Effects of experimental shifts in flowering phenology on plant–pollinator interactions NE Rafferty, AR Ives Ecology Letters 14 (1), 69-74, 2011 | 302 | 2011 |
Physiological effects of climate warming on flowering plants and insect pollinators and potential consequences for their interactions VL Scaven, NE Rafferty Current Zoology 59 (3), 418-426, 2013 | 298 | 2013 |
Phenological shifts and the fate of mutualisms NE Rafferty, PJ CaraDonna, JL Bronstein Oikos 124 (1), 14-21, 2015 | 201 | 2015 |
Pollinator effectiveness varies with experimental shifts in flowering time NE Rafferty, AR Ives Ecology 93 (4), 803-814, 2012 | 125 | 2012 |
Olfactory mate recognition in a sympatric species pair of three-spined sticklebacks NE Rafferty, JW Boughman Behavioral Ecology 17 (6), 965-970, 2006 | 123 | 2006 |
Phenological overlap of interacting species in a changing climate: an assessment of available approaches NE Rafferty, PJ CaraDonna, LA Burkle, AM Iler, JL Bronstein Ecology and Evolution 3 (9), 3183-3193, 2013 | 104 | 2013 |
The diversity and evolution of pollination systems in large plant clades: Apocynaceae as a case study J Ollerton, S Liede-Schumann, ME Endress, U Meve, AR Rech, ... Annals of botany 123 (2), 311-325, 2019 | 95 | 2019 |
Phylogenetic trait-based analyses of ecological networks NE Rafferty, AR Ives Ecology 94 (10), 2321-2333, 2013 | 95 | 2013 |
Changing climate drives divergent and nonlinear shifts in flowering phenology across elevations NE Rafferty, JM Diez, CD Bertelsen Current Biology 30 (3), 432-441. e3, 2020 | 84 | 2020 |
Effects of global change on insect pollinators: multiple drivers lead to novel communities NE Rafferty Current Opinion in Insect Science 23, 22-27, 2017 | 79 | 2017 |
Evolution of plant–pollinator mutualisms in response to climate change RT Gilman, NS Fabina, KC Abbott, NE Rafferty Evolutionary Applications 5 (1), 2-16, 2012 | 75 | 2012 |
Plant-pollinator interactions under climate change: the use of spatial and temporal transplants EM Morton, NE Rafferty Applications in Plant Sciences 5 (6), 1600133, 2017 | 59 | 2017 |
A global test for phylogenetic signal in shifts in flowering time under climate change NE Rafferty, PD Nabity Journal of Ecology 105, 627-633, 2017 | 47 | 2017 |
Confounding effects of spatial variation on shifts in phenology CW de Keyzer, NE Rafferty, DW Inouye, JD Thomson Global Change Biology 23, 1783-1791, 2017 | 33 | 2017 |
Later flowering is associated with a compressed flowering season and reduced reproductive output in an early season floral resource NE Rafferty, CD Bertelsen, JL Bronstein Oikos 125, 821-828, 2016 | 30 | 2016 |
From the ground up: building predictions for how climate change will affect belowground mutualisms, floral traits, and bee behavior AM Keeler, A Rose-Person, NE Rafferty Climate Change Ecology 1, 100013, 2021 | 23 | 2021 |
Intraclutch egg-size variation in Magellanic Penguins NE Rafferty, PD Boersma, GA Rebstock The Condor 107 (4), 921-926, 2005 | 21 | 2005 |
Warming of experimental plant–pollinator communities advances phenologies, alters traits, reduces interactions and depresses reproduction N de Manincor, A Fisogni, NE Rafferty Ecology Letters 26 (2), 323-334, 2023 | 20 | 2023 |
Evolutionary and ecological factors structure a plant-bumblebee network in a biodiversity hotspot, the Himalaya-Hengduan Mountains H Liang, YH Zhao, NE Rafferty, ZX Ren, L Zhong, HD Li, DZ Li, H Wang Functional Ecology 35 (11), 2523-2535, 2021 | 13 | 2021 |
Delving deeper: questioning the decline of long-tongued bumble bees, long-tubed flowers and their mutualisms with climate change CW De Keyzer, SR Colla, CF Kent, NE Rafferty, LL Richardson, ... Journal of Pollination Ecology 18 (6), 36-42, 2016 | 10 | 2016 |