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The Role of Ground Beetles (Coleoptera: Carabidae) in Weed Seed Consumption: A Review

Published online by Cambridge University Press:  20 January 2017

Sharavari S. Kulkarni ,
Lloyd M. Dosdall  and
Christian J. Willenborg
Sharavari S. Kulkarni*
Affiliation:
Department of Agricultural, Food, and Nutritional Science, 410 Ag/Forestry Building, University of Alberta, Edmonton, Alberta, Canada T6G 2P5
Lloyd M. Dosdall
Affiliation:
Department of Agricultural, Food, and Nutritional Science, 410 Ag/Forestry Building, University of Alberta, Edmonton, Alberta, Canada T6G 2P5
Christian J. Willenborg
Affiliation:
Department of Plant Sciences, College of Agriculture and Bioresources, University of Saskatchewan, 51 Campus Drive, Saskatoon SK, Canada
*
Corresponding author's E-mail: sharavar@ualberta.ca
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Abstract

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Weed management is a challenge in all agroecosystems. Given the negative consequences associated with herbicide-based weed management, it is important to consider integrated weed management options with emphasis on strategies such as biological control. Postdispersal weed seed predation by granivorous and omnivorous carabid beetles results in substantial natural suppression of weed populations. Although the role of ground beetles as “generalist predators” in various agroecosystems is known, their contribution to weed management is not well recognized. In this context, this review presents an account of carabids and their granivorous nature, the importance of a seed diet in the life histories of different carabid groups, factors affecting granivory, and their potential role in weed seed management. Below, we discuss the interrelationships among various factors influencing weed seed consumption by carabids, its consequences for weed management, and the need for future research.

Keywords

Biological controlcarabidsintegrated weed managementpostdispersal seed consumptionweeds
Type
Review
Information
Weed Science , Volume 63 , Issue 2 , June 2015 , pp. 355 - 376
Copyright
Copyright © Weed Science Society of America 

References

Literature Cited

Acorn, JH, Ball, GE (1991) The mandibles of some adult ground beetles: Structure, function, and the evolution of herbivory (Coleoptera: Carabidae). Can J Zool. 69:638650 CrossRefGoogle Scholar
Albert, MJ, Escudero, A, Iriondo, JM (2005) Assessing ant seed predation in threatened plants: a case study. Acta Oecol. 28:213220 Google Scholar
Alcock, J (1976) The behaviour of the seed-collecting larvae of a carabid beetle (Coleoptera). J Nat Hist. 10:367375 Google Scholar
Armstrong, G, McKinlay, RG (1997) Vegetation management in organic cabbages and pitfall catches of carabid beetles. Agric Ecosyst Environ. 64:267276 Google Scholar
Arneberg, P, Andersen, J (2003) The energetic equivalence rule rejected because of a potentially common sampling error: evidence from carabid beetles. Oikos. 101:367375 CrossRefGoogle Scholar
Baguette, M, Hance, TH (1997) Carabid beetles and agricultural practices: influence of soil ploughing. Biol Agric Hortic. 15:185190 Google Scholar
Baraibar, B, Westerman, PR, Recasens, J (2009) Effects of tillage and irrigation in cereal fields on weed seed removal by seed predators. J Appl Ecol. 46:380387 Google Scholar
Bewley, JD, Black, M (1994) Seeds: Physiology of Development and Germination. New York Plenum Press. 445 pGoogle Scholar
Blubaugh, CK, Caceres, VA, Kaplan, I, Larson, J, Sadof, CS, Richmond, DS (2011) Ground beetle (Coleoptera: Carabidae) phenology, diversity and response to weed cover in a turfgrass ecosystem. Environ Entomol. 40:10931101 Google Scholar
Bohan, DA, Boursault, A, Brooks, DR, Petit, S (2011) National-scale regulation of the weed seedbank by carabid predators. J Appl Ecol. 48:888898 Google Scholar
Booij, CJH, Noorlander, J (1992) Farming systems and insect predators. Agric Ecosyst Environ. 40:125135 Google Scholar
Bourassa, S, Cárcamo, HA, Spence, JR (2010) Effects of crop rotation and genetically modified herbicide-tolerant corn on ground beetle diversity, community structure and activity density. Can Entomol. 142:143159 Google Scholar
Boyetchko, SM, Bailey, KL, De Clerck-Floate, RA (2009) Current biological weed control agents—their adoption and future prospects. Prairie Soils Crops. 2:3845 Google Scholar
Brandmayr, P, Bonacci, T, Giglio, A, Talarico, FF, Zetto-Brandmayr, T (2009) The evolution of defence mechanisms in carabid beetles: a review. Pages 2543 in Casellato, S, Burighel, P, Minelli, A, eds. Life and Time: The Evolution of Life and its History. Padova Cleup Google Scholar
Brandmayr, P, Zetto-Brandmayr, T (1979) The evolution of parental care phenomena in Pterostichine ground beetles with special reference to the genera Abax and Molops (Col. Carabidae). Pages 3549 in den Boer, PJ, Thiele, HU, Weber, F, eds. On the evolution of behavour in carabid beetles. Wageningen, The Netherlands Miscellenous Papers Landbouwhogescool Wageningen Google Scholar
Briggs, JB (1965) Biology of some ground beetles (Col: Carabidae) injurious to strawberries. Bull Entomol Res. 56:7993 Google Scholar
Brown, JL, Reichman, OJ, Davidson, DW (1979) Granivory in desert systems. Ann Rev Ecol Syst. 10:201227 Google Scholar
Brown, KC, Lawton, JH, Shires, SW (1983) Effects of insecticides on invertebrate predators and their cereal aphid (Hemiptera: Aphididae) prey: laboratory experiments. Environ Entomol. 12:17471750 Google Scholar
