Edith C. Hammer
Edith C. Hammer
Verified email at biol.lu.se
Cited by
Cited by
Elemental composition of arbuscular mycorrhizal fungi at high salinity
EC Hammer, H Nasr, J Pallon, PA Olsson, H Wallander
Mycorrhiza 21 (2), 117-129, 2011
Tit for tat? A mycorrhizal fungus accumulates phosphorus under low plant carbon availability
EC Hammer, J Pallon, H Wallander, PA Olsson
FEMS Microbiology Ecology 76 (2), 236-244, 2011
A mycorrhizal fungus grows on biochar and captures phosphorus from its surfaces
EC Hammer, Z Balogh-Brunstad, I Jakobsen, PA Olsson, SLS Stipp, ...
Soil Biology and Biochemistry 77, 252-260, 2014
Plants as resource islands and storage units–adopting the mycocentric view of arbuscular mycorrhizal networks
Y Lekberg, EC Hammer, PA Olsson
FEMS Microbiology Ecology 74 (2), 336-345, 2010
Biochar increases arbuscular mycorrhizal plant growth enhancement and ameliorates salinity stress
EC Hammer, M Forstreuter, MC Rillig, J Kohler
Applied soil ecology 96, 114-121, 2015
The influence of different stresses on glomalin levels in an arbuscular mycorrhizal fungus—salinity increases glomalin content
EC Hammer, MC Rillig
PLoS One 6 (12), e28426, 2011
Build your own soil: exploring microfluidics to create microbial habitat structures
K Aleklett, ET Kiers, P Ohlsson, TS Shimizu, VEA Caldas, EC Hammer
The ISME journal 12 (2), 312-319, 2018
Do arbuscular mycorrhizal fungi stabilize litter‐derived carbon in soil?
E Verbruggen, J Jansa, EC Hammer, MC Rillig
Journal of Ecology 104 (1), 261-269, 2016
Arbuscular mycorrhizal fungi-short-term liability but long-term benefits for soil carbon storage?
E Verbruggen, SD Veresoglou, IC Anderson, T Caruso, EC Hammer, ...
New Phytologist 197 (2), 366-368, 2013
Elemental composition in vesicles of an arbuscular mycorrhizal fungus, as revealed by PIXE analysis
PA Olsson, EC Hammer, J Pallon, IM Van Aarle, H Wallander
Fungal biology 115 (7), 643-648, 2011
Effects of different organic materials and mineral nutrients on arbuscular mycorrhizal fungal growth in a Mediterranean saline dryland
EC Hammer, H Nasr, H Wallander
Soil Biology and Biochemistry 43 (11), 2332-2337, 2011
Phosphorus availability influences elemental uptake in the mycorrhizal fungus Glomus intraradices, as revealed by particle-induced X-ray emission analysis
PA Olsson, EC Hammer, H Wallander, J Pallon
Applied and Environmental Microbiology 74 (13), 4144-4148, 2008
The interplay between P uptake pathways in mycorrhizal peas: a combined physiological and gene‐silencing approach
M Grønlund, M Albrechtsen, IE Johansen, EC Hammer, TH Nielsen, ...
Physiologia Plantarum 149 (2), 234-248, 2013
Nutrient dynamics in arbuscular mycorrhizal networks
I Jakobsen, EC Hammer
Mycorrhizal Networks, 91-131, 2015
Phosphorus and carbon availability regulate structural composition and complexity of AM fungal mycelium
O Olsson, PA Olsson, EC Hammer
Mycorrhiza 24 (6), 443-451, 2014
Symbiotic fungi that are essential for plant nutrient uptake investigated with NMP
J Pallon, H Wallander, E Hammer, NA Marrero, V Auzelyte, M Elfman, ...
Nuclear Instruments and Methods in Physics Research Section B: Beam …, 2007
Synergies between mycorrhizal fungi and soil microbial communities increase plant nitrogen acquisition
R Hestrin, EC Hammer, CW Mueller, J Lehmann
Communications biology 2 (1), 1-9, 2019
Perturbed partners: opposite responses of plant and animal mutualist guilds to inundation disturbances
A Prinzing, J Dauber, EC Hammer, N Hammouti, K Böhning‐Gaese
Oikos 116 (8), 1299-1310, 2007
Mycorrhiza for all: an under‐earth revolution
LB Martinez‐Garcia, K Garcia, EC Hammer, A Vayssières
New Phytologist 198 (3), 652-655, 2013
Arbuscular mycorrhizal fungal and soil microbial communities in African Dark Earths
T Camenzind, EC Hammer, J Lehmann, D Solomon, S Horn, MC Rillig, ...
FEMS microbiology ecology 94 (4), fiy033, 2018
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