Influence of larval outbreaks on the climate reconstruction potential of an Arctic shrub
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Wilmking, Martin, Buras, Allan, Lehejček, Jiří, Lange, Jelena, Shetti, Rohan, and van der Maaten, Ernst
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- 2018
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7. Climate sensitivity is affected by growth differentiation along the length of Juniperus communis L. shrub stems in the Ural Mountains
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Shetti, Rohan, Buras, Allan, Smiljanic, Marko, and Wilmking, Martin
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- 2018
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8. Does sex matter? Gender-specificity and its influence on site-chronologies in the common dioecious shrub Juniperus communis
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Shetti, Rohan, Buras, Allan, Smiljanic, Marko, Hallinger, Martin, Grigoriev, Andrey A., and Wilmking, Martin
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- 2018
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9. The relationship between vegetation, plant functional diversity and environment on rock outcrops in the Western Ghats, India.
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Kulkarni, Aboli, Shetti, Rohan, Shigwan, Bhushan K., Smrithy, Vijayan, and Datar, Mandar N.
- Subjects
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TRANSECT method , *PLANT communities , *CLUSTER analysis (Statistics) , *CARBON in soils , *ALTITUDES , *PLANT diversity - Abstract
Rock outcrops support specialist plant communities that are often adapted to highly seasonal climates and heterogeneous soil cover. However, the relationship between environmental parameters and plant functional types remains unexplored in many regions of the world, including the Northern Western Ghats (NWG) in India. In the present work, we characterised the vegetation of high and low elevation rock outcrops in the NWG, and investigate the relationship between plant functional types and environmental variables. Vegetation surveys were conducted on 16 high elevation and 14 low elevation sites using a transect and quadrat method. Floristic data were used to calculate plant diversity and plant functional type abundance. The relationship between vegetation and climatic (temperature, precipitation) and soil (soil carbon and nitrogen) variables was explored using cluster and ordination analysis. Rock outcrop sites were grouped into two clusters based on elevation, distance from the sea and mean diurnal range. Plant functional type abundance was related to macro-environmental variables such as temperature, precipitation and soil nutrients such as carbon and nitrogen. We inferred that the distribution and dominance of different plant functional types in the NWG are related to primarily by elevation (a proxy for temperature) and distance from the sea. [ABSTRACT FROM AUTHOR]
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- 2023
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10. Growing faster, longer or both? Modelling plastic response of Juniperus communis growth phenology to climate change.
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Tumajer, Jan, Buras, Allan, Camarero, J. Julio, Carrer, Marco, Shetti, Rohan, Wilmking, Martin, Altman, Jan, Sangüesa‐Barreda, Gabriel, Lehejček, Jiří, and Michaletz, Sean
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CLIMATE change ,PLANT phenology ,PHENOLOGY ,JUNIPERS ,GROWING season ,WOODY plants - Abstract
Aim: Plant growth and phenology respond plastically to changing climatic conditions in both space and time. Species‐specific levels of growth plasticity determine biogeographical patterns and the adaptive capacity of species to climate change. However, a direct assessment of spatial and temporal variability in radial growth dynamics is complicated, because long records of cambial phenology do not exist. Location: Sixteen sites across European distribution margins of Juniperus communis L. (the Mediterranean, the Arctic, the Alps and the Urals). Time period: 1940–2016. Major taxa studied: Juniperus communis. Methods: We applied the Vaganov–Shashkin process‐based model of wood formation to estimate trends in growing season duration and growth kinetics since 1940. We assumed that J. communis would exhibit spatially and temporally variable growth patterns reflecting local climatic conditions. Results: Our simulations indicate regional differences in growth dynamics and plastic responses to climate warming. The mean growing season duration is the longest at Mediterranean sites and, recently, there has been a significant trend towards its extension of up to 0.44 days/year. However, this stimulating effect of a longer growing season is counteracted by declining summer growth rates caused by amplified drought stress. Consequently, overall trends in simulated ring widths are marginal in the Mediterranean. In contrast, durations of growing seasons in the Arctic show lower and mostly non‐significant trends. However, spring and summer growth rates follow increasing temperatures, leading to a growth increase of up to 0.32 %/year. Main conclusions: This study highlights the plasticity in growth phenology of widely distributed shrubs to climate warming: an earlier onset of cambial activity that offsets the negative effects of summer droughts in the Mediterranean and, conversely, an intensification of growth rates during the short growing seasons in the Arctic. Such plastic growth responsiveness allows woody plants to adapt to the local pace of climate change. [ABSTRACT FROM AUTHOR]
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- 2021
- Full Text
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11. Global assessment of relationships between climate and tree growth.