Brust, GE (1990) Direct and indirect effects of four herbicides on the activity of Carabid beetles (Coleoptera: Carabidae). Pest Sci. 30:309320 CrossRefGoogle Scholar
Brust, GE (1994) Seed-predators reduce broadleaf weed growth and competitive ability. Agric Ecosyst Environ. 48:2734 CrossRefGoogle Scholar
Brust, GE, House, GJ (1988) Weed seed destruction by arthropods and rodents in low-input soybean agroecosystems. Am J Alt Agric. 3:1925 Google Scholar
Campbell, BC (1989) On the role of microbial symbiotes in herbivorous insects. Pages 144 in Bernays, EA, ed. Insect–Plant Interactions. Boca Raton FL CRC Press Google Scholar
Canola Council of Canada. (2014a) Canola Encyclopedia. http://www.canolacouncil.org/canola-encyclopedia/weeds/weed-management/#canada-thistle. Accessed January 12, 2014Google Scholar
Canola Council of Canada. (2014b) Market and Stats Branch. http://www.canolacouncil.org/markets-stats/statistics/harvest-acreage/. Accessed February 11, 2014Google Scholar
Cárcamo, HA (1995) Effect of tillage on ground beetles (Coleoptera: Carabidae): a farm-scale study in central Alberta. Can Entomol. 127:631639 Google Scholar
Cárcamo, HA, Niemala, JK, Spence, JR (1995) Farming and ground beetles: effects of agronomic practice on populations and community structure. Can Entomol. 127:123140 Google Scholar
Cárcamo, HA, Spence, JR (1994) Crop type effects on the activity and distribution of ground beetles (Coleoptera: Carabidae). Environ Entomol. 23:684692 Google Scholar
Cardina, J, Norquay, HM, Stinner, BR, McCartney, DA (1996) Postdispersal predation of velvetleaf (Abutilon theophrasti) seeds. Weed Sci. 44:534539 Google Scholar
Carmona, DM, Landis, DA (1999) Influence of refuge habitats and cover crops on seasonal activity–density of ground beetles (Coleoptera: Carabidae) in field crops. Biol Control. 28:11451153 Google Scholar
Carmona, DM, Menalled, FD, Landis, DA (1999) Gryllus pennsylvanicus (Orthoptera: Gryllidae): laboratory weed seed predation and within field activity–density. J Econ Entomol. 92:825829 Google Scholar
Chambers, JC, MacMahon, JA (1994) A day in the life of a seed: movements and fates of seeds and their implications for natural and managed systems. Annu Rev Ecol Syst. 25:263292 Google Scholar
Chauhan, BS, Migo, T, Westerman, PR, Johnson, DE (2010) Postdispersal predation of weed seeds in rice fields. Weed Res. 50:553560 Google Scholar
Cousens, RD, Dale, MRT, Taylor, J, Law, R, Moerkerk, M, Kembel, SW (2006) Causes of pattern in plant communities where environmental change is rapid and species longevity is short. J Veg Sci. 17:509524 Google Scholar
Crawley, MJ (2000) Seed predators and plant population dynamics. Pages 167182 in Fenner, M, ed. Seeds: The Ecology of Regeneration in Plant Communities. Wallingford, UK CABI Publishing CrossRefGoogle Scholar
Crist, TO, MacMahon, JA (1992) Harvester ant foraging and shrub–steppe seeds: interactions of seed resources and seed use. Ecology. 73:17681779 Google Scholar
Cromar, HE, Murphy, SD, Swanton, CJ (1999) Influence of tillage and crop residue on postdispersal predation of weed seeds. Weed Sci. 47:184194 Google Scholar
Crowson, RA, ed. (1981) The Biology of the Coleoptera. London Academic Press. 802 pGoogle Scholar
Davis, AS, Liebman, M (2003) Cropping system effects on giant foxtail (Setaria faberi) demography: I. Green manure and tillage timing. Weed Sci. 51:919929 Google Scholar
Davis, AS, Raghu, S (2010) Weighing abiotic and biotic factors in weed seed predation. Weed Res. 50:402412 Google Scholar
Davis, AS, Taylor, EC, Haramoto, ER, Renner, KA (2013) Annual postdispersal weed seed predation in contrasting field environments. Weed Sci. 61:296302 Google Scholar
Derksen, DA, Anderson, RL, Blackshaw, RE, Maxwell, B (2002) Weed dynamics and management strategies for cropping systems in the northern Great Plains. Agron J. 94:174185 Google Scholar
Desender, K, Maeelfaitj, P, Dhulsterm, M, Vanhercke, L (1981) Ecological and faunal studies on Coleoptera in agricultural land. I. Seasonal occurrence of Carabidae in the grassy edge of a pasture. Pedobiologia. 2:379384 Google Scholar
Diekotter, T, Wamser, S, Wolters, V, Birkhofer, K (2010) Landscape and management effects on structure and function of soil arthropod communities in winter wheat. Agric Ecosyst Environ. 137:108112 Google Scholar
Dritschilo, W, Wanner, D (1980) Ground beetle abundance in organic and conventional corn fields. Environ Entomol. 9:629631 CrossRefGoogle Scholar
Ellsbury, MM, Powell, JE, Forcella, F, Woodson, WD, Clay, SA, Riedell, WE (1998) Diversity and dominant species of ground beetle assemblages (Coleoptera: Carabidae) in crop rotation and chemical input systems for the northern Great Plains. Ann Entomol Soc Am. 91:619625 Google Scholar
Evans, MEG (1977) Locomotion in the Coleoptera Adephaga, especially Carabidae. J Zool. 181:189226 CrossRefGoogle Scholar
Evans, MEG (1986) Carabid locomotor habits and adaptations. Pages 59–57 in den Boer, PJ, Luff, ML, Mossakowski, D, Weber, F, eds. Carabid Beetles. Their Adptations and Dynamics. Stuttgart New York Fischer Verlag Google Scholar
Evans, MEG (1994) The carabid body plan: a functional interpretation. Pages 2531 in Desender, K, Dufrene, M, Loreau, M, Luff, ML, Maelfait, JP, eds. Carabid Beetles: Ecology and Evolution. Dordrecht, The Netherlands Springer Netherlands Google Scholar
