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Selected reprints are available in pdf format. Click on the underlined text to retrieve pdf.
2005 Driver JD, Holben WE, Rillig MC. 2005. Characterization of glomalin as a hyphal wall component of arbuscular mycorrhizal fungi. Soil Biology & Biochemistry 37: 101-106. Gadkar V, Rillig MC. 2005. Application of Phi29 DNA polymerase mediated whole genome amplification to single spores of arbuscular mycorrhizal (AM) fungi. FEMS Microbiology Letters 242: 65-71. Klironomos JN, Allen MF, Rillig MC, Piotrowski JS, Makvandi-Nejad S, Wolfe BE, Powell JR. 2005. Abrupt rise in atmospheric CO2 overestimates community response in a model plant-soil system. Nature 433: 621-624. Ramsey PW, Rillig MC, Feris KP, Moore JN, Gannon JE. 2005. Mine waste contamination limits soil respiration rates: a case study using quantile regression. Soil Biology & Biochemistry 37: 1177-1183. Mummey DL, Rillig MC, Holben WE. 2005. Neighboring plant influences on arbuscular mycorrhizal fungal community composition as assessed by T-RFLP analysis. Plant and Soil 271: 83-90. Rillig MC. 2005. A connection between fungal hydrophobins and soil water repellency. Pedobiologia 49: 395-399.
2004
Lutgen, ER, Rillig MC. 2004. Influence of spotted knapweed (Centaurea maculosa) management treatments on arbuscular mycorrhizae and soil aggregation. Weed Science 52: 172-177. Rillig MC. 2004. Arbuscular mycorrhizae, glomalin and soil quality. Canadian Journal of Soil Science 84: 355-363. Feris, KP, Ramsey, PW, Frazar, CF, Rillig, MC, Gannon, JE, Holben, WE. 2004. Seasonal dynamics of shallow hyporheic zone microbial community structure along a heavy metal contamination gradient. Appl. Environ. Microbiol. 70: 2323-2331. Rillig MC. 2004. Arbuscular mycorrhizae and terrestrial ecosystem processes. Ecology Letters 7: 740-754. Piotrowski JS, Denich T, Klironomos JN, Graham JM, Rillig MC. 2004. The effects of arbuscular mycorrhizae on soil aggregation depend on the interaction between plant and fungal species. New Phytologist 164: 365-373. Harner MJ, Ramsey PW,
Rillig MC. 2004. Protein accumulation and distribution in floodplain soils
and river foam. Ecology Letters 7: 829-836.
Rillig, MC, Maestre FT, Lamit LJ. 2003. Microsite differences in fungal
hyphal length, glomalin, and soil aggregate stability in semiarid Mediterranean
steppes. Soil Biology & Biochemistry 35: 1257-1260. Knorr MA, Boerner REJ, Rillig MC. 2003. Glomalin content of forest soils in
relation to fire frequency and landscape position. Mycorrhiza 13: 205-210.
Rillig MC, Field CB. 2003.
Arbuscular mycorrhizae respond to plants exposed
to elevated atmospheric CO2 as a function of soil depth. Plant and Soil 254:
383-391. Feris KP, Ramsey PW, Frazar CF, Rillig MC, Gannon JE, Holben WE. 2003.
Structure and seasonal dynamics of hyporheic zone microbial communities in
free-stone rivers of the western United States. Microbial Ecology 46: 200-215.
Rillig MC, Ramsey PW, Morris S, Paul EA. 2003. Glomalin, an
arbuscular-mycorrhizal fungal soil protein, responds to land-use change. Plant
and Soil 253: 293-299.
Steinberg PD, Rillig MC. 2003. Differential decomposition of arbuscular
mycorrhizal fungal hyphae and glomalin. Soil Biology & Biochemistry 35: 191-194.
Rillig, M.C., Wright, S.F., Eviner V. 2002. The role of arbuscular
mycorrhizal fungi and glomalin in soil aggregation: comparing effects of five
plant species. Plant and Soil 238: 325-333.
Rillig, M.C., Wright, S.F., Shaw, M.R., Field, C.B. 2002.
