Effects of soil warming history on the performances of congeneric temperate and boreal herbaceous plant species and their associations with soil biota

doi:10.1093/jpe/rtw066

J Plant Ecol ›› 2017, Vol. 10 ›› Issue (4): 670-680 .DOI: 10.1093/jpe/rtw066

• Research Articles • Previous Articles Next Articles

Effects of soil warming history on the performances of congeneric temperate and boreal herbaceous plant species and their associations with soil biota

Madhav P. Thakur^1,2,*, Peter B. Reich^3,4, Cameron Wagg⁵, Nicholas A. Fisichelli⁶, Marcel Ciobanu⁷, Sarah E. Hobbie⁸, Roy L. Rich³, Artur Stefanski³ and Nico Eisenhauer^1,2

¹ German Centre for Integrative Biodiversity Research (iDiv) Halle-Jena-Leipzig, Mitte, Deutscher Platz 5E, 04103 Leipzig, Germany; ² Institute of Biology, Leipzig University, Johannisallee 21, 04103 Leipzig, Germany; ³ Department of Forest Resources, University of Minnesota, 1530 North Cleveland Avenue, St. Paul, MN 55108, USA; ⁴ Hawkesbury Institute for the Environment, University of Western Sydney, Penrith, New South Wales 2751, Australia; ⁵ Institute of Evolutionary Biology and Environmental Studies, University of Zurich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland; ⁶ Forest Ecology Program, Schoodic Institute at Acadia National Park, Winter Harbor, ME 04693, USA; ⁷ Institute of Biological Research, Branch of the National Institute of Research and Development for Biological Sciences, 48 Republicii Street, 400015 Cluj-Napoca, Romania; ⁸ Department of Ecology, Evolution, and Behavior, University of Minnesota, St. Paul, MN 55108, USA

Received:2016-01-22 Accepted:2016-06-19 Published:2017-07-24
Contact: Thakur, Madhav

Effects of soil warming history on the performances of congeneric temperate and boreal herbaceous plant species and their associations with soil biota

Abstract

Abstract: Aims Climate warming raises the probability of range expansions of warm-adapted temperate species into areas currently dominated by cold-adapted boreal species. Warming-induced plant range expansions could partly depend on how warming modifies relationships with soil biota that promote plant growth, such as by mineralizing nutrients. Here, we grew two pairs of congeneric herbaceous plants species together in soil with a 5-year warming history (ambient, +1.7°C, +3.4°C) and related their performances to plant-beneficial soil biota.
Methods Each plant pair belonged to either the mid-latitude temperate climate or the higher latitude southern boreal climate. Warmed soils were extracted from a chamberless heating experiment at two field sites in the temperate-boreal ecotone of North America. To isolate potential effects of different soil warming histories, air temperature for the greenhouse experiment was identical across soils. We hypothesized that soil with a 5-year warming history in the field would enhance the performance of temperate plant species more than boreal plant species and expected improved plant performances to have positive associations with plant growth-promoting soil biota (microbial-feeding nematodes and arbuscular mycorrhizal fungi).
Important findings Our main hypothesis was partly confirmed as only one temperate species performed better in soil with warming history than in soil with history of ambient temperature. Further, this effect was restricted to the site with higher soil water content in the growing season of the sampling year (prior to soil collection). One of the boreal species performed consistently worse in previously warmed soil, whereas the other species showed neutral responses to soil warming history. We found a positive correlation between the density of microbial-feeding nematodes and the performance of one of the temperate species in previously wetter soils, but this correlation was negative at the site with previously drier soil. We found no significant correlations between the performance of the other temperate species as well as the two boreal species and any of the studied soil biota. Our results indicate that soil warming can modify the relation between certain plant species and microbial-feeding nematodes in given soil edaphic conditions, which might be important for plant performance in the temperate-boreal ecotone.

Key words: seedling emergence, soil biota, range shift, ecotone, Aster cordifolius

摘要：
Aims Climate warming raises the probability of range expansions of warm-adapted temperate species into areas currently dominated by cold-adapted boreal species. Warming-induced plant range expansions could partly depend on how warming modifies relationships with soil biota that promote plant growth, such as by mineralizing nutrients. Here, we grew two pairs of congeneric herbaceous plants species together in soil with a 5-year warming history (ambient, +1.7°C, +3.4°C) and related their performances to plant-beneficial soil biota.
Methods Each plant pair belonged to either the mid-latitude temperate climate or the higher latitude southern boreal climate. Warmed soils were extracted from a chamberless heating experiment at two field sites in the temperate-boreal ecotone of North America. To isolate potential effects of different soil warming histories, air temperature for the greenhouse experiment was identical across soils. We hypothesized that soil with a 5-year warming history in the field would enhance the performance of temperate plant species more than boreal plant species and expected improved plant performances to have positive associations with plant growth-promoting soil biota (microbial-feeding nematodes and arbuscular mycorrhizal fungi).
Important findings Our main hypothesis was partly confirmed as only one temperate species performed better in soil with warming history than in soil with history of ambient temperature. Further, this effect was restricted to the site with higher soil water content in the growing season of the sampling year (prior to soil collection). One of the boreal species performed consistently worse in previously warmed soil, whereas the other species showed neutral responses to soil warming history. We found a positive correlation between the density of microbial-feeding nematodes and the performance of one of the temperate species in previously wetter soils, but this correlation was negative at the site with previously drier soil. We found no significant correlations between the performance of the other temperate species as well as the two boreal species and any of the studied soil biota. Our results indicate that soil warming can modify the relation between certain plant species and microbial-feeding nematodes in given soil edaphic conditions, which might be important for plant performance in the temperate-boreal ecotone.