Evans, MEG, Forsythe, TG (1985) Feeding mechanisms and their variation in form of some adult ground-beetles (Coleoptera: Caraboidea). J Zool. 206:113143 CrossRefGoogle Scholar
Fadl, A, Purvis, G, Towet, K (1996) The effect of time of soil cultivation on the incidence of Pterostichus melanarius (Illig) (Coleoptera: Carabidae) in arable land in Ireland. Pedobiologia. 42:171183 Google Scholar
Fawki, S, Toft, S (2005) Food preferences and the value of animal food for the carabid beetle Amara similata (Gyll) (Col Carabidae). J Appl Entomol. 129:551556 Google Scholar
Fielding, D, Defoliart, JLS, Hagerty, AM (2013) Effects of carbaryl-bran bait on trap-catch and seed predation by ground beetles. J Econ Entomol. 106:669674 CrossRefGoogle ScholarPubMed
Fischer, C, Thies, C, Tscharntke, T (2011) Mixed effects of landscape complexity and farming practice on weed seed removal. Perspect Plant Ecol. 13:297303 Google Scholar
Floate, KD, Elliott, RH, Doane, JF, Gillott, C (1989) Field bioassay to evaluate contact and residual toxicities of insecticides to carabid beetles (Coleoptera: Carabidae). J Econ Entomol. 82:15431547 CrossRefGoogle ScholarPubMed
Flohre, A, Fischer, C, Aavik, T, Bengtsson, J, Berendse, F, Bommarco, R, Ceryngier, P, Clement, LW, Dennis, C, Eggers, S, Emmerson, M, Geiger, F, Guerrero, I, Hawro, V, Inchausti, P, Liira, J, Morales, MB, Onate, JJ, Part, T, Weisser, WW, Winqvist, C, Thies, C, Tscharntke, T (2011) Agricultural intensification and biodiversity partitioning in European landscapes comparing plants, carabids and birds. Ecol Appl. 21:17721781 Google Scholar
Forbes, SA (1883) The food relations of the Carabidae and the Coccinellidae. Bull Ill State Lab Nat Hist. 1:3364 Google Scholar
Forsythe, TG (1981) Running and pushing in relationship to hind leg structure in some Carabidae (Coleoptera). Coleopt Bull. 35:353378 Google Scholar
Forsythe, TG (1983) Mouthparts and feeding of certain ground beetles (Coleoptera: Carabidae). Zool J Linn Soc. 79:319376 Google Scholar
Forsythe, TG (1991) Feeding and locomotory functions in relation to body form in five species of ground beetle (Coleoptera: Carabidae). J Zool. 223:233263 Google Scholar
Fox, AF, Reberg-Horton, SC, Orr, DB, Moorman, CE, Frank, SD (2013) Crop and field border effects on weed seed predation in thesoutheastern US coastal plain. Agric Ecosyst Environ. 177:5862 Google Scholar
Frank, SD, Shrewsbury, PM, Denno, RF (2010) Effects of alternative food on cannibalism and herbivore suppression by carabid larvae. Ecol Entomol. 35:6168 Google Scholar
Frank, SD, Shrewsbury, PM, Denno, RF (2011) Plant versus prey resources: influence on omnivore behavior and herbivore suppression. Biol Control. 57:229235 Google Scholar
Gaines, HR, Gratton, C (2010) Seed predation increases with ground beetle diversity in Wisconsin (USA) potato agroecosystems. Agric Ecosyst Environ. 137:329336 Google Scholar
Gallandt, ER, Molloy, T, Lynch, RP, Drummond, FA (2005) Effect of cover-cropping systems on invertebrate seed predation. Weed Sci. 53:6976 Google Scholar
Ghersa, CM, Benech-Arnold, RL, Satorre, EH, Martínez-Ghersa, MA (2000) Advances in weed management strategies. Field Crops Res. 67:95104 Google Scholar
Goldschmidt, H, Toft, S (1997) Variable degrees of granivory and phytophagy in insectivorous carabid beetles. Pedobiologia. 41:521525 Google Scholar
Goulet, H (2003) Biodiversity of ground beetles (Coleoptera: Carabidae) in Canadian agricultural soils. Can J Soil Sci. 83:259264 Google Scholar
Green, RE (1984) The feeding ecology and survival of partridge chicks (Alectoris rufa and Perdix perdix) on arable farmland in east Anglia. J Appl Ecol. 21:817830 Google Scholar
Hammond, PM (1979) Wing-folding mechanisms in beetles with special reference to investigations of adephagan phylogeny (Coleoptera). Pages 113180 in Erwin, TL, Ball, GE, Whitehead, D, Halpern, AL, eds. Carabid Beetles: Their Evolution, Natural History, and Classification. The Hague, The Netherlands Dr. W. Junk Publishers Google Scholar
Harker, KN, Blackshaw, RE, Kirkland, KJ, Derksen, DA, Wall, D (2000) Herbicide-tolerant canola: weed control and yield comparisons in western Canada. Can J Plant Sci. 80:647654 Google Scholar
Harper, JL (1977) Population Biology of Plants. London Academic Press. 892 pGoogle Scholar
Harrison, SK, Gallandt, ER (2012) Behavioural studies of Harpalus rufipes De Geer: an important weed seed predator in northeastern US agroecosystems. Int J Ecol. DOI:101155/2012/846546.6 p CrossRefGoogle Scholar
Harrison, SK, Regnier, EE, Schmoll, JT (2003) Postdispersal predation of giant ragweed (Ambrosia trifida) seed in no-tillage corn. Weed Sci. 51:955964 Google Scholar
Hartke, A, Drummond, FA, Liebman, M (1998) Seed feeding, seed caching and burrowing behaviors of Harpalus rufipes De Geer larvae (Coleoptera: Carabidae) in the Maine potato agroecosystem. Bio Control. 13:91100 CrossRefGoogle Scholar
Hatten, TD, Bosque-Perez, NA, Labonte, JR, Guy, SO, Eigenbrode, SD (2007) Effects of tillage on the activity density and biological diversity of carabid beetles in spring and winter crops. Environ Entomol. 36:356368 Google Scholar
Heggenstaller, AH, Menalled, FD, Liebman, M, Westerman, PR (2006) Seasonal patterns in post-dispersal seed predation of Abutilon theophrasti and Setaria faberi in three cropping systems. J Appl Ecol. 43:9991010 Google Scholar