Artificial
ecosystem warming positively affects arbuscular mycorrhizae but decreases soil
aggregation. Oikos 97: 52-58. Rillig, M.C., Treseder, K.K., Allen, M.F. 2002. Mycorrhizal fungi and global
change. In: Ecological Studies Series 157: Mycorrhizal Ecology, Springer Verlag,
pp. 135-160.
Rillig, M.C., Wright, S.F., Kimball, B.A., Leavitt S.W. 2001. Elevated
carbon dioxide and irrigation effects on water stable aggregates in a Sorghum
field: a possible role for arbuscular mycorrhizal fungi. Global Change Biology
7: 333-337.
Rillig, M.C., Hernandez, G.Y., Newton, P.C.D. 2000.
Arbuscular mycorrhizae
respond to elevated atmospheric CO2 after long-term exposure: evidence from a
CO2 spring in New Zealand supports the resource-balance model. Ecology Letters
3: 475-478.
Rillig, M.C., Wright, S.F., Allen, M.F., and Field, C.B. 1999. Rise in
carbon dioxide changes soil structure. Nature 400: 628.
Rillig, M.C., Allen, M.F., and Field, C.B. 1999.
Soil biota responses to
long-term atmospheric CO2 enrichment in two California annual grasslands.
Oecologia 119: 572-577.
Rillig, M.C. and Allen, M.F. 1999.
What is the role of arbuscular
mycorrhizal fungi in plant-to-ecosystem responses to elevated atmospheric CO2?
Mycorrhiza 9: 1-8.
Rillig, M.C., Field, C.B., Allen, M.F. 1999. Fungal root colonization
responses in natural grasslands after long-term exposure to elevated CO2. Global
Change Biology 5: 577-585. Klironomos, J.N., Rillig, M.C., Allen, M.F. 1999. Designing belowground field
experiments with the help of semi-variance and power analyses. Applied Soil
Ecology 12: 227-238. 1998 Rillig, M.C. and Allen, M.F. 1998. Arbuscular mycorrhizae of Gutierrrezia
sarothrae and elevated carbon dioxide: evidence for shifts in C allocation to
and within the mycobiont. Soil Biology & Biochemistry 30: 2001-2008.
Rillig, M.C., Allen, M.F., Klironomos, J.N., Chiariello, N.R., and Field, C.B.
1998. Plant species-specific changes in root-inhabiting fungi in a
California annual grassland: responses to elevated CO2 and nutrients. Oecologia
113: 252-259. Rillig, M.C., Allen, M.F., Klironomos, J.N., and Field, C.B. 1998. Arbuscular
mycorrhizal percent root infection and infection intensity of Bromus hordeaceus
grown in elevated atmospheric CO2. Mycologia 90: 199-205. Klironomos, J.N., Ursic, M., Rillig, M.C., and Allen, M.F. 1998. Inter-specific differences in the response of arbuscular mycorrhizal fungi to elevated atmospheric CO2. New Phytologist 138: 599-603.
Rillig, M.C. 1997. Effects of elevated atmospheric carbon dioxide on the
arbuscular mycorrhizal symbiosis. Ph.D. dissertation, University of California
Davis/ San Diego State University. Rillig, M.C., Scow, K.M., Klironomos, J.N., and Allen, M.F. 1997. Microbial
carbon substrate utilization in the rhizosphere of Gutierrezia sarothrae grown
in elevated atmospheric carbon dioxide. Soil Biology & Biochemistry 29:
1387-1394. Klironomos, J.N., Rillig, M.C., and Allen, M.F. 1996. Below-ground microbial
and microfaunal responses to Artemisia tridentata grown under elevated
atmospheric CO2. Functional Ecology 10: 527-534. Klironomos, J.N., Rillig, M.C., Allen, M.F., Zak, D.R., Kubiske, M., and
Pregitzer, K.S. 1997. Soil fungal-arthropod responses to Populus tremuloides
grown under enriched atmospheric CO2 under field conditions. Global Change
Biology 3: 473-478. Klironomos, J.N., Rillig, M.C., Allen, M.F., Zak, D.R., Pregitzer, K.S., and
Kubiske, M.E. 1997. Increased levels of airborne fungal spores in response to
Populus tremuloides grown under elevated atmospheric CO2. Canadian Journal of
Botany 75: 1670-1673. |
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