Articles citing this paper
cfArticle2ecfc1291681887$funcTITLE@74116a23
R. V. Gallagher A B , L. Hughes A and M. R. Leishman A
+ Author Affiliations
- Author Affiliations
A Department of Biological Sciences, Macquarie University, NSW 2109, Australia.
B Corresponding author. Email: rgallagher@bio.mq.edu.au
Australian Journal of Botany 57(1) 1-9 https://doi.org/10.1071/BT08051
Submitted: 23 March 2008 Accepted: 15 December 2008 Published: 23 March 2009
99 articles found in Crossref database.
Phenological Research (2010)
Botanic gardens science for conservation and global change
Donaldson John S.
Trends in Plant Science. 2009 14(11). p.608
Improving Provenance Data in Natural History Collection Databases
Rosenberg Gary, Khoo Michael
American Malacological Bulletin. 2018 36(2). p.215
Why vouchers matter in botanical research
Culley Theresa M.
Applications in Plant Sciences. 2013 1(11).
Energy and water use for drip‐irrigated potato in the Middle Anatolian region of Turkey
Yavuz Duran,
Suheri Sinan, Yavuz Nurcan
Environmental Progress & Sustainable Energy. 2016 35(1). p.212
Herbarium specimens, photographs, and field observations show Philadelphia area plants are responding to climate change
Panchen Zoe A.,
Primack Richard B.,
Aniśko Tomasz, Lyons Robert E.
American Journal of Botany. 2012 99(4). p.751
Old Plants, New Tricks: Phenological Research Using Herbarium Specimens
Willis Charles G.,
Ellwood Elizabeth R.,
Primack Richard B.,
Davis Charles C.,
Pearson Katelin D.,
Gallinat Amanda S.,
Yost Jenn M.,
Nelson Gil,
Mazer Susan J.,
Rossington Natalie L.,
Sparks Tim H., Soltis Pamela S.
Trends in Ecology & Evolution. 2017 32(7). p.531
Herbaria as Big Data Sources of Plant Traits
Heberling J. Mason
International Journal of Plant Sciences. 2022 183(2). p.87
PHENOLOGICAL SENSITIVITIES TO CLIMATE ARE SIMILAR IN TWO CLARKIA CONGENERS: INDIRECT EVIDENCE FOR FACILITATION, CONVERGENCE, NICHE CONSERVATISM, OR GENETIC CONSTRAINTS
Mazer Susan J.,
Love Natalie L. R.,
Park Isaac W.,
Ramirez-Parada Tadeo, Matthews Elizabeth R.
Madroño. 2021 68(4).
Inconsistent responses of alpine arthropod communities to experimental warming and thermal gradients
Nash MA,
Griffin PC, Hoffmann AA
Climate Research. 2013 55(3). p.227
Tree-ring reconstructions of cool season temperature for far southeastern Australia, 1731–2007
Allen K. J.,
Anchukaitis K. J.,
Grose M. G.,
Lee G.,
Cook E. R.,
Risbey J. S.,
O’Kane T. J.,
Monselesan D.,
O’Grady A.,
Larsen S., Baker P. J.
Climate Dynamics. 2019 53(1-2). p.569
Decades-scale vegetation change in burned and unburned alpine coniferous heath
Kirkpatrick J. B.,
Bridle K. L., Dickinson K. J. M.
Australian Journal of Botany. 2010 58(6). p.453
Temperature controls phenology in continuously flowering Protea species of subtropical Africa
Daru Barnabas H.,
Kling Matthew M.,
Meineke Emily K., van Wyk Abraham E.
Applications in Plant Sciences. 2019 7(3).
The reproduction of Colletia hystrix and late-flowering in Colletia (Rhamnaceae: Colletieae)
Medan Diego, Torretta Juan Pablo
Plant Systematics and Evolution. 2015 301(4). p.1181
Fauna data integration and species distribution modelling as two major advantages of geoinformatics-based phytobiodiversity study in today’s fast changing climate
Matin Shafique,
Chitale Vishwas Sudhir,
Behera Mukunda Dev,
Mishra Birupakshya, Roy Partha Sarathi
Biodiversity and Conservation. 2012 21(5). p.1229
Southern hemisphere plants show more delays than advances in flowering phenology
Everingham Susan E.,
Blick Raymond A. J.,
Sabot Manon E. B.,
Slavich Eve, Moles Angela T.