Holland, JM (1998) Comparative impact of insecticide treatments on beneficial invertebrates in conventional and integrated farming systems. Pages 267278 in Haskell, PT, McEwen, P, eds. Ecotoxicology: Pesticides and Beneficial Organism. Dordrecht, The Netherlands Kluwer Academic Publishers Google Scholar
Holland, JM, Luff, ML (2000) The effects of agricultural practices on Carabidae in temperate agroecosystems. Integrated Pest Manag Rev. 5:109129 Google Scholar
Holland, JM, Perry, JN, Winder, L (1999) The within field spatial and temporal distribution of arthropods in winter wheat. Bull Entomol Res. 89:499513 Google Scholar
Holland, JM, Winder, L, Perry, JN (2000) The impact of dimethoate on the spatial distribution of beneficial arthropods. Ann Appl Biol. 136:93105 Google Scholar
Holliday, NJ, Hagley, EAC (1984) The effect of sod type on the occurrence of ground beetles (Coleoptera: Carabidae) in a pest management apple orchard. Can Entomol. 116:165171 Google Scholar
Holm, FA, Johnson, EN (2009) The history of herbicide use for weed management on the prairies. Prairie Soils Crops. 2:111 Google Scholar
Honek, A, Jarosik, V (2000) The role of crop density, seed and aphid presence in diversification of field communities of Carabidae. Eur J Entomol. 97:517525 Google Scholar
Honek, A, Martinkova, Z, Jarosik, V (2003) Ground beetles (Carabidae) as seed predators. Eur J Entomol. 100:531544 Google Scholar
Honek, A, Martinkova, Z, Saska, P (2005) Post-dispersal seed predation of Taraxacum officinale (dandelion) seed. J Ecol. 93:310318 Google Scholar
Honek, A, Martinkova, Z, Saska, P (2011) Effect of size taxonomic affiliation and geographic origin of dandelion (Taraxacum agg) seeds on predation by ground beetles (Carabidae Coleoptera). Basic Appl Ecol. 12:8996 Google Scholar
Honek, A, Martinkova, Z, Saska, P, Koprdova, S (2009) Role of post-dispersal seed and seedling predation in establishment of dandelion (Taraxacum agg) plants. Agric Ecosyst Environ. 134:126135 Google Scholar
Honek, A, Martinkova, Z, Saska, P, Pekar, S (2007) Size and taxonomic constraints determine the seed preferences of Carabidae (Coleoptera). Basic Appl Ecol. 8:343353 Google Scholar
Honek, A, Saska, P, Martinkova, Z (2006) Seasonal variation in seed predation by adult carabid beetles. Entoml Exp Appl. 118:157162 Google Scholar
House, GJ, Parmelee, RW (1985) Comparison of soil arthropods and earthworm from conventional and no-tillage agroecosystems. Soil Tillage Res. 5:351360 CrossRefGoogle Scholar
Hulme, PE (1998) Post-dispersal seed predation: consequences for plant demography and evolution. Perspect Plant Ecol Evol Syst. 1:3246 Google Scholar
Hulme, PE (2002) Seed-eaters: Seed dispersal, destruction and demography. Pages 257274 in Levey, DJ, Silva, WR, Galetti, M, eds. Seed Dispersal and Frugivory: Ecology, Evolution and Conservation. Wallingford, UK CAB International Google Scholar
Hummel, JD, Dosdall, LM, Clayton, GW, Harker, KN, O'Donovan, JT (2012) Ground beetle (Coleoptera: Carabidae) diversity, activity density and community structure in a diversified agroecosystem. Environ Entomol. 41:7280 Google Scholar
Hůrka, K (1996) Carabidae of the Czech and Slovak Republics. 1st edn. Zlín, Czeck Republik Kabourek. 565 pGoogle Scholar
Hůrka, K (1998) Larval taxonomy development and diet of Amara (Amara) famelica A (A), littorea and A (A) proxima (Coleoptera: Carabidae: Amarina). Acta Soc Zool Bohem. 62:105113 Google Scholar
Hůrka, K, Jarosik, V (2001) Development, breeding type and diet of members of the Amara communis species aggregate (Coleoptera: Carabidae). Acta Soc Zool Bohem. 65:1723 Google Scholar
Hůrka, K, Jarosik, V (2003) Larval omnivory in Amara aenea (Coleoptera: Carabidae). Eur J Entomol. 100:329335 Google Scholar
Inouye, DW (1980) The terminology of floral larceny. Ecology. 61:12511253 Google Scholar
Janzen, DH (1971) Seed predation by animals. Annu Rev Ecol Syst. 2:465492 Google Scholar
Jonason, D, Smith, HG, Bengtsson, J, Birkhofer, K (2013) Landscape simplification promotes weed seed predation by carabid beetles (Coleoptera: Carabidae). Landscape Ecol. 28:487494 Google Scholar
Jones, GD (1984) Microorganisms as mediators of plant resource exploitation by insect herbivores. Pages 5399 in Price, PW, Slobodchikoff, CN, Gaud, WS, eds. A New Ecology: Novel Approaches to Interactive Systems. New York Wiley Google Scholar
Jørgensen, HB, Toft, S (1997) Food preference, diet dependent fecundity and larval development in Harpalus rufipes (Coleoptera: Carabidae). Pedobiologia. 41:307315 Google Scholar
Juliano, SA (1985) The effects of body size on mating and reproduction in Brachinus lateralis (Coleoptera, Carabidae). Ecol Entomol. 10:271280 Google Scholar
Julien, MH (1992) Biological Control of Weeds: A World Catalogue of Agents and Their Target Weeds. Wallingford, UK CAB International. 223 pGoogle Scholar
Kielty, JP, Allen-Williams, LJ, Underwood, N, Eastwood, EA (1996) Behavioral responses of three species of ground beetle (Coleoptera: Carabidae) to olfactory cues associated with prey and habitat. J Insect Behav. 9:237250 Google Scholar
Kirk, VM (1972) Seed-caching by larvae of two ground beetles Harpalus pensylvanicus and H erraticus . Ann Entomol Soc Am. 65:14261428 Google Scholar
Klimes, P, Saska, P (2010) Larval and adult seed consumption affected by the degree of food specialization in Amara (Coleoptera: Carabidae). J Appl Entomol. 134:659666 Google Scholar
