Contributions of interacting biological mechanisms to soil aggregate stabilization in restored prairie JD Jastrow, RM Miller, J Lussenhop Soil Biology and Biochemistry 30 (7), 905-916, 1998 | 667 | 1998 |
Mechanisms of microarthropod-microbial interactions in soil J Lussenhop Advances in ecological research 23, 1-33, 1992 | 391 | 1992 |
INTERACTIVE EFFECTS OF ATMOSPHERIC CO2 AND SOIL‐N AVAILABILITY ON FINE ROOTS OF POPULUS TREMULOIDES KS Pregitzer, DR Zak, J Maziasz, J DeForest, PS Curtis, J Lussenhop Ecological Applications 10 (1), 18-33, 2000 | 307 | 2000 |
ATMOSPHERIC CO2, SOIL‐N AVAILABILITY, AND ALLOCATION OF BIOMASS AND NITROGEN BY POPULUS TREMULOIDES DR Zak, KS Pregitzer, PS Curtis, CS Vogel, WE Holmes, J Lussenhop Ecological Applications 10 (1), 34-46, 2000 | 174 | 2000 |
GAS EXCHANGE, LEAF NITROGEN, AND GROWTH EFFICIENCY OF POPULUS TREMULOIDES IN A CO2‐ENRICHED ATMOSPHERE PS Curtis, CS Vogel, X Wang, KS Pregitzer, DR Zak, J Lussenhop, ... Ecological Applications 10 (1), 3-17, 2000 | 162 | 2000 |
Root system adjustments: regulation of plant nutrient uptake and growth responses to elevated CO2 H BassiriRad, VP Gutschick, J Lussenhop Oecologia 126 (3), 305-320, 2001 | 158 | 2001 |
Soil arthropod response to prairie burning J Lussenhop Ecology 57 (1), 88-98, 1976 | 103 | 1976 |
Ectomycorrhizal fungal communities in two North American oak forests respond to nitrogen addition PG Avis, GM Mueller, J Lussenhop New Phytologist 179 (2), 472-483, 2008 | 97 | 2008 |
Response of soil biota to elevated atmospheric CO2 in poplar model systems J Lussenhop, A Treonis, PS Curtis, JA Teeri, CS Vogel Oecologia 113, 247-251, 1998 | 97 | 1998 |
Collembola as mediators of microbial symbiont effects upon soybean J Lussenhop Soil Biology and Biochemistry 28 (3), 363-369, 1996 | 91 | 1996 |
Urban cemeteries as bird refuges J Lussenhop The Condor 79 (4), 456-461, 1977 | 83 | 1977 |
Widespread foliage δ15N depletion under elevated CO2: inferences for the nitrogen cycle H BassiriRad, JVH Constable, J Lussenhop, BA Kimball, RJ Norby, ... Global Change Biology 9 (11), 1582-1590, 2003 | 73 | 2003 |
Soil nematodes indicate food web responses to elevated atmospheric CO2 JD Hoeksema, J Lussenhop, JA Teeri Pedobiologia 44 (6), 725-735, 2000 | 72 | 2000 |
Trophic interactions of fungi and animals L Ruess, J Lussenhop Mycology Series 23, 581, 2005 | 58 | 2005 |
Insect effects on bacteria and fungi in cattle dung J Lussenhop, R Kumar, DT Wicklow, JE Lloyd Oikos, 54-58, 1980 | 56 | 1980 |
Influence of elevated CO2 and mycorrhizae on nitrogen acquisition: contrasting responses in Pinus taeda and Liquidambar styraciflua JVH Constable, H Bassirirad, J Lussenhop, A Zerihun Tree Physiology 21 (2-3), 83-91, 2001 | 55 | 2001 |
À simplified caniste-type soil asthropod extractor. J Lussenhop | 50 | 1971 |
Rapid response of soil protozoa to elevated CO2 AM Treonis, JF Lussenhop Biology and fertility of soils 25, 60-62, 1997 | 49 | 1997 |
Collembolan effects on establishment of vesicular-arbuscular mycorrhizae in soybean (Glycine max). PA Kaiser, J Lussenhop | 42 | 1991 |
Victor Hensen and the development of sampling methods in ecology J Lussenhop Journal of the History of Biology 7 (2), 319-337, 1974 | 41 | 1974 |