Journal of Ecology. 2023 111(2). p.380
Shifts in the timing of the early flowering in plants from a semi-arid ecoregion under climate change
Fazlioglu Fatih
Biologia. 2019 74(5). p.437
The phenology of Rubus fruticosus in Ireland: herbarium specimens provide evidence for the response of phenophases to temperature, with implications for climate warming
Diskin E.,
Proctor H.,
Jebb M.,
Sparks T., Donnelly A.
International Journal of Biometeorology. 2012 56(6). p.1103
Application of Bioindicators to Assess Changing Patterns: A Case in the Himalaya
Dhar Uppeandra
Proceedings of the National Academy of Sciences, India Section B: Biological Sciences. 2012
Orchid diversity: Spatial and climatic patterns from herbarium records
Gaskett Anne C., Gallagher Rachael V.
Ecology and Evolution. 2018 8(22). p.11235
Phenological Research (2010)
The phenology of cherry blossom (Prunus yedoensis “Somei-yoshino”) and the geographic features contributing to its flowering
Ohashi Yukitaka,
Kawakami Hiroshi,
Shigeta Yoshinori,
Ikeda Hiroshi, Yamamoto Nobuko
International Journal of Biometeorology. 2012 56(5). p.903
Phenological changes in six Australian subalpine plants in response to experimental warming and year‐to‐year variation
Hoffmann Ary A.,
Camac James S.,
Williams Richard J.,
Papst Warwick,
Jarrad Frith C., Wahren Carl‐Henrik
Journal of Ecology. 2010 98(4). p.927
Phenological Changes in the Southern Hemisphere
Chambers Lynda E.,
Altwegg Res,
Barbraud Christophe,
Barnard Phoebe,
Beaumont Linda J.,
Crawford Robert J. M.,
Durant Joel M.,
Hughes Lesley,
Keatley Marie R.,
Low Matt,
Morellato Patricia C.,
Poloczanska Elvira S.,
Ruoppolo Valeria,
Vanstreels Ralph E. T.,
Woehler Eric J.,
Wolfaardt Anton C., Hérault Bruno
PLoS ONE. 2013 8(10). p.e75514
Interdisciplinary approaches: towards new statistical methods for phenological studies
Hudson Irene Lena
Climatic Change. 2010 100(1). p.143
Detecting change in an Australian flowering record: Comparisons of linear regression and cumulative sum analysis change point analysis
KEATLEY MARIE R., HUDSON IRENE L.
Austral Ecology. 2012 37(7). p.825
Genetic Diversity and Erosion in Plants (2015)
Climate Change: Bees and Orchids Lose Touch
Willmer Pat
Current Biology. 2014 24(23). p.R1133
Recovery of subalpine grasslands 15 years after landscape level fires
Verrall Brodie, Pickering Catherine Marina
Australian Journal of Botany. 2019 67(5). p.425
Climate affects the rate at which species successively flower: Capturing an emergent property of regional floras
Park Isaac W.,
Mazer Susan J., Morellato Patricia
Global Ecology and Biogeography. 2019 28(8). p.1078
Hydrospatial assessment of streamflow yields and effects of climate change: Snowy Mountains, Australia
Reinfelds Ivars,
Swanson Ellen,
Cohen Tim,
Larsen Josh, Nolan Andrew
Journal of Hydrology. 2014 512 p.206
Energy input-output analysis of rice production in Nigeria
Kosemani Babajide S., Bamgboye A. Isaac
Energy. 2020 207 p.118258
Using photographs and deep neural networks to understand flowering phenology and diversity in mountain meadows
John Aji,
Theobald Elli J.,
Cristea Nicoleta,
Tan Amanda, Hille Ris Lambers Janneke
Remote Sensing in Ecology and Conservation. 2024
Increasing temperature causes flowering onset time changes of alpine ginger Roscoea in the Central Himalayas
Mohandass Dharmalingam,
Zhao Jian-Li,
Xia Yong-Mei,
Campbell Mason J., Li Qing-Jun
Journal of Asia-Pacific Biodiversity. 2015 8(3). p.191
Snowmelt variation contributes to topoclimatic refugia under montane Mediterranean climate change
Royce Edwin B.
Canadian Journal of Forest Research. 2018 48(12). p.1526
Genetic Structure ofCarexSpecies from the Australian Alpine Region along Elevation Gradients: Patterns of Reproduction and Gene Flow
M’Baya Jessica,
Blacket Mark J., Hoffmann Ary A.
International Journal of Plant Sciences. 2013 174(2). p.189
Life on Land (2020)
Potential of herbarium records to sequence phenological pattern: a case study of Aconitum heterophyllum in the Himalaya
Gaira Kailash S.,
Dhar Uppeandra, Belwal O. K.