Kollmann, J, Coomes, DA, White, SM (1998) Consistencies in post-dispersal seed predation of temperate fleshy-fruited species among season, years and sites. Funct Ecol. 12:683690 Google Scholar
Koprdová, S, Saska, P, Honek, A, Martinková, Z (2012) Susceptibility of the early growth stages of volunteer oilseed rape to invertebrate predation. Plant Prot Sci. 48:4450 Google Scholar
Kotze, DJ, Brandmayr, P, Casale, A, Dauffy-Richard, E, Dekoninck, W, Koivula, M, Lövei, GL, Mossakowski, D, Noordijk, J, Paarmann, W, Pizzolotto, R, Saska, P, Schwerk, A, Serrano, J, Szyszko, J, Taboada, A, Turin, H, Venn, S, Vermeulen, R, Zetto, T (2011) Forty years of carabid beetle research in Europe—from taxonomy, biology, ecology and population studies to bioindication, habitat assessment and conservation. ZooKeys. 100:55148 Google Scholar
Kremer, RJ, Spencer, NR (1989) Impact of a seed-feeding insect and microorganisms on velvetleaf (Abutilon theophrasti) seed viability. Weed Sci. 37:211216 Google Scholar
Kromp, B (1989) Carabid beetle communities (Carabidae Coleoptera) in biologically and conventionally farmed agroecosystems. Agric Ecosyst Environ. 27:241251 Google Scholar
Kromp, B (1990) Carabid beetles (Coleoptera Carabidae) as bioindicators in biological and conventional farming in Austrian potato fields. Biol Fertil Soils. 9:182187 Google Scholar
Kromp, B (1999) Carabid beetles in sustainable agriculture: a review on pest control efficacy cultivation impact and enhancement. Agric Ecosyst Environ. 74:187228 Google Scholar
Lalonde, O, Légère, A, Stevenson, FC, Roy, M, Vanasse, A (2012) Carabid beetle communities after 18 years of conservation tillage and crop rotation in a cool humid climate. Can Entomol. 144:645657 Google Scholar
Larochelle, A (1990) The Food of Carabid Beetles (Coleoptera: Carabidae, including Cicindelinae). Fabreries Suppl 5. Quebec City, Quebec, Canada Sillery: Association des entomologistes amateurs du Québec. 132 pGoogle Scholar
Lee, JC, Menalled, FD, Landis, DA (2001) Refuge habitats modify impact of insecticide disturbance on carabid beetle communities. J Appl Ecol. 38:472483 Google Scholar
Leeson, JY, Thomas, AG, Hall, LM, Brenzel, CA, Andrews, T, Brown, KR, Van Acker, RC (2005) Prairie weed surveys of cereal, oilseed and pulse crops from the 1970s to the 2000s. Saskatoon, Saskatchewan, Canada Agriculture and Agri-Food Canada Weed Survey Series. 395 pGoogle Scholar
Levesque, C, Levesque, G (1994) Abundance and seasonal activity of ground beetles (Coleoptera: Carabidae) in a raspberry plantation and adjacent sites in southern Quebec (Canada). J Kans Entomol Soc. 67:73101 Google Scholar
Liebman, M, Gallandt, ER (1997) Many little hammers: ecological management of crop–weed interactions. Pages 291343 in Jackson, LE, ed. Ecology in Agriculture. San Diego CA Academic Press Google Scholar
Lindroth, CH (1957) The Faunal Connections between Europe and North America. New York Wiley. 344 pGoogle Scholar
Lindroth, CH (1961–1969) The ground beetles (Carabidae, excluding Cicindelinae) of Canada and Alaska. Opusca Entomol, Suppl. 20, 24, 29, 33, 34, 35. Part I, pages I–XLVIII, 1969. Part II, Pages 1200, 1961. Part III, Pages 201-408, 1963. Part IV, Pages 409-648, 1966. Part V, Pages 649-944, 1968. Part VI, Pages 945-1192Google Scholar
Lindroth, CH (1992) Ground Beetles (Carabidae) of Fennoscandia: A Zoogeographic Study. Part III. Washington DC Smithsonian Institution Libraries and National Science Foundation. 814 pGoogle Scholar
Louda, SM (1989) Predation in the dynamics of seed generation. Pages 2551 in Leck, MA, Parker, VT, Simpson, RL, eds. Ecology of Soil Seed Banks. New York Academic Press Google Scholar
Lovei, G, Sunderland, K (1996) Ecology and behavior of ground beetles (Coleoptera: Carabidae). Annu Rev Entomol. 41:231256 Google Scholar
Luff, ML (1980) The biology of the ground beetle Harpalus rufipes in a strawberry field in Northumberland. Ann Appl Biol. 94:153164 Google Scholar
Luff, ML (1993) The Carabidae (Coleoptera) Larvae of Fennoscandia and Denmark. Fauna Entomologica Scandinavica 27. Leiden, The Netherlands EJ Brill Academic Publishers. 186 pGoogle Scholar
Lund, RD, Turpin, FT (1977) Carabid damage to weed seeds found in Indiana cornfields. Environ Entomol. 6:695698 Google Scholar
Lundgren, JG (2005) Ground beetles as weed control agents: the influence of farm management on granivory. Am Entomol. 51:224226 Google Scholar
Lundgren, JG (2009) Relationships of Natural Enemies and Non-Prey Foods. Dordrecht, The Netherlands Springer International. 454 pGoogle Scholar
Lundgren, JG, Lehman, RM (2010) Bacterial gut symbionts contribute to seed digestion in an omnivorous beetle. PLoS ONE. 5:e10831 Google Scholar
Lundgren, JG, Rosentrater, KA (2007) The strength of seeds and their destruction by granivorous insects. Arthropod Plant Interact. 1:9399 Google Scholar
Lundgren, JG, Saska, P, Honek, A (2013) Molecular approach to describing a seed-based food web: the post-dispersal granivore community of an invasive plant. Ecol Evol. 3:16421652 Google Scholar
Lundgren, JG, Shaw, JT, Zaborski, ER, Eastman, CE (2006) The influence of organic transition systems on beneficial ground-dwelling arthropods and predation of insects and weed seeds. Renew Agr Food Syst. 21:227237 Google Scholar
Manley, G (1996) Relationship between selected intercropped ground covers and soil arthropod populations in a no-till crop rotation system in western St. Joseph County, Michigan (year one 1995 corn). in Proceedings of the Cover Crop Symposium. Michigan State University, East Lansing, MI. Battle Creek, Michigan Michigan State University Google Scholar
