How to translate text using browser tools
1 October 2015 Postdispersal Weed Seed Predation and Invertebrate Activity Density in Three Tillage Regimes
Rocio van der Laat, Micheal D. K. Owen, Matt Liebman, Ramon G. Leon
Author Affiliations +

Field experiments were conducted near Boone, IA, to quantify postdispersal seed predation of common lambsquarters and common waterhemp in corn (2003) and soybean (2004) managed with conventional, reduced, and zero-tillage systems. Seed predation in each tillage regime was quantified using selective exclusion treatments during July through September 2003 and June through October 2004. In addition, the activity density of ground-dwelling invertebrates was estimated with pitfall traps. Choice and no-choice feeding trials were conducted in the laboratory using the most abundant weed seed predators found in the field to determine seed preferences of the potential predator organisms. The greatest seed loss occurred during July and August. In 2003, seed predation was lower in zero tillage than in conventional and reduced tillages, but no differences in seed predation between tillage regimes were observed in 2004. Maximum seed predation for common lambsquarters was 53% in 2003 and 64% in 2004. Common waterhemp seed predation reached 80% in 2003 and 85% in 2004. The majority of seed predation was by invertebrate organisms. The most common invertebrate species captured with pitfall traps were field crickets (Gryllus pennsylvanicus De Geer [Gryllidae, Orthoptera]) and ground beetles (Harpalus pensylvanicus Burmeister [Coleoptera, Carabidae]). In 2003, field crickets were relatively more abundant in conventional and reduced tillage than in zero-tillage plots. In 2004, field crickets were more abundant in the reduced tillage than in the other two tillage regimes. No differences were detected for ground beetles among tillage regimes (P  =  0.57). Choice and no-choice feeding experiments confirmed the preferences of field crickets and ground beetles for common lambsquarters and common waterhemp seeds over the larger seeds of giant foxtail and velvetleaf. Under field conditions, the activity density of field crickets was a significant predictor of common lambsquarters (r2  =  0.47) and common waterhemp (r2  =  0.53) seed predation. Positive relationships were also detected between the activity density of ground beetles and common lambsquarters (r2  =  0.30) and common waterhemp (r2  =  0.30) seed predation. This research demonstrated that weed seed predation is an important component affecting weed seedbanks and that crop management practices that favor the activity of predators such as field crickets or ground beetles could influence weed populations. Also, the results suggested that tillage is more important in determining the number of weed seeds available on the soil surface to predators than directly affecting predator activity density.

Nomenclature: Common lambsquarters, Chenopodium album L.; common waterhemp, Amaranthus tuberculatus (Moq.) Sauer.; giant foxtail, Setaria faberi Herrm.; velvetleaf, Abutilon theophrasti Medik.; corn, Zea mays L.; soybean, Glycine max (L.) Merr.

© 2015 Weed Science Society of America
Rocio van der Laat, Micheal D. K. Owen, Matt Liebman, and Ramon G. Leon "Postdispersal Weed Seed Predation and Invertebrate Activity Density in Three Tillage Regimes," Weed Science 63(4), 828-838, (1 October 2015).
Received: 25 February 2015; Accepted: 1 May 2015; Published: 1 October 2015
biological control
field crickets
ground beetles
integrated weed management
Get copyright permission
Back to Top