Source: AGRICOLA database (1970-1996)

Dzantor, E. K., T. Chekol, et al. (2000). Feasibility of using forage grasses and legumes for phytoremediation of organic pollutants. Journal of Environmental Science and Health Part A Toxic Hazardous Substances and Environmental Engineering. [print] October 9: 1645-1661. {a} Department of Natural Resource Sciences and Landscape Architecture, University of Maryland, College Park, MD, 20742, USA

Malik, R. K., T. H. Green, et al. (2000). Use of cover crops in short rotation hardwood plantations to control erosion. Biomass and Bioenergy. [print] 18(6): 479-487. {a} Center for Forestry and Ecology, Department of Plant and Soil Science, Alabama A and M University, Normal, AL, 35762, USA

Ueda, M., Y. Sawai, et al. (2000). Synthetic probe compounds for bioorganic studies of nyctinasty, based on the leaf-opening substance of Lespedeza cuneata G. Don. Tetrahedron . [print] 56(29): 5123-5130. {a} Department of Chemistry, Faculty of Science and Technology, Keio University, Hiyoshi, Yokohama, 223-8522, Japan

Kalburtji, K. L., J. A. Mosjidis, et al. (1999). Litter dynamics of low and high tannin sericea lespedeza plants under field conditions. Plant and Soil. July 208(2): 271-281. {a} Faculty of Agriculture, Laboratory of Ecology and Environmental Protection, University of Thessaloniki, 540 06, Thessaloniki, Greece

Krueger, C. G., K. A. Albrecht, et al. (1999). Sodium sulphite effects on recovery and composition of detergent fibre and lignin from forage legumes varying in levels of proanthocyanidins. Journal of the Science of Food and Agriculture. Aug. 79(11): 1351-1356. {a} Department of Agronomy, University of Wisconsin-Madison, Madison, WI, 53706, USA

Nemoto, T. and H. Ohashi (1999). A new species of Lespedeza (Leguminosae) from Japan. Journal of Japanese Botany. Oct. 74(5): 268-281. {a} Department of Basic Sciences, Faculty of Science and Engineering, Ishinomaki Senshu University, Ishinomaki, 986-8580, Japan

Ueda, M., M. Asano, et al. (1999). Leaf-movement factors of nyctinastic plant, Phyllanthus urinaria L.; The universal mechanism for the regulation of nyctinastic leaf-movement. Tetrahedron . April 55(18): 5781-5792. {a} Department of Chemistry, Faculty of Science and Technology, Keio University, Hiyoshi, Yokohama, 223-8522, Japan

Ueda, M., Y. Sawai, et al. (1999). Sugar-derivatives of potassium lespedezate, artificial leaf-opening substances of Lespedeza cuneata G. Don, designed for the bioorganic studies of nyctinasty. Tetrahedron Letters. May 40(19): 3757-3760. {a} Department of Chemistry, Faculty of Science and Technology, Keio University, Hiyoshi, Yokohama, 223-8522, Japan

Ueda, M., Y. Sawai, et al. (1999). Syntheses and novel bioactivities of artificial leaf-opening substances of Lespedeza cuneata G. Don, designed for the bioorganic studies of nyctinasty. Tetrahedron . Sept. 55(36): 10925-10936. {a} Department of Chemistry, Faculty of Science and Technology, Keio University, Hiyoshi, Yokohama, 223-8522, Japan

Wehtje, G., R. H. Walker, et al. (1999). Weed control in low-tannin seedling sericea lespedeza (Lespedeza cuneata). Weed Technology. April June 13(2): 290-295. {a} Department of Agronomy and Soils and Alabama Agricultural Experiment Station, Auburn University, Auburn, AL, 36849-5412, USA

Yao, Z. and W. Chen (1999). Study on polyphasic taxonomy of rhizobia isolated from Lespedeza species. Weishengwu Xuebao. Aug. 39(4): 287-295. {a} Department of Microbiology, China Agricultural University, Beijing, 100094, China

Cho, N. K., Y. K. Kang, et al. (1998). Distribution, standing crop, and nutritive value of native legumes in Cheju Island. Korean Journal of Animal Science 40(6): 681-690. {a} Dep. Agron., Cheju Natl. Univ., Cheju 690-756, South Korea

Eddy, T. A. and C. M. Moore (1998). Effects of sericea lespedeza (Lespedeza cuneata (Dumont) G. Don) invasion on oak savannas in Kansas. Transactions of the Wisconsin Academy of Sciences Arts and Letters 86: 57-62. {a} Division of Biological Sciences, Emporia State University, Emporia, KS, 66801, USA

Ohnuki, T., M. Ueda, et al. (1998). Molecular mechanism of the control of nyctinastic leaf-movement in Lespedeza cuneata G. Don. Tetrahedron 54(40): 12173-12184. {a} Dep. Chem., Fac. Sci. Technol., Keio Univ., Hiyoshi, Yokohama 223, Japan