Marino, PC, Westerman, PR, Pinkert, C, van der Werf, W (2005) Influence of seed density and aggregation on post-dispersal weed seed predation in cereal fields. Agric Ecosyst Environ. 106:1725 Google Scholar
Marko, V, Kadar, F (2005) Effects of different insecticide disturbance levels and weed patterns on carabid beetle assemblages. Acta Phytopath Entomol Hungaric. 40:111143 Google Scholar
Martinkova, Z, Saska, P, Honek, A (2006) Consumption of fresh and buried seed by ground beetles (Coleoptera: Carabidae). Eur J Entomol. 103:361364 Google Scholar
Mauchline, AL, Watson, SJ, Brown, VK, Froud-Williams, RJ (2005) Post-dispersal seed predation of non-target weeds in arable crops. Weed Res. 45:157164 Google Scholar
Menalled, F, Landis, D, Lee, J, White, S, Renner, K (2000a) Ecology and Management of Weed Seed Predators in Michigan Agroecosystems. Extension Bulletin E-2716. East Lansing, MI Michigan State University. 6 pGoogle Scholar
Menalled, FD, Marino, PC, Renner, KA, Landis, DA (2000b) Post-dispersal weed seed predation in Michigan crop fields as a function of agricultural landscape structure. Agric Ecosyst Environ. 77:193202 Google Scholar
Menalled, FD, Smith, RG, Dauer, JT, Fox, TB (2007) Impact of agricultural management on carabid communities and weed seed predation. Agric Ecosyst Environ. 118:4954 Google Scholar
Motzke, I, Tscharntke, T, Sodhi, NS, Klein, AM, Wanger, TC (2013) Ant seed predation, pesticide applications and farmer's income from tropical multi-cropping gardens. Agric For Entomol. 15:245254 Google Scholar
Navntoft, S, Esbjerg, P, Riedel, W (2006) Effects of reduced pesticide dosages on carabids (Coleoptera: Carabidae) in winter wheat. Agric For Entomol. 8:5762 Google Scholar
Noroozi, S, Alizadeh, HM, Mashhadi, HR (2012) Factors Affecting Postdispersal Weed Seed Predation in Barely Fields. ISRN Agron. DOI: 10.5402/2012/461245Google Scholar
Nystrand, O, Granstrom, A (2000) Predation on Pinus sylvestris seeds and juvenile seedlings in a Swedish boreal forest in relation to stand disturbance by logging. J Appl Ecol. 37:449463 Google Scholar
O'Rourke, ME, Heggenstaller, AH, Liebman, M, Rice, ME (2006) Post-dispersal weed seed predation by invertebrates in conventional and low-external-input crop rotation systems. Agric Ecosyst Environ. 116:280288 Google Scholar
Paarmann, W, Faust, N, Arndt, E, Luchtrath, I, Rohe, W (2006) Constant seed size and mandible growth—a fundamental problem for granivorous ground beetle larvae (Coleoptera: Carabidae). Entomol Fenn. 17:334339 Google Scholar
Pausch, RD, Pausch, LM (1980) Observations on the biology of the slender seedcorn beetle Clivina impressifrons (Coleoptera: Carabidae). Great Lakes Entomol. 13:189194 Google Scholar
Perfecto, I, Horwith, B, Vandermeer, J, Schultz, B, McGuinness, H, Dos Santos, A (1986) Effects of plant diversity and density on the emigration of two ground beetles Harpalus pensylvanicus and Evarthrus sodalist (Coleoptera: Carabidae) in a system of tomatoes and beans. Environ Entomol. 15:10281031 Google Scholar
Pimentel, D, Hepperly, P, Hanson, J, Seidel, R, Douds, D (2005) Environmental energetic and economic comparisons of organic and conventional farming systems. Bioscience. 55:573582 Google Scholar
Poulsen, JG, Sotherton, NW, Aebischer, NJ (1998) Comparative nesting and feeding ecology of skylarks Alauda arvensis on arable farmland in southern England with special reference to set-aside. J Appl Ecol. 35:131147 Google Scholar
Povey, FD, Smith, H, Watt, TA (1993) Predation of annual grass weed seeds in arable field margins. Ann Appl Biol. 122:323328 Google Scholar
Purtauf, T, Dauber, J, Wolters, V (2005) The response of carabids to landscape simplification differs between trophic groups. Oecologia. 142:458464 Google Scholar
Ready, CC, Vinson, SB (1995) Seed selection by the red imported fire ant (Hymenoptera: Formicidae) in the laboratory. Environ Entomol. 24:14221431 Google Scholar
Rew, LJ, Cussans, GW, Mugglestone, MA, Miller, PCH (1996) A technique for mapping the spatial distribution of Elymus repens L. with estimates of the potential reduction in herbicide usage from patch spraying. Weed Res. 36:283292 Google Scholar
Ricketts, T, Regetz, J, Steffan-Dewenter, I, Cunningham, SA, Kremen, C, Bogdanski, A, Gemmill-Herren, B, Greenleaf, SS, Klein, AM, Mayfield, MM, Morandin, LA, Ochieng, A, Viana, FB (2008) Landscape effects on crop pollination services: are there general patterns? Ecol Lett. 11:499515 Google Scholar
Rivard, I (1966) Ground beetles (Coleoptera: Carabidae) in relation to agricultural crops. Can Entomol. 98:189195 Google Scholar
Saska, P (2005) Contrary food requirements of the larvae of two Curtonotus (Coleoptera: Carabidae: Amara) species. Ann Appl Biol. 147:139144 Google Scholar
Saska, P (2008a) Granivory in terrestrial isopods. Ecol Entomol. 33:742747 Google Scholar
Saska, P (2008b) Effect of diet on the fecundity of three carabid beetles. Physiol Entomol. 30:188192 Google Scholar
Saska, P, Jarosik, V (2001) Laboratory study of larval food requirements in nine species of Amara (Coleoptera: Carabidae). Plant Prot Sci. 37:103110 Google Scholar
Saska, P, Koprdova, S, Martinkova, Z, Honek, A (2014) Comparing methods of weed seed exposure to predators. Ann Appl Biol. 164:301312 Google Scholar