Biodiversity and Conservation. 2011 20(10). p.2201
Geographical bias constrains global knowledge of phenological change
Butt Nathalie
Pacific Conservation Biology. 2019 25(4). p.345
Herbarium-based study of flowering and fruiting phenology of twelve indigenous and endemic plant species from Ethiopia
Dagnachew Sinework,
Teketay Demel,
Demissew Sebsebe,
Awas Tesfaye, Kindu Mengistie
South African Journal of Botany. 2022 150 p.260
Species-level phenological responses to ‘global warming’ as evidenced by herbarium collections in the Tibetan Autonomous Region
Li Zhongrong,
Wu Ning,
Gao Xinfen,
Wu Yan, Oli Krishna P.
Biodiversity and Conservation. 2013 22(1). p.141
Validation of biological collections as a source of phenological data for use in climate change studies: a case study with the orchid Ophrys sphegodes
Robbirt Karen M.,
Davy Anthony J.,
Hutchings Michael J., Roberts David L.
Journal of Ecology. 2011 99(1). p.235
Resampling alpine herbarium records reveals changes in plant traits over space and time
Jaroszynska Francesca,
Rixen Christian,
Woodin Sarah,
Lenoir Jonathan, Wipf Sonja
Journal of Ecology. 2023 111(2). p.338
Evaluation of recent trends in Australian pome fruit spring phenology
Darbyshire Rebecca,
Webb Leanne,
Goodwin Ian, Barlow E. W. R.
International Journal of Biometeorology. 2013 57(3). p.409
Phenological response of different vegetation types to temperature and precipitation variations in northern China during 1982–2012
Tao Zexing,
Wang Huanjiong,
Liu Yachen,
Xu Yunjia, Dai Junhu
International Journal of Remote Sensing. 2017 38(11). p.3236
Microhabitat use by mountain pygmy‐possum (Burramys parvus): Implications for the conservation of small mammals in alpine environments
Shi Haijing,
Paull David,
Broome Linda, Bates Hayley
Austral Ecology. 2015 40(5). p.528
Alpine vegetation in the context of climate change: A global review of past research and future directions
Verrall Brodie, Pickering Catherine Marina
Science of The Total Environment. 2020 748 p.141344
Climate shapes community flowering periods across biomes
Stephens Ruby E.,
Sauquet Hervé,
Guerin Greg R.,
Jiang Mingkai,
Falster Daniel, Gallagher Rachael V.
Journal of Biogeography. 2022 49(7). p.1205
Predicting the effects of climate change on reproductive fitness of an endangered montane lizard, Eulamprus leuraensis (Scincidae)
Dubey Sylvain, Shine Richard
Climatic Change. 2011 107(3-4). p.531
Changes in the geographical distribution of plant species and climatic variables on the West Cornwall peninsula (South West UK)
Kosanic Aleksandra,
Anderson Karen,
Harrison Stephan,
Turkington Thea,
Bennie Jonathan, Green Andy J
PLOS ONE. 2018 13(2). p.e0191021
Life on Land (2021)
Herders’ Perceptions of and Responses to Climate Change in Northern Pakistan
Joshi S.,
Jasra W. A.,
Ismail M.,
Shrestha R. M.,
Yi S. L., Wu N.
Environmental Management. 2013 52(3). p.639
Herbarium specimens can reveal impacts of climate change on plant phenology; a review of methods and applications
Jones Casey A., Daehler Curtis C.
PeerJ. 2018 6 p.e4576
Medicinal Plants and Ethnomedicine in Peril: A Case Study from Nepal Himalaya
Kunwar Ripu M.,
Lamichhane Pandey Mina,
Mahat Kunwar Laxmi, Bhandari Ananta
Evidence-Based Complementary and Alternative Medicine. 2014 2014 p.1
Life on Land (2021)
ANALYSIS OF CHANGES IN FLOWERING PHASES AND AIRBORNE POLLEN DISPERSION OF THE GENUS BETULA (BIRCH)
Veriankaitė Laura,
Šaulienė Ingrida, Bukantis Arūnas
JOURNAL OF ENVIRONMENTAL ENGINEERING AND LANDSCAPE MANAGEMENT. 2010 18(2). p.137
The contribution of small collections to species distribution modelling: A case study from Fuireneae (Cyperaceae)
Glon Heather E.,
Heumann Benjamin W.,
Carter J. Richard,
Bartek Jessica M., Monfils Anna K.
Ecological Informatics. 2017 42 p.67
Phenology and climate - early Australian botanical records
Chambers Lynda E., Keatley Marie R.
