Daniel S Chapman
Overview
Explore the profile of Daniel S Chapman including associated specialties, affiliations and a list of published articles.
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Articles
15
Citations
172
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0
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Recent Articles
1.
Makra L, Matyasovszky I, Tusnady G, Ziska L, Hess J, Nyul L, et al.
Sci Total Environ
. 2023 Sep;
905:167095.
PMID: 37748607
Ongoing and future climate change driven expansion of aeroallergen-producing plant species comprise a major human health problem across Europe and elsewhere. There is an urgent need to produce accurate, temporally...
2.
Barwell L, Perez-Sierra A, Henricot B, Harris A, Burgess T, Hardy G, et al.
J Appl Ecol
. 2021 Apr;
58(4):718-730.
PMID: 33883780
Plant pathogens are introduced to new geographical regions ever more frequently as global connectivity increases. Predicting the threat they pose to plant health can be difficult without in-depth knowledge of...
3.
Vanbergen A, Boissieres C, Gray A, Chapman D
Proc Biol Sci
. 2021 Apr;
288(1948):20210032.
PMID: 33823665
Ecosystems face multiple, potentially interacting, anthropogenic pressures that can modify biodiversity and ecosystem functioning. Using a bryophyte-microarthropod microecosystem we tested the combined effects of habitat loss, episodic heat-shocks and an...
4.
Spears B, Chapman D, Carvalho L, Feld C, Gessner M, Piggott J, et al.
Water Res
. 2021 Mar;
196:116981.
PMID: 33770676
Despite advances in conceptual understanding, single-stressor abatement approaches remain common in the management of fresh waters, even though they can produce unexpected ecological responses when multiple stressors interact. Here we...
5.
Occhibove F, Chapman D, Mastin A, Parnell S, Agstner B, Mato-Amboage R, et al.
Phytopathology
. 2020 Sep;
110(11):1740-1750.
PMID: 32954988
In order to prevent and control the emergence of biosecurity threats such as vector-borne diseases of plants, it is vital to understand drivers of entry, establishment, and spatiotemporal spread, as...
6.
White S, Bullock J, Hooftman D, Chapman D
Biol Invasions
. 2020 Feb;
19(6):1825-1837.
PMID: 32025190
is an important plant pathogen that attacks several plants of economic importance. Once restricted to the Americas, the bacterium, which causes olive quick decline syndrome, was discovered near Lecce, Italy...
7.
Bullock J, Bonte D, Pufal G, da Silva Carvalho C, Chapman D, Garcia C, et al.
Trends Ecol Evol
. 2018 Oct;
33(12):958-970.
PMID: 30314915
Humans fundamentally affect dispersal, directly by transporting individuals and indirectly by altering landscapes and natural vectors. This human-mediated dispersal (HMD) modifies long-distance dispersal, changes dispersal paths, and overall benefits certain...
8.
Chapman D, Scalone R, Stefanic E, Bullock J
Ecology
. 2017 Apr;
98(6):1671-1680.
PMID: 28369815
Niche shifts of nonnative plants can occur when they colonize novel climatic conditions. However, the mechanistic basis for niche shifts during invasion is poorly understood and has rarely been captured...
9.
Chapman D, Makra L, Albertini R, Bonini M, Paldy A, Rodinkova V, et al.
Glob Chang Biol
. 2016 Jan;
22(9):3067-79.
PMID: 26748862
Biological invasions are a major driver of global change, for which models can attribute causes, assess impacts and guide management. However, invasion models typically focus on spread from known introduction...
10.
Storkey J, Stratonovitch P, Chapman D, Vidotto F, Semenov M
PLoS One
. 2014 Feb;
9(2):e88156.
PMID: 24533071
Ambrosia artemisiifolia is an invasive weed in Europe with highly allergenic pollen. Populations are currently well established and cause significant health problems in the French Rhône valley, Austria, Hungary and...