Abstract
Sustainable potato production systems are needed to maintain higher tuber yield and quality. Studies were conducted from 2005 to 2008 on commercial potato farms to evaluate the effect of preceding green manure cover crops on potato tuber yield, tuber size distribution, and quality. Sorghum sudan (Sorghum sudanensis var super sweet), Sorghum sudan (Sorghum sudanensis var sordan 79), mustard (Brassica spp.), and canola (Brassica napus) were planted prior to the 2006 and 2007 potato crop. Another treatment included sordan 79 planted but the above ground biomass removed for hay before incorporating the stubble and roots into the soil. A wet fallow plot where no cover crops were planted was included as a control. Additional green manure cover crops planted prior to the 2008 potato crop included barley (Hordeum vulgare L.), barley plus applied compost, sunflower (Helianthus annus), peas (Pisum sativum), and annual rye grass (Lolium spp.). Results from these studies suggest that green manure cover crops can increase potato tuber yield by increasing tuber size, and can improve tuber quality by reducing tuber external defects such as knobs, growth cracks, and misshapes. The positive impact of sorghum sudan suggest that it is possible to harvest the above ground biomass for hay and still obtain high tuber yield and quality when the remaining stubble and roots are plowed into the soil prior to planting potatoes.
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References
Angers DA, Edwards LM, Sanderson JB, Bissonette N (1999) Soil organic matter quality and aggregate stability under eight potato cropping sequences in a fine sandy loam of Prince Edward Island. Can J Soil Sci 79:411–417
Augustine EO, Ortal CI, Pascua SR Jr, Santa Cruz PC, Padre AT, Ventura WB, Obien SR, Ladha JK (1999) Role of indigo in improving the productivity of rainfed lowland rice-based cropping systems. Exp Agr 35:201–210
Bath B (2000) Matching the availability of N mineralized from crops with the N-demand of field vegetables. Dissertation, Swedish University of Agricultural Science
Bullock DG (1992) Crop rotation. Crit Rev Plant Sci 11:309–326
Cherr CM, Schlberg JMS, McSorley P (2006) Green manure approaches to crop production: a synthesis. Agron J 98:302–319
Davis JR, Stark JC, Sorensen LH, Schneider AT (1994a) Interactive effects of nitrogen and phosphorus and verticillium wilt of Russet Burbank potato. Am Potato J 71:467–486
Davis JR, Pavek JJ, Corsini DL, Sorensen LH, Schneider AT, Everson DO, Westermann DT, Huisman OC (1994b) Influence of continuous cropping of several potato clones on the epidemiology of verticillium wilt of potato. Phytopathology 84:207–214
Davis JR, Huisman OC, Westermann DT, Hafez SL, Everson DO, Sorensen LH, Schneider AT (1996) Effects of green manures on Verticillium wilt of potato. Phytopathology 86:444–453
Davis JR, Huisman OC, Westermann DT, Everson DO, Sorensen LH, Schneider AT (1997) Alternative approaches for control of Verticillium wilt of potato with sudangrass. In: Tjamos EC, Rowe RC, Heale JB, Fravel DR (eds) Advances in verticillium research and disease management. APS, St. Paul, pp 292–295
Davis JR, Huisman OC, Everson DO, Sorenson LH, Schneider AT (1999) Control of Verticillium wilt of the Russet Burbank potato with corn and barley (abstr.). Am J Potato Res 76:367
Davis JR, Huisman OC, Everson DO, Schneider AT (2001) Verticillium wilt of potato. A model of key factors related to disease severity and tuber yield in southern Idaho. Am J Potato Res 78:291–300
Davis JR, Huisman OC, Everson DO, Schneider AT, Sorensen LH (2005) Suppression of Verticillium wilt with wheat and improved yield and quality of the Russet Burbank potato (Abst.). Am J Potato Res 82:64
Davis JR, Huisman OC, Everson DO, Westermann DT, Schneider AT (2008) The mode of action of green manures for the suppression of Verticillium wilt of potato (abst). Am J Potato Res 85:7
