BACKGROUND AND AIMS: Abiotic and biotic stresses related to climate change have been associated with increased crown defoliation, decreased growth and a higher risk of mortality in many forest tree species, but the impact of stresses on tree reproduction and forest regeneration remains understudied. At the dry, warm margin of species distributions, flowering, pollination and seed maturation are expected to be affected by drought, late frost and other stresses, eventually resulting in reproduction failure. Moreover, inter-individual variation in reproductive performance versus other performance traits (growth, survival) could have important consequences for population dynamics. This study investigated the relationships among individual crown defoliation, growth and reproduction in a drought-prone population of European beech, Fagus sylvatica. METHODS: We used a spatially explicit mating model and marker-based parentage analyses to estimate effective female and male fecundities of 432 reproductive trees, which were also monitored for basal area increment and crown defoliation over 9 years. KEY RESULTS: Female and male fecundities varied markedly between individuals, more than did growth. Both female fecundity and growth decreased with increasing crown defoliation and competition, and increased with size. Moreover, the negative effect of defoliation on female fecundity was size-dependent, with a slower decline in female fecundity with increasing defoliation for the large individuals. Finally, a trade-off between growth and female fecundity was observed in response to defoliation: some large trees maintained significant female fecundity at the expense of reduced growth in response to defoliation, while some other defoliated trees maintained high growth at the expense of reduced female fecundity. CONCLUSIONS: Our results suggest that, while decreasing their growth, some large defoliated trees still contribute to reproduction through seed production and pollination. This non-coordinated decline of growth and fecundity at individual level in response to stress may compromise the evolution of stress-resistance traits at population level, and increase forest tree vulnerability.
BACKGROUND AND AIMS: Abiotic and biotic stresses related to climate change have been associated with increased crown defoliation, decreased growth and a higher risk of mortality in many forest tree species, but the impact of stresses on tree reproduction and forest regeneration remains understudied. At the dry, warm margin of species distributions, flowering, pollination and seed maturation are expected to be affected by drought, late frost and other stresses, eventually resulting in reproduction failure. Moreover, inter-individual variation in reproductive performance versus other performance traits (growth, survival) could have important consequences for population dynamics. This study investigated the relationships among individual crown defoliation, growth and reproduction in a drought-prone population of European beech, Fagus sylvatica. METHODS: We used a spatially explicit mating model and marker-based parentage analyses to estimate effective female and male fecundities of 432 reproductive trees, which were also monitored for basal area increment and crown defoliation over 9 years. KEY RESULTS: Female and male fecundities varied markedly between individuals, more than did growth. Both female fecundity and growth decreased with increasing crown defoliation and competition, and increased with size. Moreover, the negative effect of defoliation on female fecundity was size-dependent, with a slower decline in female fecundity with increasing defoliation for the large individuals. Finally, a trade-off between growth and female fecundity was observed in response to defoliation: some large trees maintained significant female fecundity at the expense of reduced growth in response to defoliation, while some other defoliated trees maintained high growth at the expense of reduced female fecundity. CONCLUSIONS: Our results suggest that, while decreasing their growth, some large defoliated trees still contribute to reproduction through seed production and pollination. This non-coordinated decline of growth and fecundity at individual level in response to stress may compromise the evolution of stress-resistance traits at population level, and increase forest tree vulnerability.
Authors: Nate G McDowell; Craig D Allen; Kristina Anderson-Teixeira; Brian H Aukema; Ben Bond-Lamberty; Louise Chini; James S Clark; Michael Dietze; Charlotte Grossiord; Adam Hanbury-Brown; George C Hurtt; Robert B Jackson; Daniel J Johnson; Lara Kueppers; Jeremy W Lichstein; Kiona Ogle; Benjamin Poulter; Thomas A M Pugh; Rupert Seidl; Monica G Turner; Maria Uriarte; Anthony P Walker; Chonggang Xu Journal: Science Date: 2020-05-29 Impact factor: 47.728
Authors: Amaury Hayat; Andrew J Hacket-Pain; Hans Pretzsch; Tim T Rademacher; Andrew D Friend Journal: Front Plant Sci Date: 2017-03-21 Impact factor: 5.753
Authors: Andrew Hacket-Pain; Jessie J Foest; Ian S Pearse; Jalene M LaMontagne; Walter D Koenig; Giorgio Vacchiano; Michał Bogdziewicz; Thomas Caignard; Paulina Celebias; Joep van Dormolen; Marcos Fernández-Martínez; Jose V Moris; Ciprian Palaghianu; Mario Pesendorfer; Akiko Satake; Eliane Schermer; Andrew J Tanentzap; Peter A Thomas; Davide Vecchio; Andreas P Wion; Thomas Wohlgemuth; Tingting Xue; Katharine Abernethy; Marie-Claire Aravena Acuña; Marcelo Daniel Barrera; Jessica H Barton; Stan Boutin; Emma R Bush; Sergio Donoso Calderón; Felipe S Carevic; Carolina Volkmer de Castilho; Juan Manuel Cellini; Colin A Chapman; Hazel Chapman; Francesco Chianucci; Patricia da Costa; Luc Croisé; Andrea Cutini; Ben Dantzer; R Justin DeRose; Jean-Thoussaint Dikangadissi; Edmond Dimoto; Fernanda Lopes da Fonseca; Leonardo Gallo; Georg Gratzer; David F Greene; Martín A Hadad; Alejandro Huertas Herrera; Kathryn J Jeffery; Jill F Johnstone; Urs Kalbitzer; Władysław Kantorowicz; Christie A Klimas; Jonathan G A Lageard; Jeffrey Lane; Katharina Lapin; Mateusz Ledwoń; Abigail C Leeper; Maria Vanessa Lencinas; Ana Cláudia Lira-Guedes; Michael C Lordon; Paula Marchelli; Shealyn Marino; Harald Schmidt Van Marle; Andrew G McAdam; Ludovic R W Momont; Manuel Nicolas; Lúcia Helena de Oliveira Wadt; Parisa Panahi; Guillermo Martínez Pastur; Thomas Patterson; Pablo Luis Peri; Łukasz Piechnik; Mehdi Pourhashemi; Claudia Espinoza Quezada; Fidel A Roig; Karen Peña Rojas; Yamina Micaela Rosas; Silvio Schueler; Barbara Seget; Rosina Soler; Michael A Steele; Mónica Toro-Manríquez; Caroline E G Tutin; Tharcisse Ukizintambara; Lee White; Biplang Yadok; John L Willis; Anita Zolles; Magdalena Żywiec; Davide Ascoli Journal: Glob Chang Biol Date: 2022-03-05 Impact factor: 13.211