Your search keyword '"Telford, RJ"' showing total 7 results

1. Plant trait and vegetation data along a 1314 m elevation gradient with fire history in Puna grasslands, Perú.

Author

Halbritter AH, Vandvik V, Cotner SH, Farfan-Rios W, Maitner BS, Michaletz ST, Oliveras Menor I, Telford RJ, Ccahuana A, Cruz R, Sallo-Bravo J, Santos-Andrade PE, Vilca-Bustamante LL, Castorena M, Chacón-Labella J, Christiansen CT, Duran SM, Egelkraut DD, Gya R, Haugum SV, Seltzer L, Silman MR, Strydom T, Spiegel MP, Barros A, Birkeli K, Boakye M, Chiappero F, Chmurzynski A, Garen JC, Gaudard J, Gauthier TJ, Geange SR, Gonzales FN, Henn JJ, Hošková K, Isaksen A, Jessup LH, Johnson W, Kusch E, Lepley K, Lift M, Martyn TE, Muñoz Mazon M, Middleton SL, Quinteros Casaverde NL, Navarro J, Zepeda V, Ocampo-Zuleta K, Palomino-Cardenas AC, Pastor Ploskonka S, Pierfederici ME, Pinelli V, Rickenback J, Roos RE, Rui HS, Sanchez Diaz E, Sánchez-Tapia A, Smith A, Urquiaga-Flores E, von Oppen J, and Enquist BJ

Subjects

Biodiversity, Peru, Climate, Altitude, Fires, Ecosystem, Grassland, Plants

Abstract

Alpine grassland vegetation supports globally important biodiversity and ecosystems that are increasingly threatened by climate warming and other environmental changes. Trait-based approaches can support understanding of vegetation responses to global change drivers and consequences for ecosystem functioning. In six sites along a 1314 m elevational gradient in Puna grasslands in the Peruvian Andes, we collected datasets on vascular plant composition, plant functional traits, biomass, ecosystem fluxes, and climate data over three years. The data were collected in the wet and dry season and from plots with different fire histories. We selected traits associated with plant resource use, growth, and life history strategies (leaf area, leaf dry/wet mass, leaf thickness, specific leaf area, leaf dry matter content, leaf C, N, P content, C and N isotopes). The trait dataset contains 3,665 plant records from 145 taxa, 54,036 trait measurements (increasing the trait data coverage of the regional flora by 420%) covering 14 traits and 121 plant taxa (ca. 40% of which have no previous publicly available trait data) across 33 families., (© 2024. The Author(s).)

Published

2024

2. Plant traits and associated data from a warming experiment, a seabird colony, and along elevation in Svalbard.

Author

Vandvik V, Halbritter AH, Althuizen IHJ, Christiansen CT, Henn JJ, Jónsdóttir IS, Klanderud K, Macias-Fauria M, Malhi Y, Maitner BS, Michaletz S, Roos RE, Telford RJ, Bass P, Björnsdóttir K, Bustamante LLV, Chmurzynski A, Chen S, Haugum SV, Kemppinen J, Lepley K, Li Y, Linabury M, Matos IS, Neto-Bradley BM, Ng M, Niittynen P, Östman S, Pánková K, Roth N, Castorena M, Spiegel M, Thomson E, Vågenes AS, and Enquist BJ

Subjects

Animals, Birds, Knowledge, Svalbard, Climate, Ecosystem

Abstract

The Arctic is warming at a rate four times the global average, while also being exposed to other global environmental changes, resulting in widespread vegetation and ecosystem change. Integrating functional trait-based approaches with multi-level vegetation, ecosystem, and landscape data enables a holistic understanding of the drivers and consequences of these changes. In two High Arctic study systems near Longyearbyen, Svalbard, a 20-year ITEX warming experiment and elevational gradients with and without nutrient input from nesting seabirds, we collected data on vegetation composition and structure, plant functional traits, ecosystem fluxes, multispectral remote sensing, and microclimate. The dataset contains 1,962 plant records and 16,160 trait measurements from 34 vascular plant taxa, for 9 of which these are the first published trait data. By integrating these comprehensive data, we bridge knowledge gaps and expand trait data coverage, including on intraspecific trait variation. These data can offer insights into ecosystem functioning and provide baselines to assess climate and environmental change impacts. Such knowledge is crucial for effective conservation and management in these vulnerable regions., (© 2023. Springer Nature Limited.)