Saska, P, Martinkova, Z, Honek, A (2010) Temperature and rate of seed consumption by ground beetles (Carabidae). Biol Control. 52:9195 Google Scholar
Saska, P, van der Werf, W, de Vries, E, Westerman, PR (2008) Spatial and temporal patterns of carabid activity density in cereals do not explain levels of predation on weed seeds. Bull Entomol Res. 98:169181 Google Scholar
Saska, P, van der Werf, W, Hemerik, L, Luff, ML, Hatten, TD, Honek, A (2013) Temperature effects on pitfall catches of epigeal arthropods: a model and method for bias correction. J Appl Ecol. 50:181189 Google Scholar
Sasakawa, K (2010a) Field observations of climbing behavior and seed predation by adult ground beetles (Coleoptera: Carabidae) in a lowland area of the temperate zone. Environ Entomol. 39:1564–1560Google Scholar
Sasakawa, K (2010b) Laboratory studies on the larval food habits of the ground beetle Amara (Curtonotus) gigantea (Motschulsky) (Coleoptera: Carabidae: Zabrini). Entomol Sci. 13:358362 Google Scholar
Schremmer, F (1960) Beitrag zur Biologie von Ditomus clypeatus Rossi, eines körnersammelnden Carabiden. Z Arbgem Österer Entomol. 3:140146 Google Scholar
Shearin, AF, Reberg-Horton, SC, Gallandt, ER (2007) Direct effects of tillage on the activity density of ground beetle (Coleoptera: Carabidae) weed seed predators. Environ Entomol. 36:11401146 Google Scholar
Shearin, AF, Reberg-Horton, SC, Gallandt, ER (2008) Cover crop effects on the activity–density of the weed seed predator Harpalus rufipes (Coleoptera: Carabidae). Weed Sci. 56:442450 Google Scholar
Shuler, RE, DiTommaso, A, Losey, JE, Mohler, CL (2008) Postdispersal weed seed predation is affected by experimental substrate. Weed Sci. 56:889895 Google Scholar
Smyth, S, Gusta, M, Phillips, P, Castle, D (2010) Assessing the Economic and Ecological Impacts of Herbicide Tolerant Canola in Western Canada. http://wwwcanolacouncilorg/media/504427/assessing_the_economic_and_ecological_impacts_of_herbicide_tolerant_canola_in_western_canadapdf. Accessed March 11, 2014Google Scholar
Speight, MR, Lawton, JH (1976) The influence of weed-cover on the mortality imposed on artificial prey by predatory ground beetles in cereal fields. Oecologia (Berl) 23:211233 Google Scholar
Spence, JR, Niemelä, JK (1994) Sampling carabid assemblages with pitfall traps: the madness and the method. Can Entomol. 126:881894 Google Scholar
Stinner, BR, House, GJ (1990) Arthropods and other invertebrates in conservation tillage agriculture. Annu Rev Entomol. 35:299318 Google Scholar
Stinner, BR, McCartney, DA, van Doren, DM Jr. (1988) Soil and foliage arthropod communities in conventional reduced and no-tillage corn (maize Zea mays L.) systems: a comparison after 20 years of continuous cropping. Soil Tillage Res. 11:4758 Google Scholar
Swanton, CJ, Murphy, SD (1996) Weed science beyond the weeds: the role of integrated weed management (IWM) in agroecosystem health. Weed Sci. 4:437445 Google Scholar
Thiele, HU (1977) Carabid Beetles in Their Environments. A study on Habitat Selection by Adaptation in Physiology and Behavior. Berlin, Germany Springer-Verlag. 369 pGoogle Scholar
Thomas, CFG, Green, F, Marshall, EJP (1997) Distribution, dispersal and population size of the ground beetles, Pterostichus melanarius (Illiger) and Harpalus rufipes (Degeer) (Coleoptera, Carabidae), in field margin habitats. Biol Agric Hortic. 15:337352 Google Scholar
Thompson, RG (1979) A systematic study of the larvae in the tribes Pterostichini, Morionini and Amarini (Coleoptera: Carabidae). University of Arkansas Bulletin No. 837. Fayetteville, AR Agricultural Experiment Station. 105 pGoogle Scholar
Tooley, JA, Brust, GE (2002) Weed seed predation by carabid beetles. Pages 215230 in Holland, JM, ed. The Agroecology of Carabid Beetles. Andover UK Intercept Ltd Google Scholar
Tooming, E, Merivee, E, Must, A, Sibul, I, Williams, I (2014) Sub-lethal effects of the neurotoxic pyrethroid insecticide Fastac® 50EC on the general motor and locomotor activities of the non-targeted beneficial carabid beetle Platynus assimilis (Coleoptera: Carabidae). Pest Manage Sci. 70:959966 Google Scholar
Tréfás, H, Canning, H, McKinlay, RG, Armstrong, G, Bujáki, G (2001) Preliminary experiments on the olfactory responses of Pterostichus melanarius Illiger (Coleoptera: Carabidae) to intact plants. Agric For Entomol. 3:7176 Google Scholar
Tréfás, H, van Lenteren, JC (2008) Egg-laying site preferences of Pterostichus melanarius in mono- and intercrops. Bull Insectol. 61:225231 Google Scholar
Trichard, A, Alignier, A, Biju-Duval, L, Petit, S (2013) The relative effects of local management and landscape context on weed seed predation and carabid functional groups. Basic Appl Ecol. 14:235245 Google Scholar
Tscharntke, T, Klein, AM, Kruess, A, Steffan-Dewenter, I, Thies, C (2005) Landscape perspectives on agricultural intensification and biodiversity—ecosystem service management. Ecol Lett. 8:857874 Google Scholar
Tscharntke, T, Tylianakis, JM, Rand, TA, Didham, RK, Fahrig, L, Batáry, P, Bengtsson, J, Clough, Y, Crist, TO, Dormann, CF, Ewers, RM, Fründ, J, Holt, RD, Holzschuh, A, Klein, AM, Kleijn, D, Kremen, C, Landis, DA, Laurance, W, Lindenmayer, D, Scherber, C, Sodhi, N, Steffan-Dewenter, I, Thies, C, van der Putten, WH, Westphal, C (2012) Landscape moderation of biodiversity patterns and processes—eight hypotheses. Biol Rev. 87:661685 Google Scholar