Madhav P. Thakur, Peter B. Reich, Cameron Wagg, Nicholas A. Fisichelli, Marcel Ciobanu, Sarah E. Hobbie, Roy L. Rich, Artur Stefanski, Nico Eisenhauer. Effects of soil warming history on the performances of congeneric temperate and boreal herbaceous plant species and their associations with soil biota[J]. J Plant Ecol, 2017, 10(4): 670-680.

[1]	Chunqiang Wei, Bingbing Jia, Lunlun Gao, Zhen Liu, Yuming Liang, Xin Zhang and Xinmin Lu. Plant growth ability, rather than phylogenetic relatedness, predicts the effect of soil biota from an abandoned field on native and exotic plants [J]. J Plant Ecol, 2023, 16(1): 0-.
[2]	Thomas P. McKenna, Brian J. Darby and Kathryn A. Yurkonis. Effects of monoculture-conditioned soils on common tallgrass prairie species productivity [J]. J Plant Ecol, 2019, 12(3): 474-484.
[3]	Dandan Hu, Jerry M. Baskin, Carol C. Baskin, Xuejun Yang, Zhenying Huang. Ecological role of physical dormancy in seeds of Oxytropis racemosa in a semiarid sandland with unpredictable rainfall [J]. J Plant Ecol, 2018, 11(4): 542-552.
[4]	Dasvinder Kambo, Ryan K. Danby. Constraints on treeline advance in a warming climate: a test of the reproduction limitation hypothesis [J]. J Plant Ecol, 2018, 11(3): 411-422.
[5]	Priscyla Maria Silva Rodrigues, Carlos Ernesto Gonçalves Reynaud Schaefer, Jhonathan de Oliveira Silva, Walnir Gomes Ferreira Júnior, Rubens Manoel dos Santos, Andreza Viana Neri. The influence of soil on vegetation structure and plant diversity in different tropical savannic and forest habitats [J]. J Plant Ecol, 2018, 11(2): 226-236.
[6]	Gabriela Aparecida de Oliveira Coelho, Marcela de Castro Nunes Santos Terra, Hisaias de Souza Almeida, Eduardo van den Berg. What can natural edges of gallery forests teach us about woody community performance in sharp ecotones? [J]. J Plant Ecol, 2017, 10(6): 937-948.
[7]	Antonio I. Arroyo, Yolanda Pueyo, Ramón Reiné, Maria Luz Giner, Concepción L. Alados. Effects of the allelopathic plant Artemisia herba-alba Asso on the soil seed bank of a semi-arid plant community [J]. J Plant Ecol, 2017, 10(6): 927-936.
[8]	Polyanne A. Coelho, Paola Ferreira Santos, Eduardo de Paiva Paula, Deborah M. G. Apgaua, Bruno Gini Madeira, Gisele Cristina de Oliveira Menino, Yule Roberta Ferreira Nunes, Rubens M. Santos, David Y. P. Tng. Tree succession across a seasonally dry tropical forest and forest-savanna ecotone in northern Minas Gerais, Brazil [J]. J Plant Ecol, 2017, 10(5): 859-868.
[9]	Johannes Heinze, Sabine Gensch, Ewald Weber, Jasmin Joshi. Soil temperature modifies effects of soil biota on plant growth [J]. J Plant Ecol, 2017, 10(5): 808-821.
[10]	Julia Clause, Sébastien Barot, Estelle Forey. Earthworms promote greater richness and abundance in the emergence of plant species across a grassland-forest ecotone [J]. J Plant Ecol, 2016, 9(6): 703-711.
[11]	Csaba Tölgyesi, Márta Zalatnai, László Erdős, Zoltán Bátori, Nicole Rosemary Hupp, László Körmöczi. Unexpected ecotone dynamics of a sand dune vegetation complex following water table decline [J]. J Plant Ecol, 2016, 9(1): 40-50.
[12]	Yun Zhang, Yves Bergeron, Xiu-Hai Zhao, Igor Drobyshev. Stand history is more important than climate in controlling red maple (Acer rubrum L.) growth at its northern distribution limit in western Quebec, Canada [J]. J Plant Ecol, 2015, 8(4): 368-379.
[13]	Krishna B. Shrestha, Annika Hofgaard, Vigdis Vandvik. Recent treeline dynamics are similar between dry and mesic areas of Nepal, central Himalaya [J]. J Plant Ecol, 2015, 8(4): 347-358.
[14]	Choimaa Dulamsuren, Mookhor Khishigjargal, Christoph Leuschner, Markus Hauck. Response of tree-ring width to climate warming and selective logging in larch forests of the Mongolian Altai [J]. J Plant Ecol, 2014, 7(1): 24-38.

Effects of soil warming history on the performances of congeneric temperate and boreal herbaceous plant species and their associations with soil biota

Effects of soil warming history on the performances of congeneric temperate and boreal herbaceous plant species and their associations with soil biota

HTML

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 14

Recommended Articles

Metrics

Comments