Published

2023

3. The role of plant functional groups mediating climate impacts on carbon and biodiversity of alpine grasslands.

Author

Vandvik V, Althuizen IHJ, Jaroszynska F, Krüger LC, Lee H, Goldberg DE, Klanderud K, Olsen SL, Telford RJ, Östman SAH, Busca S, Dahle IJ, Egelkraut DD, Geange SR, Gya R, Lynn JS, Meineri E, Young S, and Halbritter AH

Subjects

Biodiversity, Biomass, Carbon, Climate Change, Plants, Soil chemistry, Ecosystem, Grassland

Abstract

Plant removal experiments allow assessment of the role of biotic interactions among species or functional groups in community assembly and ecosystem functioning. When replicated along climate gradients, they can assess changes in interactions among species or functional groups with climate. Across twelve sites in the Vestland Climate Grid (VCG) spanning 4 °C in growing season temperature and 2000 mm in mean annual precipitation across boreal and alpine regions of Western Norway, we conducted a fully factorial plant functional group removal experiment (graminoids, forbs, bryophytes). Over six years, we recorded biomass removed, soil microclimate, plant community composition and structure, seedling recruitment, ecosystem carbon fluxes, and reflectance in 384 experimental and control plots. The dataset consists of 5,412 biomass records, 360 species-level biomass records, 1,084,970 soil temperature records, 4,771 soil moisture records, 17,181 plant records covering 206 taxa, 16,656 seedling records, 3,696 ecosystem carbon flux measurements, and 1,244 reflectance measurements. The data can be combined with longer-term climate data and plant population, community, ecosystem, and functional trait data collected within the VCG., (© 2022. The Author(s).)

Published

2022

4. Plant traits and vegetation data from climate warming experiments along an 1100 m elevation gradient in Gongga Mountains, China.

Author

Vandvik V, Halbritter AH, Yang Y, He H, Zhang L, Brummer AB, Klanderud K, Maitner BS, Michaletz ST, Sun X, Telford RJ, Wang G, Althuizen IHJ, Henn JJ, Garcia WFE, Gya R, Jaroszynska F, Joyce BL, Lehman R, Moerland MS, Nesheim-Hauge E, Nordås LH, Peng A, Ponsac C, Seltzer L, Steyn C, Sullivan MK, Tjendra J, Xiao Y, Zhao X, and Enquist BJ

Subjects

Biodiversity, China, Plant Leaves physiology, Altitude, Climate Change, Ecosystem, Plants classification, Temperature

Abstract

Functional trait data enhance climate change research by linking climate change, biodiversity response, and ecosystem functioning, and by enabling comparison between systems sharing few taxa. Across four sites along a 3000-4130 m a.s.l. gradient spanning 5.3 °C in growing season temperature in Mt. Gongga, Sichuan, China, we collected plant functional trait and vegetation data from control plots, open top chambers (OTCs), and reciprocally transplanted vegetation turfs. Over five years, we recorded vascular plant composition in 140 experimental treatment and control plots. We collected trait data associated with plant resource use, growth, and life history strategies (leaf area, leaf thickness, specific leaf area, leaf dry matter content, leaf C, N and P content and C and N isotopes) from local populations and from experimental treatments. The database consists of 6,671 plant records and 36,743 trait measurements (increasing the trait data coverage of the regional flora by 500%) covering 11 traits and 193 plant taxa (ca. 50% of which have no previous published trait data) across 37 families.

Published

2020

5. How foreign is the past?

Author

Telford RJ, Chipperfield JD, Birks HH, and Birks HJ

Published

2016

6. East Asian summer monsoon precipitation variability since the last deglaciation.

Author

Chen F, Xu Q, Chen J, Birks HJ, Liu J, Zhang S, Jin L, An C, Telford RJ, Cao X, Wang Z, Zhang X, Selvaraj K, Lu H, Li Y, Zheng Z, Wang H, Zhou A, Dong G, Zhang J, Huang X, Bloemendal J, and Rao Z

Abstract

The lack of a precisely-dated, unequivocal climate proxy from northern China, where precipitation variability is traditionally considered as an East Asian summer monsoon (EASM) indicator, impedes our understanding of the behaviour and dynamics of the EASM. Here we present a well-dated, pollen-based, ~20-yr-resolution quantitative precipitation reconstruction (derived using a transfer function) from an alpine lake in North China, which provides for the first time a direct record of EASM evolution since 14.7 ka (ka = thousands of years before present, where the "present" is defined as the year AD 1950). Our record reveals a gradually intensifying monsoon from 14.7-7.0 ka, a maximum monsoon (30% higher precipitation than present) from ~7.8-5.3 ka, and a rapid decline since ~3.3 ka. These insolation-driven EASM trends were punctuated by two millennial-scale weakening events which occurred synchronously to the cold Younger Dryas and at ~9.5-8.5 ka, and by two centennial-scale intervals of enhanced (weakened) monsoon during the Medieval Warm Period (Little Ice Age). Our precipitation reconstruction, consistent with temperature changes but quite different from the prevailing view of EASM evolution, points to strong internal feedback processes driving the EASM, and may aid our understanding of future monsoon behaviour under ongoing anthropogenic climate change.

Published

2015

7. Diatom flickering prior to regime shift.

Author

Carstensen J, Telford RJ, and Birks HJ

Subjects

Eutrophication, Forecasting methods, Lakes

Published

2013