Broderick, G. A. and K. A. Albrecht (1997). Ruminal in vitro degradation of protein in tannin-free and tannin-containing forage legume species. Crop Science 37(6): 1884-1891. {a} U.S. Dairy Forage Res. Cent., Agric. Res. Serv., USDA, Madison, WI 53706, USA

Cline, G. R. and A. F. Silvernail (1997). Effects of acidic minesoil on nodulation of the legume Sericea lespedeza (Lespedeza cuneata, Fabaceae) by Bradyrhizobium nitrogen-fixing bacteria. Transactions of the Kentucky Academy of Science 58(2): 80-84. Community Res. Serv., Ky. State Univ., Frankfort, KY 40601, USA

Ueda, M., T. Ohnuki, et al. (1997). The chemical control of leaf-movement in a nyctinastic plant, Lespedeza cuneata G. Don. Tetrahedron Letters 38(14): 2497-2500. {a} Dep. Chem., Fac. Sci. and Technol., Keio Univ., Hiyoshi, Yokohama 223, Japan

Gamble, G. R., D. E. Akin, et al. (1996). Biological degradation of tannins in Sericea Lespedeza (Lespedeza cuneata) by the white rot fungi Ceriporiopsis subvermispora and Cyathus stercoreus analyzed by solid-state 13C nuclear magnetic resonance spectroscopy. Applied and Environmental Microbiology 62(10): 3600-3604. {a} Russell Res. Cent., Agric. Res. Service, US Dep. Agric., PO Box 5677, Athens, GA 30604-5677, USA

Hill, M. J., C. Mulcahy, et al. (1996). Perennial legumes for the high rainfall zone of eastern Australia. 1. Evaluation in single rows and selection of Caucasian clover (Trifolium ambiguum M. Bieb.). Australian Journal of Experimental Agriculture 36(2): 151-163. CSIRO Div. Anim. Production, Pastoral Res. Lab., Armidale, NSW 2350, Australia

Jeong, G. S. and B. M. Woo (1996). Studies on mixed-seeding of native woody and herb species. Journal of Korean Forestry Society 85(2): 271-279. {a} Dep. Forest Resources, Seoul Natl. Univ., Suwon, South Korea

Mosjidis, J. A. (1996). Variability for biomass production and plant composition in sericea lespedeza. Biomass and Bioenergy 11(1): 63-68. Dep. Agronomy and Soils Alabama Agric. Experdiment Stn., Auburn Univ., Auburn, AL 36849-5412, USA

Anderson, T. A. and B. T. Walton (1995). Comparative fate of (14C)trichloroethylene in the root zone of plants from a former solvent disposal site. Environmental Toxicology and Chemistry 14(12): 2041-2047. {a} Pesticide Toxicol. Lab., Dep. Entomol., Iowa State Univ., Ames, IA 50011, USA

Qiu, J., J. A. Mosjidis, et al. (1995). Variability for temperature of germination in sericea lespedeza germplasm. Crop Science 35(1): 237-241. {a} Research Data Analysis Alabama Agric. Exp. Stn. Auburn Univ., Auburn, AL 36849-5412, USA

Terrill, T. H., W. R. Windham, et al. (1994). Effect of drying method and condensed tannin on detergent fiber analysis of Sericea lespedeza. Journal of the Science of Food and Agriculture 66(3): 337-343. {a} Fort Valley State Coll., Dep. Anim. Sci., P.O. Box 5744, Fort Valley, GA 31030, USA

Cripps, R. W. and H. K. Bates (1993). Effect of cover crops on soil erosion in nursery aisles. Journal of Environmental Horticulture 11(1): 5-13. Sch. Agric., Tennessee Technological Univ., Cookeville, TN 38505

Lynd, J. Q. and T. R. Ansman (1993). Symbiotic tripartite nitrogen fixation effectual in eroded soil restoration with 20 year-age Sericea lespedeza. Journal of Plant Nutrition 16(1): 149-164. Soil Microbiol. Agron., Okla. State Univ., Stillwater, Okla. 74078-0507, USA

Nemoto, T. and H. Ohashi (1993). The inflorescence structure of Kummerowia (Leguminosae). Botanical Journal of the Linnean Society 111(2): 281-294. {a} Biol. Inst., Fac. Sci., Tohoku Univ., Sendai, Miyagi 980, Japan

Qiu, J. and J. A. Mosjidis (1993). Relationships among maximum hypocotyl length, seed weight, and emergence in sericea lespedeza. Agronomy Journal 85(5): 995-998. {a} Dep. Agronomy and Soils and Alabama Agric. Exp. Stn., Auburn Univ., AL 36849-5412, USA