Davis JR, Huisman OC, Everson DO, Nolte P, Sorensen LH, Schneider AT (2010) Ecological relationships of verticillium wilt suppression of potato by green manures. Am J Potato Res 87:315–326
Delgado JA (1998) Sequential NLEAP simulations to examine effect of early and late planted winter cover crops on nitrogen dynamics. J Soil Water Conserv 53:241–244
Delgado JA, Riggenbach RR, Sparks RT, Dillon MA, Kawanabe LM, Ristau RJ (2001) Evaluation of nitrate-nitrogen transport in a potato-barley rotation. Soil Sci Soc Am J 65:878–883
Delgado JA, Dillon MA, Sparks RT, Essah SYC (2007) A decade of advances in cover crops. J Soil Water Conserv 62:110A–117A
Delgado JA, Del Grosso SJ, Ogle SM (2010) 15N Isotopic crop residue exchange studies suggest that IPCC methodologies to assess N2O-N emissions should be reevaluated. Nutr Cycling Agroecosyst 86:383–390
Emmond GS, Ledingham RJ (1972) Effects of crop rotation on some soil-borne pathogens of potato. Can J Plant Sci 52:605–611
Essah SYC, Delgado JA (2009) Nitrogen management for maximizing tuber yield, quality and environmental conservation. In: Yanful EY (ed) Appropriate technologies for environmental protection in the developing world. Springer, The Netherlands
Essah SYC, Delgado JA, Dillon M (2010) Response of irrigated potato (Solanum tuberosum L.) to green manure cover crops. In: Annual Meetings Abstract. ASA/CSSA/SSSA. October 31–November 3. Long Beach, CA, USA, 120pp
Fox RH, Piekielek WP (1988) Fertilizer N equivalence of alfalfa, birdsfoot trefoil, and red clover for succeeding corn crops. J Prod Agric 1:313–317
Frankenberger WT Jr, Abdelmagid HM (1985) Kinetic parameters of nitrogen mineralization rates of leguminous crops incorporated into soil. Plant Soil 87:257–271
Griffin TS, Hesterman OB (1991) Potato response to legume and fertilizer nitrogen sources. Agron J 83:1004–1012
Griffin T, Liebman M, Jemison J Jr (2000) Cover crops for sweet corn production in a short-season environment. Agron J 92:144–151
Honeycutt CW (1994) Linking N mineralization and plant N demand with thermal units. Soil testing: prospects for improving nutrient recommendations. Soil Sci Soc Am Spec Publ 40, Madison, WI
Honeycutt CW (1999) Nitrogen mineralization form soil organic matter and crop residues: field validation of laboratory procedures. Soil Sci Soc Am J 63:134–141
Honeycutt CW, Potaro LJ (1990) Field evaluation of heat units for predicting crop residue carbon and nitrogen mineralization. Plant Soil 125:213–220
Honeycutt CW, Clapham WM, Leach SS (1995) Influence of crop rotations on selected chemical and physical properties in potato cropping systems. Am Potato J 72:721–735
Honeycutt CW, Clapham WM, Leach SS (1996) Crop rotation and nitrogen fertilization effects on growth, yield and disease incidence in potato. Am potato J 73:45–61
Huisman OC (1982) Interrelations of root growth dynamics to epidemiology of root-invading fungi. Ann Rev Phytopathol 20:303–327
Kumar K, Goh KM (2000) Crop residues and management practices: effects on soil quality, soil nitrogen dynamics, crop yield, and nitrogen recovery. Adv Agron 68:197–319
Kumar K, Goh KM (2002) Management practices of antecedent leguminous and non-leguminous crp residues in relation to winter wheat yields, nitrogen uptake, soil nitrogen mineralization and simple nitrogen balance. Eur J Agron 16:295–308
Macrae RJ, Mehays GR (1985) The effect of green manuring on physical properties of temperate area soils. Adv Soil Sci 3:71–93
Malpassi RN, Kaspar TC, Parkin TB, Cambardell CA, Nubel NA (2000) Oat and rye root decomposition effects on nitrogen mineralization. Soil Sci Soc Am J 64:208–215
Manter DK, Delgado JA, Holm DG, Stong RA (2010) Pyrosequencing reveals a highly diverse and cultivar-specific bacterial endophyte community in potato root. Microbial Ecol 60:157–166
McGuire AM, Bryant DC, Denikson RF (1998) Wheat yields, nitrogen uptake, and soil moisture following winter legume cover crop vs fallow. Agron J 90:404–410