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Wilmking, Martin, Maaten‐Theunissen, Marieke, Maaten, Ernst, Scharnweber, Tobias, Buras, Allan, Biermann, Christine, Gurskaya, Marina, Hallinger, Martin, Lange, Jelena, Shetti, Rohan, Smiljanic, Marko, and Trouillier, Mario
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TREE growth ,TREE-rings ,ENVIRONMENTAL sciences ,CLIMATOLOGY ,EVOLUTIONARY theories - Abstract
Tree‐ring records provide global high‐resolution information on tree‐species responses to global change, forest carbon and water dynamics, and past climate variability and extremes. The underlying assumption is a stationary (time‐stable), quasi‐linear relationship between tree growth and environment, which however conflicts with basic ecological and evolutionary theory. Indeed, our global assessment of the relevant tree‐ring literature demonstrates non‐stationarity in the majority of tested cases, not limited to specific proxies, environmental parameters, regions or species. Non‐stationarity likely represents the general nature of the relationship between tree‐growth proxies and environment. Studies assuming stationarity however score two times more citations influencing other fields of science and the science–policy interface. To reconcile ecological reality with the application of tree‐ring proxies for climate or environmental estimates, we provide a clarification of the stationarity concept, propose a simple confidence framework for the re‐evaluation of existing studies and recommend the use of a new statistical tool to detect non‐stationarity in tree‐ring proxies. Our contribution is meant to stimulate and facilitate discussion in light of our results to help increase confidence in tree‐ring‐based climate and environmental estimates for science, the public and policymakers. [ABSTRACT FROM AUTHOR]
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- 2020
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12. Diverging shrub and tree growth from the Polar to the Mediterranean biomes across the European continent.
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Pellizzari, Elena, Camarero, Jesus Julio, Gazol, Antonio, Granda, Elena, Shetti, Rohan, Wilmking, Martin, Moiseev, Pavel, Pividori, Mario, and Carrer, Marco
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SHRUBS ,TREES & climate ,TREE development ,JUNIPERS - Abstract
Climate warming is expected to enhance productivity and growth of woody plants, particularly in temperature-limited environments at the northernmost or uppermost limits of their distribution. However, this warming is spatially uneven and temporally variable, and the rise in temperatures differently affects biomes and growth forms. Here, applying a dendroecological approach with generalized additive mixed models, we analysed how the growth of shrubby junipers and coexisting trees (larch and pine species) responds to rising temperatures along a 5000-km latitudinal range including sites from the Polar, Alpine to the Mediterranean biomes. We hypothesize that, being more coupled to ground microclimate, junipers will be less influenced by atmospheric conditions and will less respond to the post-1950 climate warming than coexisting standing trees. Unexpectedly, shrub and tree growth forms revealed divergent growth trends in all the three biomes, with juniper performing better than trees at Mediterranean than at Polar and Alpine sites. The post-1980s decline of tree growth in Mediterranean sites might be induced by drought stress amplified by climate warming and did not affect junipers. We conclude that different but coexisting long-living growth forms can respond differently to the same climate factor and that, even in temperature-limited area, other drivers like the duration of snow cover might locally play a fundamental role on woody plants growth across Europe. [ABSTRACT FROM AUTHOR]
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- 2017
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13. Call to complete the circumarctic juniper network - an environmental proxy.