Rao, S. R. S. and M. Leela (1993). Seed morphology (LM and SEM) in some Ipomoea L. (Convolvulaceae). Feddes Repertorium 104(3-4): 209-213. {a} Sardar Patel Coll., Dep. Botany, Plant Anat. Taxonomy Lab., Padmarao Nagar, Secunderabad 500 025, India

Vipond, J. E., G. Swift, et al. (1993). A comparison of diploid and tetraploid perennial ryegrass and tetraploid ryegrass/white clover swards under continuous sheep stocking at controlled sward heights: 2. Animal production. Grass and Forage Science 48(3): 290-300. {a} Scottish Agric. College, Bush Estate, Penicuik, Midlothian EH26 0QE, UK

Altom, J. V., J. F. Stritzke, et al. (1992). Sericea lespedeza (Lespedeza cuneata) control with selected postemergence herbicides. Weed Technology 6(3): 573-576. {a} Dep. Agron., Okla. State Univ., Stillwater, Okla. 74078

Dkhar, M. S. and R. R. Mishra (1992). Change in chemistry during decomposition of maize residues. Proceedings of the National Academy of Sciences India Section B Biological Sciences 62(3): 437-440. Dep. Botany, North-Eastern Hill Univ., Shillong-793 014, India

Taylor, R. W., I. O. Ibeakuchi, et al. (1992). Heavy metals in the environment? Accumulation of some metals by legumes and their extractability from acid mine soils. Journal Of Environmental Quality 21(2): 176-180.

Albrecht, K. A. and R. E. Muck (1991). Proteolysis in ensiled forage legumes that vary in tannin concentration. Crop Science 31(2): 464-469.

Buntin, G. D. (1991). Effect of insect damage on the growth, yield, and quality of sericea lespedeza forage. Journal Of Economic Entomology 84(1): 277-284.

Hill, M. J. and R. Luck (1991). The effect of temperature on germination and seedling growth of temperate perennial pasture legumes. Australian Journal Of Agricultural Research 42(1): 175-190.

Mkhatshwa, P. D. and C. S. Hoveland (1991). Sericea lespedeza production on acid soils in Swaziland. Tropical Grasslands 25(4): 337-341.

Mosjidis, J. A. (1991). Effect of hull removal, storage conditions, and genotype on germination of sericea lespedeza seeds. Seed Science And Technology 19(3): 623-626.

Petersen, J. C. and N. S. Hill (1991). Enzyme inhibition by sericea lespedeza tannins and the use of supplements to restore activity. Crop Science 31(3): 827-832.

Petersen, J. C., N. S. Hill, et al. (1991). Screening sericea lespedeza germplasm for herbage quality. Agronomy Journal 83(3): 581-588.

Buntin, G. D. and B. R. Wiseman (1990). Growth and development of two polyphagous lepidopterans fed high and low-tannin sericea lespedeza. Entomologia Experimentalis Et Applicata 55(1): 69-78.

Mosjidis, C. O., C. M. Peterson, et al. (1990). Developmental differences in the location of polyphenols and condensed tannins in leaves and stems of sericea lespedeza, Lespedeza cuneata. Annals Of Botany 65(4): 355-360.

Mosjidis, J. A. (1990). Daylength and temperature effects on emergence and early growth of sericea lespedeza. Agronomy Journal 82(5): 923-926.

Shigemori, H., N. Sakai, et al. (1990). Bioactive substances from Lespedeza cuneata L. G. Don and their biological activities. Tetrahedron 46(2): 383-394.

Terrill, T. H., W. R. Windham, et al. (1990). Condensed tannin concentration sericea lespedeza as influenced by preservation method. Crop Science 30(1): 219-224.

Bugg, R. L. and J. D. Dutcher (1989). Warm-season cover crops for pecan orchards: Horticultural and entomological implications. Biological Agriculture & Horticulture 6(2): 123-148.

Joost, R. E., B. W. Mathews, et al. (1989). Phosphorus response of sericea lespedeza on a Georgia (USA) ultisol. Communications In Soil Science And Plant Analysis 20(7-8): 837-850.

Terrill, T. H., W. R. Windham, et al. (1989). Forage preservation method influences on tannin concentration, intake, and digestibility of sericea lespedeza by sheep. Agronomy Journal 81(3): 435-439.

Barnard, R. O. and W. J. Folscher (1988). Growth of legumes at different levels of liming. Tropical Agriculture 65(2): 113-116.

Bender, D. A., R. D. Morse, et al. (1988). Field evaluation of starter nitrogen and delayed inoculation of Lespedeza cuneata grown in minesoil. Plant And Soil 109(1): 109-114.

Ishikawa, S. (1988). Floodplain vegetation of the Ibi River in central Japan: I. Distribution behavior and habitat conditions of the main species of the river bed vegetation developing on the alluvial fan. Japanese Journal Of Ecology 38(2): 73-84.

