Alpha 2.0
Login Register
» Articles » PMID: 32152302

A Survey of Invasive Plants on Grassland Soil Microbial Communities and Ecosystem Services

Overview
Journal Sci Data
Specialty Science
Date 2020 Mar 11
PMID 32152302
Citations 2
Authors
Jennifer K Bell
Steven D Siciliano
Eric G Lamb
Affiliations
Soon will be listed here.
Abstract

Invasive plants can cause changes in the structure and function of the ecosystem being invaded. Any changes in ecosystem diversity and community composition will likely alter ecosystem services provided by that ecosystem. However, how these ecosystem services may change is poorly understood. To elucidate how these ecosystem services will change with invasion, we sampled 561 plots undergoing invasion by smooth brome (Bromus inermis) and four other invasive species at a native Rough Fescue prairie located near Saskatoon, Saskatchewan, Canada. Soil and plant surveys were undertaken weekly for 26 weeks between May of 2014 and November of 2014, or the growing season. We measured a suite of ecosystem services, including greenhouse gasses, extracellular enzyme function, forage production, glyphosate degradation and decomposition. Furthermore, soil physical and chemical properties were measured, and soil bacterial and fungal communities were sequenced. This is a large and multifaceted dataset with complex temporal and spatial attributes which can be used to answer numerous questions regarding the functioning of prairie ecosystems and how invasive species will impact that functioning.

Citing Articles

Natural Foraging Selection and Gut Microecology of Two Subterranean Rodents from the Eurasian Steppe in China.

Shang Z, Chen K, Han T, Bu F, Sun S, Zhu N Animals (Basel). 2024; 14(16).

PMID: 39199868 PMC: 11350848. DOI: 10.3390/ani14162334.

Practical applications of soil microbiota to improve ecosystem restoration: current knowledge and future directions.

Peddle S, Hodgson R, Borrett R, Brachmann S, Davies T, Erickson T Biol Rev Camb Philos Soc. 2024; 100(1):1-18.

PMID: 39075839 PMC: 11718600. DOI: 10.1111/brv.13124.

as an Orchid Endophytic Fungus and Its Spatial Distribution in sp. (Orchidaceae).

Yao N, Wang T, Jiang J, Yang Y, Cao X Microorganisms. 2024; 12(6).

PMID: 38930436 PMC: 11205860. DOI: 10.3390/microorganisms12061054.

References
1.
Broz A, Manter D, Vivanco J . Soil fungal abundance and diversity: another victim of the invasive plant Centaurea maculosa. ISME J. 2007; 1(8):763-5. DOI: 10.1038/ismej.2007.81. View
2.
Fraterrigo J, Strickland M, Keiser A, Bradford M . Nitrogen uptake and preference in a forest understory following invasion by an exotic grass. Oecologia. 2011; 167(3):781-91. DOI: 10.1007/s00442-011-2030-0. View
3.
Zhang P, Li B, Wu J, Hu S . Invasive plants differentially affect soil biota through litter and rhizosphere pathways: a meta-analysis. Ecol Lett. 2018; 22(1):200-210. DOI: 10.1111/ele.13181. View
4.
Mamet S, Lamb E, Piper C, Winsley T, Siciliano S . Archaea and bacteria mediate the effects of native species root loss on fungi during plant invasion. ISME J. 2017; 11(5):1261-1275. PMC: 5437935. DOI: 10.1038/ismej.2016.205. View
5.
Mamet S, Redlick E, Brabant M, Lamb E, Helgason B, Stanley K . Structural equation modeling of a winnowed soil microbiome identifies how invasive plants re-structure microbial networks. ISME J. 2019; 13(8):1988-1996. PMC: 6776034. DOI: 10.1038/s41396-019-0407-y. View