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Lehejček, Jiří, Buras, Allan, Shetti, Rohan, Wilmking, Martin, and Pellizzari, Elena
- Published
- 2017
14. Plant functional trait change across a warming tundra biome.
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Bjorkman AD, Myers-Smith IH, Elmendorf SC, Normand S, Rüger N, Beck PSA, Blach-Overgaard A, Blok D, Cornelissen JHC, Forbes BC, Georges D, Goetz SJ, Guay KC, Henry GHR, HilleRisLambers J, Hollister RD, Karger DN, Kattge J, Manning P, Prevéy JS, Rixen C, Schaepman-Strub G, Thomas HJD, Vellend M, Wilmking M, Wipf S, Carbognani M, Hermanutz L, Lévesque E, Molau U, Petraglia A, Soudzilovskaia NA, Spasojevic MJ, Tomaselli M, Vowles T, Alatalo JM, Alexander HD, Anadon-Rosell A, Angers-Blondin S, Beest MT, Berner L, Björk RG, Buchwal A, Buras A, Christie K, Cooper EJ, Dullinger S, Elberling B, Eskelinen A, Frei ER, Grau O, Grogan P, Hallinger M, Harper KA, Heijmans MMPD, Hudson J, Hülber K, Iturrate-Garcia M, Iversen CM, Jaroszynska F, Johnstone JF, Jørgensen RH, Kaarlejärvi E, Klady R, Kuleza S, Kulonen A, Lamarque LJ, Lantz T, Little CJ, Speed JDM, Michelsen A, Milbau A, Nabe-Nielsen J, Nielsen SS, Ninot JM, Oberbauer SF, Olofsson J, Onipchenko VG, Rumpf SB, Semenchuk P, Shetti R, Collier LS, Street LE, Suding KN, Tape KD, Trant A, Treier UA, Tremblay JP, Tremblay M, Venn S, Weijers S, Zamin T, Boulanger-Lapointe N, Gould WA, Hik DS, Hofgaard A, Jónsdóttir IS, Jorgenson J, Klein J, Magnusson B, Tweedie C, Wookey PA, Bahn M, Blonder B, van Bodegom PM, Bond-Lamberty B, Campetella G, Cerabolini BEL, Chapin FS 3rd, Cornwell WK, Craine J, Dainese M, de Vries FT, Díaz S, Enquist BJ, Green W, Milla R, Niinemets Ü, Onoda Y, Ordoñez JC, Ozinga WA, Penuelas J, Poorter H, Poschlod P, Reich PB, Sandel B, Schamp B, Sheremetev S, and Weiher E
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- Biometry, Geographic Mapping, Humidity, Phenotype, Soil chemistry, Spatio-Temporal Analysis, Temperature, Water analysis, Global Warming, Plant Physiological Phenomena, Plants anatomy & histology, Tundra
- Abstract
The tundra is warming more rapidly than any other biome on Earth, and the potential ramifications are far-reaching because of global feedback effects between vegetation and climate. A better understanding of how environmental factors shape plant structure and function is crucial for predicting the consequences of environmental change for ecosystem functioning. Here we explore the biome-wide relationships between temperature, moisture and seven key plant functional traits both across space and over three decades of warming at 117 tundra locations. Spatial temperature-trait relationships were generally strong but soil moisture had a marked influence on the strength and direction of these relationships, highlighting the potentially important influence of changes in water availability on future trait shifts in tundra plant communities. Community height increased with warming across all sites over the past three decades, but other traits lagged far behind predicted rates of change. Our findings highlight the challenge of using space-for-time substitution to predict the functional consequences of future warming and suggest that functions that are tied closely to plant height will experience the most rapid change. They also reveal the strength with which environmental factors shape biotic communities at the coldest extremes of the planet and will help to improve projections of functional changes in tundra ecosystems with climate warming.
- Published
- 2018
- Full Text
- View/download PDF
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