Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
HÖGBERG, PETER
1997.
Tansley Review No. 9515N natural abundance in soil‐plant systems.
New Phytologist,
Vol. 137,
Issue. 2,
p.
179.
Tayasu, Ichiro
1998.
Use of carbon and nitrogen isotope ratios in termite research.
Ecological Research,
Vol. 13,
Issue. 3,
p.
377.
Frazer, Lilyann Novak
1999.
One stop mycology.
Mycological Research,
Vol. 103,
Issue. 1,
p.
116.
Bauer, G. A.
Gebauer, G.
Harrison, A. F.
Högberg, P.
Högbom, L.
Schinkel, H.
Taylor, A. F. S.
Novak, M.
Buzek, F.
Harkness, D.
Persson, T.
and
Schulze, E.-D.
2000.
Carbon and Nitrogen Cycling in European Forest Ecosystems.
Vol. 142,
Issue. ,
p.
189.
Ponsard, Sergine
and
Arditi, Roger
2000.
WHAT CAN STABLE ISOTOPES (δ15N AND δ13C) TELL ABOUT THE FOOD WEB OF SOIL MACRO-INVERTEBRATES?.
Ecology,
Vol. 81,
Issue. 3,
p.
852.
Kohzu, Ayato
Tateishi, Takahiro
Yamada, Akiyoshi
Koba, Keisuke
and
Wada, Eitaro
2000.
Nitrogen isotope fractionation during nitrogen transport from ectomycorrhizal fungi,Suillus granulatus, to the host plant,Pinus densiflora.
Soil Science and Plant Nutrition,
Vol. 46,
Issue. 3,
p.
733.
Emmerton, K. S.
Callaghan, T. V.
Jones, H. E.
Leake, J. R.
Michelsen, A.
and
Read, D. J.
2001.
Assimilation and isotopic fractionation of nitrogen by mycorrhizal and nonmycorrhizal subarctic plants.
New Phytologist,
Vol. 151,
Issue. 2,
p.
513.
Evans, R.Dave
2001.
Physiological mechanisms influencing plant nitrogen isotope composition.
Trends in Plant Science,
Vol. 6,
Issue. 3,
p.
121.
Emmerton, K. S.
Callaghan, T. V.
Jones, H. E.
Leake, J. R.
Michelsen, A.
and
Read, D. J.
2001.
Assimilation and isotopic fractionation of nitrogen by mycorrhizal fungi.
New Phytologist,
Vol. 151,
Issue. 2,
p.
503.
Hobbie, Erik A.
Weber, Nancy S.
and
Trappe, James M.
2001.
Mycorrhizal vs saprotrophic status of fungi: the isotopic evidence.
New Phytologist,
Vol. 150,
Issue. 3,
p.
601.
Adams, M. A.
and
Grierson, P. F.
2001.
Stable Isotopes at Natural Abundance in Terrestrial Plant Ecology and Ecophysiology: An Update.
Plant Biology,
Vol. 3,
Issue. 4,
p.
299.
Lilleskov, Erik A.
Hobbie, Erik A.
and
Fahey, Timothy J.
2002.
Ectomycorrhizal fungal taxa differing in response to nitrogen deposition also differ in pure culture organic nitrogen use and natural abundance of nitrogen isotopes.
New Phytologist,
Vol. 154,
Issue. 1,
p.
219.
Werner, Roland A.
and
Schmidt, Hanns-Ludwig
2002.
The in vivo nitrogen isotope discrimination among organicplant compounds.
Phytochemistry,
Vol. 61,
Issue. 5,
p.
465.
Griffith, Gareth W.
Easton, Gary L.
and
Jones, Andrew W.
2002.
Ecology and diversity of waxcap (Hygrocybespp.) Fungi.
Botanical Journal of Scotland,
Vol. 54,
Issue. 1,
p.
7.
Dawson, Todd E.
Mambelli, Stefania
Plamboeck, Agneta H.
Templer, Pamela H.
and
Tu, Kevin P.
2002.
Stable Isotopes in Plant Ecology.
Annual Review of Ecology and Systematics,
Vol. 33,
Issue. 1,
p.
507.
Henn, Matthew R.
Gleixner, Gerd
and
Chapela, Ignacio H.
2002.
Growth-Dependent Stable Carbon Isotope Fractionation by Basidiomycete Fungi: δ
13
C Pattern and Physiological Process
.
Applied and Environmental Microbiology,
Vol. 68,
Issue. 10,
p.
4956.
Trudell, Steven A.
Rygiewicz, Paul T.
and
Edmonds, Robert L.
2003.
Nitrogen and carbon stable isotope abundances support the myco‐heterotrophic nature and host‐specificity of certain achlorophyllous plants.
New Phytologist,
Vol. 160,
Issue. 2,
p.
391.
Taylor, Andy F. S.
Fransson, Petra M.
Högberg, Peter
Högberg, Mona N.
and
Plamboeck, Agneta H.
2003.
Species level patterns in 13C and 15N abundance of ectomycorrhizal and saprotrophic fungal sporocarps.
New Phytologist,
Vol. 159,
Issue. 3,
p.
757.
NORDGREN, A.
OTTOSSON LÖFVENIUS, M.
HÖGBERG, M. N.
MELLANDER, P. ‐E.
and
HÖGBERG, P.
2003.
Tree root and soil heterotrophic respiration as revealed by girdling of boreal Scots pine forest: extending observations beyond the first year.
Plant, Cell & Environment,
Vol. 26,
Issue. 8,
p.
1287.
Hobbie, Erik A.
and
Colpaert, Jan V.
2003.
Nitrogen availability and colonization by mycorrhizal fungi correlate with nitrogen isotope patterns in plants.
New Phytologist,
Vol. 157,
Issue. 1,
p.
115.