Mishra KK, Srivastava JS (2004) Soil amendments to control common scab of potato. Potato Res 47:101–109
Murphy HJ, Carpenter PN, Goven MJ (1967) Potato fertilization-rotation studies on Aroostook farm permanent fertility plots 1951–1965. Maine Agr Exp Stn Bull 645
Neeteson JJ (1988) Effects of legumes on soil mineral nitrogen and response of potatoes to nitrogen fertilizer. In: Vos J et al (eds) Effects of crop rotation on potato production in the temperate zones. Kluwer Academic Publishers, Dordrecht
Neeteson JJ, Zwetsloot HJC (1989) An analysis of the response of sugarbeet and potatoes to fertilizer N and soil mineral N. Neth J Agric Sci 37:129–141
Odland TE, Sheehan JE (1957) The effect of redtop and red clover on yields following crops of potatoes. Am Potato J 34:282–284
Ojala JC, Stark JC, Kleinkopf GE (1990) Influence of irrigation and nitrogen management on potato yield and quality. Am Potato J 67:29–44
Plotkin J (2000) The effect of green manure rotation crops on soils and potato yield and quality. Dissertation, University of Maine
Porter GA, Opena GB, Bradbury WB, McBurnie JC, Sisson JA (1999) Soil management and supplemental irrigation effects on potato: 1. soil properties, tuber yield, and quality. Agron J 91:416–425
Sainju UM, Singh BP (1997) Winter cover crops for sustainable agricultural systems: influence on soil properties, water quality and crop yields. Hort Sci 32:21–28
Sanderson JB, MacLeod JA, Kimpinski J (1999) Glyphosate application and timing of tillage of red color affects potato response to N, soil N profile, and root and soil nematodes. Can J Soil Sci 79:65–72
Sherwood P (2007) Spread the news: mustard can drive away pests. Panna Magazine, Springer
Simard RR, N’dayegamiye A (1993) Nitrogen mineralization of meadow soils. Can J Soil Sci 73:27–38
Sims JR, Slinkard AE (1991) Development and evaluation of germplasm and cultivars of cover crops. In: Hargrove WL (ed) Cover crops for clean water. PRC International Conference, West Tennesse Exp Stn, Jackson. 9–11 April 1991. Soil and Water Conserv Soc, Ankeny, IA
Sincik M, Metin TZ, Tanju GA (2008) Responses of potato (Solanum tuberosum L) to green manure cover crops and nitrogen fertilization rates. Am J Potato Res 85:150–158
Smith MS, Frye WW, Varco JJ (1987) Legume winter cover crops. Adv Soil Sci 7:95–139
Stark JC, Porter GA (2005) Potato nutrient management in sustainable cropping systems. Am J Potato Res 82:329–338
Stute JK, Posner JL (1995) Synchrony between legume nitrogen release and corn demand in the upper Midwest. Agron J 87:1063–1069
Thorup-Kristensen K, Magid J, Jensen JS (2003) Catch crops and green manures as biological tools in nitrogen management in temperate zones. Adv Agron 79:227–302
Tindall TT (1991) Potato available nitrogen from barley/legume underseedings and reduced tillage/ridge tillage potatoes. Dissertation, University of Maine
Van Cingel EH (1992) Nitrogen equivalence of rotation crops and its effect on potato yield and tuber maturation. Dissertation, University of Maine
Westermann DT, Kleinkopf GE (1985) Nitrogen requirements of potatoes. Agron J 77:616–621
Whitehead DC, Bristow AW, Lockyer DR (1990) Organic matter and nitrogen in the unharvested fractions of grass swards in relation to the potential for nitrate leaching after ploughing. Plant Soil 123:39–49
Wivstad M (1997) Nitrogen mineralization and yield of spring wheat as influenced by a source of nitrogen in cropping systems, Agraria 34. SLU, Uppsala, Sweden
Zielke RC, Christenson DR (1986) Organic carbon and nitrogen changes in soil under selected cropping systems. Soil Sci Soc Am J 50:363–367
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Essah, S.Y.C. (2012). Potato Tuber Yield, Tuber Size Distribution, and Quality as Impacted by Preceding Green Manure Cover Crops. In: He, Z., Larkin, R., Honeycutt, W. (eds) Sustainable Potato Production: Global Case Studies. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-4104-1_6
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