Rachel M Mitchell1, Greg M Ames2, Justin P Wright2. 1. School of Earth and Sustainability, Northern Arizona University, Flagstaff, AZ, USA. 2. Department of Biology, Duke University, Durham, NC, USA.
Abstract
BACKGROUND AND AIMS: Understanding impacts of altered disturbance regimes on community structure and function is a key goal for community ecology. Functional traits link species composition to ecosystem functioning. Changes in the distribution of functional traits at community scales in response to disturbance can be driven not only by shifts in species composition, but also by shifts in intraspecific trait values. Understanding the relative importance of these two processes has important implications for predicting community responses to altered disturbance regimes. METHODS: We experimentally manipulated fire return intervals in replicated blocks of a fire-adapted, longleaf pine (Pinus palustris) ecosystem in North Carolina, USA and measured specific leaf area (SLA), leaf dry matter content (LDMC) and compositional responses along a lowland to upland gradient over a 4 year period. Plots were burned between zero and four times. Using a trait-based approach, we simulate hypothetical scenarios which allow species presence, abundance or trait values to vary over time and compare these with observed traits to understand the relative contributions of each of these three processes to observed trait patterns at the study site. We addressed the following questions. (1) How do changes in the fire regime affect community composition, structure and community-level trait responses? (2) Are these effects consistent across a gradient of fire intensity? (3) What are the relative contributions of species turnover, changes in abundance and changes in intraspecific trait values to observed changes in community-weighted mean (CWM) traits in response to altered fire regime? KEY RESULTS: We found strong evidence that altered fire return interval impacted understorey plant communities. The number of fires a plot experienced significantly affected the magnitude of its compositional change and shifted the ecotone boundary separating shrub-dominated lowland areas from grass-dominated upland areas, with suppression sites (0 burns) experiencing an upland shift and annual burn sites a lowland shift. We found significant effects of burn regimes on the CWM of SLA, and that observed shifts in both SLA and LDMC were driven primarily by intraspecific changes in trait values. CONCLUSIONS: In a fire-adapted ecosystem, increased fire frequency altered community composition and structure of the ecosystem through changes in the position of the shrub line. We also found that plant traits responded directionally to increased fire frequency, with SLA decreasing in response to fire frequency across the environmental gradient. For both SLA and LDMC, nearly all of the observed changes in CWM traits were driven by intraspecific variation.
BACKGROUND AND AIMS: Understanding impacts of altered disturbance regimes on community structure and function is a key goal for community ecology. Functional traits link species composition to ecosystem functioning. Changes in the distribution of functional traits at community scales in response to disturbance can be driven not only by shifts in species composition, but also by shifts in intraspecific trait values. Understanding the relative importance of these two processes has important implications for predicting community responses to altered disturbance regimes. METHODS: We experimentally manipulated fire return intervals in replicated blocks of a fire-adapted, longleaf pine (Pinus palustris) ecosystem in North Carolina, USA and measured specific leaf area (SLA), leaf dry matter content (LDMC) and compositional responses along a lowland to upland gradient over a 4 year period. Plots were burned between zero and four times. Using a trait-based approach, we simulate hypothetical scenarios which allow species presence, abundance or trait values to vary over time and compare these with observed traits to understand the relative contributions of each of these three processes to observed trait patterns at the study site. We addressed the following questions. (1) How do changes in the fire regime affect community composition, structure and community-level trait responses? (2) Are these effects consistent across a gradient of fire intensity? (3) What are the relative contributions of species turnover, changes in abundance and changes in intraspecific trait values to observed changes in community-weighted mean (CWM) traits in response to altered fire regime? KEY RESULTS: We found strong evidence that altered fire return interval impacted understorey plant communities. The number of fires a plot experienced significantly affected the magnitude of its compositional change and shifted the ecotone boundary separating shrub-dominated lowland areas from grass-dominated upland areas, with suppression sites (0 burns) experiencing an upland shift and annual burn sites a lowland shift. We found significant effects of burn regimes on the CWM of SLA, and that observed shifts in both SLA and LDMC were driven primarily by intraspecific changes in trait values. CONCLUSIONS: In a fire-adapted ecosystem, increased fire frequency altered community composition and structure of the ecosystem through changes in the position of the shrub line. We also found that plant traits responded directionally to increased fire frequency, with SLA decreasing in response to fire frequency across the environmental gradient. For both SLA and LDMC, nearly all of the observed changes in CWM traits were driven by intraspecific variation.