Australian Journal of Botany. 2010 58(6). p.473
Impacts of recent climate change on terrestrial flora and fauna: Some emerging Australian examples
Hoffmann Ary A.,
Rymer Paul D.,
Byrne Margaret,
Ruthrof Katinka X.,
Whinam Jennie,
McGeoch Melodie,
Bergstrom Dana M.,
Guerin Greg R.,
Sparrow Ben,
Joseph Leo,
Hill Sarah J.,
Andrew Nigel R.,
Camac James,
Bell Nicholas,
Riegler Markus,
Gardner Janet L., Williams Stephen E.
Austral Ecology. 2019 44(1). p.3
Climate Change and Flowering Phenology in Worcester County, Massachusetts
Bertin Robert I.
International Journal of Plant Sciences. 2015 176(2). p.107
Plant genetic resources collections and associated information as a baseline resource for genetic diversity studies: an assessment of the IBPGR-supported collections
Thormann I.,
Fiorino E.,
Halewood M., Engels J. M. M.
Genetic Resources and Crop Evolution. 2015 62(8). p.1279
Reproductive phenology of Leptolobium dasycarpum and L. elegans across the Brazilian savanna based on herbarium records
Fava Wellington Santos,
da Cunha Nicolay Leme, Lorenz Aline Pedroso
Flora. 2019 255 p.34
Digital herbarium archives as a spatially extensive, taxonomically discriminate phenological record; a comparison to MODIS satellite imagery
Park Isaac W.
International Journal of Biometeorology. 2012 56(6). p.1179
Phenological change modelling for selected Himalayan medicinal herbs using herbarium records: A case study
Gaira Kailash S., Dhar Uppeandra
Ecological Informatics. 2020 60 p.101177
Herbarium records identify sensitivity of flowering phenology of eucalypts to climate: Implications for species response to climate change
Rawal Deepa S.,
Kasel Sabine,
Keatley Marie R., Nitschke Craig R.
Austral Ecology. 2015 40(2). p.117
Prediction of Arctic plant phenological sensitivity to climate change from historical records
Panchen Zoe A., Gorelick Root
Ecology and Evolution. 2017 7(5). p.1325
Natural History Collections in the Science of the 21st Century (2021)
Phenology: An Integrative Environmental Science (2013)
Alpine taxa exhibit differing responses to climate warming in the Snowy Mountains of Australia
Green K.
Journal of Mountain Science. 2010 7(2). p.167
Limited genetic divergence among Australian alpine Poa tussock grasses coupled with regional structuring points to ongoing gene flow and taxonomic challenges
Griffin P. C., Hoffmann A. A.
Annals of Botany. 2014 113(6). p.953
Warming matters: alpine plant responses to experimental warming
Fazlioglu Fatih, Wan Justin S. H.
Climatic Change. 2021 164(3-4).
Few changes in native Australian alpine plant morphology, despite substantial local climate change
Sritharan Meena S.,
Hemmings Frank A., Moles Angela T.
Ecology and Evolution. 2021 11(9). p.4854
Herbarium records demonstrate changes in flowering phenology associated with climate change over the past century within the Cape Floristic Region, South Africa
Williams Tanisha M.,
Schlichting Carl D., Holsinger Kent E.
Climate Change Ecology. 2021 1 p.100006
Morphological and phenological shifts in the Plantago lanceolata L. species as linked to climate change over the past 100 years
Prokhorova Svitlana, Netsvetov Maksym
Hacquetia. 2020 19(2). p.293
Can Artificial Intelligence Help in the Study of Vegetative Growth Patterns from Herbarium Collections? An Evaluation of the Tropical Flora of the French Guiana Forest
Goëau Hervé,
Lorieul Titouan,
Heuret Patrick,
Joly Alexis, Bonnet Pierre
Plants. 2022 11(4). p.530
Dynamics in plant diversity and composition on Australian alpine summits over time
Verrall Brodie,
Green Ken, Pickering Catherine Marina
Biodiversity and Conservation. 2021 30(6). p.1855
Phenology: An Integrative Environmental Science (2013)
Digitization protocol for scoring reproductive phenology from herbarium specimens of seed plants
Yost Jennifer M.,
Sweeney Patrick W.,
Gilbert Ed,
Nelson Gil,
Guralnick Robert,
Gallinat Amanda S.,
Ellwood Elizabeth R.,
Rossington Natalie,
Willis Charles G.,
Blum Stanley D.,
Walls Ramona L.,
Haston Elspeth M.,
Denslow Michael W.,
Zohner Constantin M.,
Morris Ashley B.,
Stucky Brian J.,
Carter J. Richard,
Baxter David G.,
Bolmgren Kjell,
Denny Ellen G.,
Dean Ellen,
Pearson Katelin D.,
Davis Charles C.,
Mishler Brent D.,
Soltis Pamela S., Mazer Susan J.