Tukarhiwa, EM, Coaker, TH (1982) Effect of mixed cropping on some insect pests of brassicas: reduced Brevicoryne brassicae infestations and influences on epigeal predators and the disturbance of oviposition behaviour in Delia brassicae . Entomol Exp Appl. 32:129140 Google Scholar
Tyler, BMJ, Ellis, C (1979) Ground beetles in three tillage plots in Ontario and observations on their importance as predators of the northern corn rootworm Diabrotica longicornis (Coleoptera: Chrysomelidae). Pages 6573 in Proceedings of the Entomological Society of Ontario. Guelph, Ontario, Canada Entomological Society of Ontario Google Scholar
Vanbergen, AJ, Woodcock, BA, Koivula, M, Niemelä, J, Kotze, DJ, Bolger, T, Golden, V, Dubs, F, Boulanger, G, Serrano, J, Lencina, JL, Serrano, A, Aguiar, C, Grandchamp, AC, Stofer, S, Szél, G, Ivits, E, Adler, P, Markus, J, Watt, AD (2010) Trophic level modulates carabid beetle responses to habitat and landscape structure: a pan-European study. Ecol Entomol. 35:226235 Google Scholar
Van der Wall, SB (1998) Foraging success of granivorous rodents: effects of variation in seed and soil water on olfaction. Ecology. 79:233241 Google Scholar
Wallin, H, Chiverton, PA, Ekbom, BS, Borg, A (1992) Diet, fecundity and egg size in some polyphagous predatory carabid beetles. Entomol Exp Appl. 65:129140 Google Scholar
Ward, MJ, Ryan, MR, Curran, WS, Barbercheck, ME, Mortensen, DA (2011) Cover crops and disturbance influence activity–density of weed seed predators Amara aenea and Harpalus pensylvanicus (Coleoptera: Carabidae). Weed Sci. 59:7681 Google Scholar
Watson, SJ, Mauchline, AL, Brown, VK, Froud-Williams, RJ (2003) Post-dispersal losses of Stellaria media and Polygonum aviculare seeds in spring barley (Hordeum vulgare). Asp Appl Biol. 69:203208 Google Scholar
Westerman, PR, Atanackovic, V, Royo-Esnal, A, Torra, J (2012) Differential weed seed removal in dryland cereals. Arthropod Plant Interact. 6:591599 Google Scholar
Westerman, PR, Borza, JK, Andjelkovic, J, Liebman, M, Danielson, B (2008) Density-dependent predation of weed seeds in maize fields. J Appl Ecol. 45:16121620 Google Scholar
Westerman, PR, Dixon, PM, Liebman, M (2009) Burial rates of surrogate seeds in arable fields. Weed Res. 49:142152 Google Scholar
Westerman, PR, Hofman, A, Vet, LEM, van der Werf, W (2003a) Relative importance of vertebrates and invertebrates in epigeaic weed seed predation in organic cereal fields. Agri. Ecosyst Environ. 95:417425 Google Scholar
Westerman, PR, Liebman, M, Heggenstaller, AH, Forcella, F (2006) Integrating measurements of seed availability and removal to estimate weed seed losses due to predation. Weed Sci. 54:566574 Google Scholar
Westerman, PR, Liebman, M, Menalled, FD, Heggenstaller, A, Hartzler, RG, Dixon, PM (2005) Are many little hammers effective? Velvetleaf (Abutilon theophrasti) population dynamics in two- and four-year crop rotation systems. Weed Sci. 53:382392 Google Scholar
Westerman, PR, Luijendijk, CD, Wevers, JDA, van der Werf, W (2011) Weed seed predation in a phenologically late crop. Weed Res. 51:157164 Google Scholar
Westerman, PR, Wes, JS, Kropff, MJ, van der Werf, W (2003b) Annual losses of weed seeds due to predation in organic cereal fields. J Appl Ecol. 40:824836 Google Scholar
White, S, Renner, AK, Menalled, FD, Landis, DA (2007) Feeding preferences of weed seed predators and effect on weed emergence. Weed Sci. 55:606612 Google Scholar
Winqvist, C, Bengtsson, J, Aavik, T, Berendse, F, Clement, LW, Eggers, S, Fischer, C, Flohre, A, Geiger, F, Liira, J, Part, T, Thies, C, Tscharntke, T, Weisser, WW, Bommarco, R (2011) Mixed effects of organic farming and landscape complexity on farmland biodiversity and biological control potential across Europe. J Appl Ecol. 48:570579 Google Scholar
Zetto-Brandmayr, T (1976) Studi sulla fitofagia nei Carabidi: spermofagia larvale di Ophonus ardosiacus Lutsh (Coleoptera: Carabidae). Pages 5967 in XI Congresso Nazionale Italiano di Entomologia. Portici-Sorrento, Italy Google Scholar
Zetto-Brandmayr, T (1983) Life cycle, control of propagation rhythm and fecundity of Ophonus rotundicollis Fairm. et Lab. (Coleoptera, Carabidae, Harpalini) as an adaptation to the mainfeeding plant Daucus carota L. (Umbelliferae). Pages 93103 in Brandmayr, P, den Boer, PJ, Weber, E, eds. Ecology of Carabids: The Synthesis of Field Study and Laboratory Experiment. Wageningen Centre for Agricultural Publishing and Documentation Google Scholar
Zetto-Brandmayr, T (1990) Spermophagous (seed-eating) ground beetles: first comparison of the diet and ecology of the Harpaline genera Harpalus and Ophonus (Col Carabidae). Pages 307316 in Stork, NE, ed. The Role of Ground Beetles in Ecological and Environmental Studies. Andover, UK Intercept Ltd Google Scholar
Zetto-Brandmayr, T, Giglio, A, Marano, I, Brandmayr, P (1998) Morphofunctional and ecological features in carabid (Coleoptera) larvae. Pages 449489 in Ball, GE, Casale, A, Taglianti, V, eds. Phylogeny and Classification of Caraboidea. Proceedings of a Symposium, XX International Congress of Entomology. Torino, Italy Museo Regionale di Scienze Naturali Google Scholar
Zhang, J, Drummond, FA, Liebman, M, Hartke, A (1997) Insect predation of seeds and plant population dynamics. Technical Bulletin 163, Maine Agricultural and Forest Experiment Station. Orano, ME University of Maine. 32 pGoogle Scholar
Zhavoronkova, TN (1969) Certain structural peculiarities of the Carabidae (Coleoptera) in relation to their feeding habits. Entomol Rev. 48:462471 Google Scholar