Authors: Ian J Wright; Peter B Reich; Mark Westoby; David D Ackerly; Zdravko Baruch; Frans Bongers; Jeannine Cavender-Bares; Terry Chapin; Johannes H C Cornelissen; Matthias Diemer; Jaume Flexas; Eric Garnier; Philip K Groom; Javier Gulias; Kouki Hikosaka; Byron B Lamont; Tali Lee; William Lee; Christopher Lusk; Jeremy J Midgley; Marie-Laure Navas; Ulo Niinemets; Jacek Oleksyn; Noriyuki Osada; Hendrik Poorter; Pieter Poot; Lynda Prior; Vladimir I Pyankov; Catherine Roumet; Sean C Thomas; Mark G Tjoelker; Erik J Veneklaas; Rafael Villar Journal: Nature Date: 2004-04-22 Impact factor: 49.962
Authors: Cyrille Violle; Brian J Enquist; Brian J McGill; Lin Jiang; Cécile H Albert; Catherine Hulshof; Vincent Jung; Julie Messier Journal: Trends Ecol Evol Date: 2012-01-13 Impact factor: 17.712
Authors: Andrew Siefert; Cyrille Violle; Loïc Chalmandrier; Cécile H Albert; Adrien Taudiere; Alex Fajardo; Lonnie W Aarssen; Christopher Baraloto; Marcos B Carlucci; Marcus V Cianciaruso; Vinícius de L Dantas; Francesco de Bello; Leandro D S Duarte; Carlos R Fonseca; Grégoire T Freschet; Stéphanie Gaucherand; Nicolas Gross; Kouki Hikosaka; Benjamin Jackson; Vincent Jung; Chiho Kamiyama; Masatoshi Katabuchi; Steven W Kembel; Emilie Kichenin; Nathan J B Kraft; Anna Lagerström; Yoann Le Bagousse-Pinguet; Yuanzhi Li; Norman Mason; Julie Messier; Tohru Nakashizuka; Jacob McC Overton; Duane A Peltzer; I M Pérez-Ramos; Valério D Pillar; Honor C Prentice; Sarah Richardson; Takehiro Sasaki; Brandon S Schamp; Christian Schöb; Bill Shipley; Maja Sundqvist; Martin T Sykes; Marie Vandewalle; David A Wardle Journal: Ecol Lett Date: 2015-09-28 Impact factor: 9.492
Authors: William K Cornwell; Johannes H C Cornelissen; Kathryn Amatangelo; Ellen Dorrepaal; Valerie T Eviner; Oscar Godoy; Sarah E Hobbie; Bart Hoorens; Hiroko Kurokawa; Natalia Pérez-Harguindeguy; Helen M Quested; Louis S Santiago; David A Wardle; Ian J Wright; Rien Aerts; Steven D Allison; Peter van Bodegom; Victor Brovkin; Alex Chatain; Terry V Callaghan; Sandra Díaz; Eric Garnier; Diego E Gurvich; Elena Kazakou; Julia A Klein; Jenny Read; Peter B Reich; Nadejda A Soudzilovskaia; M Victoria Vaieretti; Mark Westoby Journal: Ecol Lett Date: 2008-07-08 Impact factor: 9.492
Authors: J Philip Grime; Jason D Fridley; Andrew P Askew; Ken Thompson; John G Hodgson; Chris R Bennett Journal: Proc Natl Acad Sci U S A Date: 2008-07-07 Impact factor: 11.205
Authors: Jennifer K Balch; Bethany A Bradley; John T Abatzoglou; R Chelsea Nagy; Emily J Fusco; Adam L Mahood Journal: Proc Natl Acad Sci U S A Date: 2017-02-27 Impact factor: 11.205