Applications in Plant Sciences. 2018 6(2).
Historical changes in flowering phenology are governed by temperature × precipitation interactions in a widespread perennial herb in western North America
Matthews Elizabeth R., Mazer Susan J.
New Phytologist. 2016 210(1). p.157
Natural History Collections: Teaching about Biodiversity Across Time, Space, and Digital Platforms
Monfils Anna K.,
Powers Karen E.,
Marshall Christopher J.,
Martine Christopher T.,
Smith James F., Prather L. Alan
Southeastern Naturalist. 2017 16(sp10). p.47
Time‐traveling seeds reveal that plant regeneration and growth traits are responding to climate change
Everingham Susan E.,
Offord Catherine A.,
Sabot Manon E. B., Moles Angela T.
Ecology. 2021 102(3).
Biological indicators of climate change: evidence from long-term flowering records of plants along the Victorian coast, Australia
Rumpff Libby,
Coates Fiona, Morgan John W.
Australian Journal of Botany. 2010 58(6). p.428
Potential Disruption of Pollination in a Sexually Deceptive Orchid by Climatic Change
Robbirt Karen M.,
Roberts David L.,
Hutchings Michael J., Davy Anthony J.
Current Biology. 2014 24(23). p.2845
Accelerating global access to plant diversity information
Lughadha Eimear Nic, Miller Chuck
Trends in Plant Science. 2009 14(11). p.622
Establishment of regional herbarium leads to more than 200 new flora atlas records for New York State1
Martine Christopher T., Ward Megan E.
The Journal of the Torrey Botanical Society. 2013 140(1). p.125
Effects of climate change on alpine plants and their pollinators
Inouye David W.
Annals of the New York Academy of Sciences. 2020 1469(1). p.26
Shifting time: recent changes to the phenology of Australian species
Beaumont LJ,
Hartenthaler T,
Keatley MR, Chambers LE
Climate Research. 2015 63(3). p.203
Modeling the Thermal Zones and Biodiversity on the High Mountains of Meganesia: The Importance of Local Differences
Green Ken, Stein John A.
Arctic, Antarctic, and Alpine Research. 2015 47(4). p.671
Herbarium specimens show contrasting phenological responses to Himalayan climate
Hart Robbie,
Salick Jan,
Ranjitkar Sailesh, Xu Jianchu
Proceedings of the National Academy of Sciences. 2014 111(29). p.10615
Predicting the biodiversity response to climate change: challenges and advances
ELLIS CHRISTOPHER J.
Systematics and Biodiversity. 2011 9(4). p.307
Using Self-Organising Maps (SOMs) to assess synchronies: an application to historical eucalypt flowering records
Hudson Irene L.,
Keatley Marie R., Lee Shalem Y.
International Journal of Biometeorology. 2011 55(6). p.879
Flowering phenology of a widespread perennial herb shows contrasting responses to global warming between humid and non‐humid regions
Song Zhuqiu,
Fu Yongshuo H.,
Du Yanjun,
Li Lin,
Ouyang Xuejun,
Ye Wanhui,
Huang Zhongliang, Kudo Gaku
Functional Ecology. 2020 34(9). p.1870
Wildlife and Climate Change (2012)
Applied Population and Community Ecology: The Case of Feral Pigs in Australia (2012)
Alpine plants are on the move: Quantifying distribution shifts of Australian alpine plants through time
Auld Jennifer,
Everingham Susan E.,
Hemmings Frank A.,
Moles Angela T., Sarmento Cabral Juliano
Diversity and Distributions. 2022 28(5). p.943
Phenological Research (2010)
Phenological Predictability Index in BRAHMS: a tool for herbarium‐based phenological studies
Proença Carolyn E. B.,
Filer Denis L.,
Lenza Eddie,
Silva Juliana S., Harris Stephen A.
Ecography. 2012 35(4). p.289
Medicinal Plants and Environmental Challenges (2017)
Temperature Induced Flowering Phenology of Olea ferruginea Royle: A Climate Change Effect
Khan Sajid,
Gaira Kailash S.,
Asgher Mohd,
Verma Susheel,
Pant Shreekar,
Agrawala Dinesh K.,
Alamri Saud,
Siddiqui Manzer H., Kesawat Mahipal Singh
Sustainability. 2023 15(8). p.6936
