Rye Mulch Management Affects Short-term Indicators of Soil Quality in the Transition to Conservation Tillage for Cabbage

Mochizuki, Maren J.; Rangarajan, Anusuya; Bellinder, Robin R.; Es, Harold M. van; Björkman, Thomas

doi:10.21273/hortsci.43.3.862

Cited by 20 publications

(12 citation statements)

References 23 publications

(32 reference statements)

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“…Cabbage biomass and yields, midseason and at-harvest respectively, were reduced because of interactions between cabbage, weeds, and oats in 2010. Other studies also have observed cabbage yield reductions in killed oat plots (Bottenberg et al 1997, Mochizuki et al 2008. Further studies are needed to determine management strategies that improve arthropod management although minimizing weed and cover crop interference with the crop.…”

Section: Discussionmentioning

confidence: 99%

Cover Crop Mulch and Weed Management Influence Arthropod Communities in Strip-Tilled Cabbage

et al. 2013

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Cover crop mulch and weeds create habitat complexity in agricultural fields that may influence arthropods. Under strip-tillage systems, planting rows are tilled and preestablished cover crops can remain between rows. In field experiments conducted in Michigan in 2010 and 2011, a preestablished oat (Avena sativa L.) cover crop was allowed to grow between rows of strip-tilled cabbage and killed at 0, 9-14, or 21-27 d after transplanting (DAT). The effects of herbicide intensity and oat kill date on arthropods, weeds, and crop yield were examined. Two levels of herbicide intensity (low or high) were used to manipulate habitat vegetational complexity, with low weed management intensity resulting in more weeds, particularly in 2010. Oat kill date manipulated the amount of cover crop mulch on the soil surface. Later oat kill dates were associated with higher natural enemy abundance. Reduced herbicide intensity was associated with (1) lower abundance of several key cabbage (Brassica oleraceae L.) pests, and (2) greater abundance of important natural enemy species. Habitats with both later oat kill dates and reduced herbicide intensity contained (1) fewer herbivores with chewing feeding guilds and more specialized diet breadths, and (2) greater abundance of active hunting natural enemies. Oats reduced cabbage yield when oat kill was delayed past 9-14 DAT. Yields were reduced under low herbicide intensity treatments in 2010 when weed pressure was greatest. We suspect that increased habitat complexity associated with oat mulches and reduced herbicide intensity enhances biological control in cabbage, although caution should be taken to avoid reducing yields or enhancing hyperparasitism.

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Section: Discussionmentioning

confidence: 99%

Cover Crop Mulch and Weed Management Influence Arthropod Communities in Strip-Tilled Cabbage

et al. 2013

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“…Previous studies have reported improved yields and/or profitability of ST relative to both no tillage (NT) or FWT in many crops (Hoyt et al, 1996;Lonsbary et al, 2004;Luna and Staben, 2002;Luna et al, 2012;Mochizuki et al, 2007;Mochizuki et al, 2008;Wang and Ngouajio, 2008), although reductions in crop yields in ST compared to FWT have been observed in some cases (Bryant et al, 2013;Hoyt, 1999). In snap beans, yield responses to tillage have 22 | B r a i n a r d e t a l .…”

Section: Crop Yield and Harvest Indexmentioning

confidence: 99%

Evaluating pest-regulating services under conservation agriculture: A case study in snap beans

Brainard

Bryant

Noyes

et al. 2016

Agriculture, Ecosystems & Environment

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Although conservation agriculture (CA) practices including strip-tillage (ST) and cover cropping are promoted largely for their potential benefits for soil quality, uncertainty surrounding their short-term effects on pests often constrains adoption. Quantification of ecosystem services or dis-services associated with pests is an important step in identifying research and policy priorities for improving the performance of CA practices. Beans provide an important source of income and nutrition worldwide and often respond positively to CA practices. However, beans are vulnerable to pest complexes which may be positively or negatively influenced by CA practices. Using insect, weed and yield data from snap beans in a three year vegetable rotation, we estimated the value of pest-regulating services associated with the adoption of CA, and compared it to establishment and management costs associated with implementing CA.

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“…Battles are currently being waged in California over its use [10]. However, if land and/or time are available to a grower, crop rotation can provide many of the beneficial effects of fumigation and impact the soil community [12,14]. Mustards (Brassica sp.…”

Section: Opportunitiesmentioning

confidence: 99%

Managing farming systems, landscapes, pests and pathogens to improve consumer perception of berries

Pritts

2012

Journal of Berry Research

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A major challenge in berry production is the management of pests. Traditionally, growers have used pesticides to manage weeds, arthropods and pathogens, but pressure has been increasing to reduce or eliminate their use. A multitude of approaches and technologies exist that could potentially reduce pesticide use and increase consumer acceptance of berries. Many of these have not yet been widely used in the production of berries. The intent of this paper is to identify ten promising approaches that can lead to reduced pesticide use, and provide examples of how these can be applied to berry production in the future.

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Rye Mulch Management Affects Short-term Indicators of Soil Quality in the Transition to Conservation Tillage for Cabbage

Cited by 20 publications

References 23 publications

Cover Crop Mulch and Weed Management Influence Arthropod Communities in Strip-Tilled Cabbage

Cover Crop Mulch and Weed Management Influence Arthropod Communities in Strip-Tilled Cabbage

Evaluating pest-regulating services under conservation agriculture: A case study in snap beans

Managing farming systems, landscapes, pests and pathogens to improve consumer perception of berries

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