Mosjidis, J. A. (1988). Response of sericea lespedeza genotypes low in tannins to different environments. Plant Breeding 101(4): 302-306.

Wilson, D. O. (1988). Differential plant response to inoculation with two VA mycorrhizal fungi isolated from a low-pH soil. Plant And Soil 110(1): 69-76.

Windham, W. R., S. L. Fales, et al. (1988). Analysis for tannin concentration in sericea lespedeza by near IR reflectance spectroscopy. Crop Science 28(4): 705-708.

Fail, J. L. J. (1987). Growth response of two grasses and a legume on coal fly ash amended strip mine soils. Plant And Soil 101(1): 149-150.

Skousen, J. G. and C. A. Call (1987). Grass and forb species for revegetation of mixed soil-lignite overburden in East Central Texas (USA). Journal Of Soil And Water Conservation 42(6): 438-441.

Skousen, J. G. and C. A. Call (1987). Sod-seeding to modify coastal bermudagrass on reclaimed lignite overburden in Texas (USA). Reclamation & Revegetation Research 6(3): 163-176.

Smith, A. E. (1987). Increasing importance and control of mayweed chamomile in forage crops. Agronomy Journal 79(4): 657-660.

Buta, J. G. and W. R. Lusby (1986). Catechins as germination and growth inhibitors in Lespedeza seeds. Phytochemistry 25(1): 93-96.

Fagbenle, H. H., D. I. Edwards, et al. (1986). Cyst production by two geographical isolates of Heterodera lespedezae on selected legumes. Plant Disease 70(7): 643-644.

Joost, R. E. and C. S. Hoveland (1986). Root development of sericea lespedeza (Lespedeza cuneata) and alfalfa (Medicago sativa) in acid soils. Agronomy Journal 78(4): 711-714.

Lindroth, R. L., G. O. Batzli, et al. (1986). Lespedeza phenolics and Penstemon alkaloids: Effects on digestion efficiencies and growth of voles. Journal Of Chemical Ecology 12(3): 713-728.

Lindroth, R. L., G. O. Batzli, et al. (1986). Patterns in the phytochemistry of three prairie plants. Biochemical Systematics And Ecology 14(6): 597-602.

Palazzo, A. J. and C. R. Lee (1986). Biomass determination at reclamation sites using a weighted disk meter. Reclamation & Revegetation Research 4(4): 307-312.

Van, S. J. W., F. J. Ponder, et al. (1986). Legumes increase growth and alter foliar nutrient levels of black walnut saplings. Forest Ecology And Management 17(2-3): 159-168.

Bender, D. A., R. D. Morse, et al. (1985). Delayed inoculation and starter nitrogen for enhancing early growth and nitrogen status of Lespedeza cuneata. Plant And Soil 84(3): 311-322.

Numata, A., H. Yamaguchi, et al. (1985). Host-plant selection by the yellow butterfly larvae, Eurema hecabe mandarina (Lepidoptera: Pieridae): Attractants and arrestants. Applied Entomology And Zoology 20(3): 314-321.

Crews, J. T. (1984). Effect of minesoil compaction on growth and yield of (cultivar) Kentucky-31 tall fescue (Festuca arundinacea) and sericea lespedeza (Lespedeza cuneata). U S Forest Service Research Note Ne(320): 1-5.

Fales, S. L. (1984). Influence of temperature on chemical composition and in vitro dry matter disappearance of normal-tannin and low-tannin sericea lespedeza (Lespedeza cuneata). Canadian Journal Of Plant Science 64(3): 637-642.

Wolf, D. D., R. E. Blaser, et al. (1984). Hydro-application of seed and wood-fiber slurries to bind straw mulch. Reclamation & Revegetation Research 3(2): 101-108.

Joost, R. E., C. S. Hoveland, et al. (1250). Screening sericea lespedeza (Lespedeza cuneata) for aluminum tolerance. Crop Science 26(6): 1250-1251.

Brown, R. H. and D. E. Radcliffe (1208). A comparison of apparent photosynthesis in sericea lespedeza (Lespedeza cuneata) and alfalfa (Medicago sativa). Crop Science 26(6): 1208-1211.

Nemoto, T. and H. Ohashi (1070). Organographic and ontogenetic studies on the inflorescence of Lespedeza cuneata (Dum.-Cours.) G. Don (Leguminosae). Botanical Magazine Tokyo 103(1070): 217-232.

Campbell, T. A., N. J. Nuernberg, et al. (1057). Differential responses of sericea lespedeza to aluminum stress. Journal Of Plant Nutrition 14(10): 1057-1066.

Bender, D. A., J. L. Neal, et al. (1033). Evaluation of rhizobial strains nodulating Lespedeza cuneata for improving nitrogen input into minesoil revegetation systems. Communications In Soil Science And Plant Analysis 20(9-10): 1033-1044.