Andrew Kulmatiski
Overview
Explore the profile of Andrew Kulmatiski including associated specialties, affiliations and a list of published articles.
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Articles
28
Citations
429
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Recent Articles
1.
Shi B, Delgado-Baquerizo M, Knapp A, Smith M, Reed S, Osborne B, et al.
Sci Adv
. 2024 Oct;
10(40):eadq2654.
PMID: 39365858
The increasing prevalence of drought events in grasslands and shrublands worldwide potentially has impacts on soil organic carbon (SOC). We leveraged the International Drought Experiment to study how SOC, including...
2.
Smith M, Wilkins K, Holdrege M, Wilfahrt P, Collins S, Knapp A, et al.
Proc Natl Acad Sci U S A
. 2024 Jan;
121(4):e2309881120.
PMID: 38190514
Climate change is increasing the frequency and severity of short-term (~1 y) drought events-the most common duration of drought-globally. Yet the impact of this intensification of drought on ecosystem functioning...
3.
Aaronson J, Kulmatiski A, Forero L, Grenzer J, Norton J
Biology (Basel)
. 2023 Nov;
12(11).
PMID: 37997973
We used high-throughput sequencing and multivariate analyses to describe soil microbial community composition in two four-year field plant-soil feedback (PSF) experiments in Minnesota, USA and Jena, Germany. In descending order...
4.
Kulmatiski A, Beard K
Ecol Lett
. 2022 Jul;
25(9):1952-1960.
PMID: 35834518
For over a century, deep roots have been assumed to allow trees to avoid competition with grasses (i.e., the two-layer hypothesis). Yet, in part because it remains difficult to measure...
5.
Forero L, Kulmatiski A, Grenzer J, Norton J
Ecology
. 2022 Apr;
103(9):e3736.
PMID: 35462418
Plant productivity often increases with species richness, but the mechanisms explaining this diversity-productivity relationship are not fully understood. We tested if plant-soil feedbacks (PSF) can help to explain how biomass...
6.
Grenzer J, Kulmatiski A, Forero L, Ebeling A, Eisenhauer N, Norton J
Ecol Evol
. 2021 Sep;
11(17):11651-11663.
PMID: 34522331
Plant-soil feedback (PSF) has gained attention as a mechanism promoting plant growth and coexistence. However, most PSF research has measured monoculture growth in greenhouse conditions. Translating PSFs into effects on...
7.
Forero L, Kulmatiski A, Grenzer J, Norton J
Commun Biol
. 2021 Jun;
4(1):789.
PMID: 34172839
Species-rich plant communities can produce twice as much aboveground biomass as monocultures, but the mechanisms remain unresolved. We tested whether plant-soil feedbacks (PSFs) can help explain these biodiversity-productivity relationships. Using...
8.
Rasmussen C, Kulmatiski A
Trends Plant Sci
. 2021 Jan;
26(3):206-209.
PMID: 33454210
Plant water isotopic compositions are widely used to describe patterns of soils water uptake. Although valuable, the technique only provides relative uptake distributions, which can be misleading. Without information on...
9.
Kulmatiski A, Beard K, Holdrege M, February E
Ecol Evol
. 2020 Oct;
10(18):9776-9787.
PMID: 33005344
Deep roots have long been thought to allow trees to coexist with shallow-rooted grasses. However, data demonstrating how root distributions affect water uptake and niche partitioning are uncommon.We describe tree...
10.
Holdrege M, Beard K, Kulmatiski A
Ecology
. 2020 Oct;
102(1):e03212.
PMID: 33001437
As the atmosphere warms, precipitation events become larger, but less frequent. Yet, there is fundamental disagreement about how increased precipitation intensity will affect vegetation. Walter's two-layer hypothesis and experiments testing...