skip to Main Content

Bibliography Tag: crop science

Dellaferrera et al., 2018

Dellaferrera, Ignacio, Cortés, Eduardo, Panigo, Elisa, De Prado, Rafael, Christoffoleti, Pedro, & Perreta, Mariel, “First Report of Amaranthus hybridus with Multiple Resistance to 2,4-D, Dicamba, and Glyphosate,” Agronomy, 2018, 8(8). DOI: 10.3390/agronomy8080140.

ABSTRACT:

In many countries, Amaranthus hybridus is a widespread weed in agricultural systems. The high prolificacy and invasive capacity as well as the resistance of some biotypes to herbicides are among the complications of handling this weed. This paper reports on the first A. hybridus biotypes with resistance to auxinic herbicides and multiple resistance to auxinic herbicides and the EPSPs inhibitor, glyphosate. Several dose response assays were carried out to determine and compare sensitivity of six population of A. hybridus to glyphosate, 2,4-D, and dicamba. In addition, shikimic acid accumulation and piperonil butoxide effects on 2,4-D and dicamba metabolism were tested in the same populations. The results showed four populations were resistant to dicamba and three of these were also resistant to 2,4-D, while only one population was resistant to glyphosate. The glyphosate-resistant population also showed multiple resistance to auxinic herbicides. Pretreatment with piperonil butoxide (PBO) followed by 2,4-D or dicamba resulted in the death of all individual weeds independent of herbicide or population. FULL TEXT

Polansek, 2018

Tom Polansek, “U.S. seed sellers push for limits on Monsanto, BASF weed killer,” Reuters, August 16, 2018.

SUMMARY:

Reports on the 2018 dicamba drift crisis and the decision by two large U.S. seed sellers to urge EPA to ban dicamba use overtop of growing resistant crops.   Harry Stine, CEO of Stine Seeds, says : ““I’ve been doing this for 50 years and we’ve never had anything be as damaging as this dicamba situation. In this case, Monsanto made an error.”  FULL TEXT

Steckel, 2018

Larry Steckel, “Dicamba drift problems not an aberration,” Delta Farm Press, August 8, 2018.

SUMMARY:

Veteran Tennessee extension weed scientist Larry Steckel writes about the ongoing drift crisis.  He estimates that only 100,000 acres of non-Xtend soybeans remain in the state, and 40% of those are showing injury from dicamba.  He stand by efforts of applicators to follow the complicated label instructions, and proposes that volatility and temperature inversions are the cause.  FULL TEXT

Bradley, 2018a

Kevin Bradley, “July 15 Dicamba injury update. Different Year, same questions,” University of Missouri, Integrated Pest Management online article, July 19, 2018.

SUMMARY:

First update on 2018 dicamba drift damage.  Reports 1.1 million acres of soybeans damaged, and 605 total complaints across all crops.  FULL TEXT

Davis and Frisvold, 2017

Adam S. Davis, George B. Frisvold, “Are herbicides a once in a century method of weed control?,” Pest Management Science, 2017, 73:11, DOI: 10.1002/ps.443.

ABSTRACT:

The efficacy of any pesticide is an exhaustible resource that can be depleted over time. For decades, the dominant paradigm – that weed mobility is low relative to insect pests and pathogens, that there is an ample stream of new weed control technologies in the commercial pipeline, and that technology suppliers have sufficient economic incentives and market power to delay resistance – supported a laissez faire approach to herbicide resistance management. Earlier market data bolstered the belief that private incentives and voluntary actions were sufficient to manage resistance. Yet, there has been a steady growth in resistant weeds, while no new commercial herbicide modes of action (MOAs) have been discovered in 30 years. Industry has introduced new herbicide tolerant crops to increase the applicability of older MOAs. Yet, many weed species are already resistant to these compounds. Recent trends suggest a paradigm shift whereby herbicide resistance may impose greater costs to farmers, the environment, and taxpayers than earlier believed. In developed countries, herbicides have been the dominant method of weed control for half a century. Over the next half-century, will widespread resistance to multiple MOAs render herbicides obsolete for many major cropping systems? We suggest it would be prudent to consider the implications of such a low-probability, but high-cost development.  FULL TEXT

Gould et al., 2018

Fred Gould, Zachary S. Brown, Jennifer Kuzma, “Wicked evolution: Can we address the sociobiological dilemma of pesticide resistance?,” Science, May 18, 2018, 360: 6390, DOI: 10.1126/science.aar3780.

ABSTRACT:

Resistance to insecticides and herbicides has cost billions of U.S. dollars in the agricultural sector and could result in millions of lives lost to insect-vectored diseases. We mostly continue to use pesticides as if resistance is a temporary issue that will be addressed by commercialization of new pesticides with novel modes of action. However, current evidence suggests that insect and weed evolution may outstrip our ability to replace outmoded chemicals and other control mechanisms. To avoid this outcome, we must address the mix of ecological, genetic, economic, and sociopolitical factors that prevent implementation of sustainable pest management practices. We offer an ambitious proposition.  FULL TEXT

Liebman et al., 2016

Matt Liebman, Bàrbara Baraibar, Yvonne Buckley, Dylan Childs, Svend Christensen, Roger Cousens, Hanan Eizenberg, Sanne Heijting, Donato Loddo, Aldo Merotto Jr, Michael Renton, Marleen Riemens, “Ecologically sustainable weed management: How do we get from proof-of-concept to adoption?,” Ecological Applications, 26:5, 2016, DOI: 10.1002/15-0995

ABSTRACT:

Weed management is a critically important activity on both agricultural and non‐agricultural lands, but it is faced with a daunting set of challenges: environmental damage caused by control practices, weed resistance to herbicides, accelerated rates of weed dispersal through global trade, and greater weed impacts due to changes in climate and land use. Broad‐scale use of new approaches is needed if weed management is to be successful in the coming era. We examine three approaches likely to prove useful for addressing current and future challenges from weeds: diversifying weed management strategies with multiple complementary tactics, developing crop genotypes for enhanced weed suppression, and tailoring management strategies to better accommodate variability in weed spatial distributions. In all three cases, proof‐of‐concept has long been demonstrated and considerable scientific innovations have been made, but uptake by farmers and land managers has been extremely limited. Impediments to employing these and other ecologically based approaches include inadequate or inappropriate government policy instruments, a lack of market mechanisms, and a paucity of social infrastructure with which to influence learning, decision‐making, and actions by farmers and land managers. We offer examples of how these impediments are being addressed in different parts of the world, but note that there is no clear formula for determining which sets of policies, market mechanisms, and educational activities will be effective in various locations. Implementing new approaches for weed management will require multidisciplinary teams comprised of scientists, engineers, economists, sociologists, educators, farmers, land managers, industry personnel, policy makers, and others willing to focus on weeds within whole farming systems and land management units. FULL TEXT

Westerman et al., 2005

Paula R. Westerman, Matt Liebman, Fabián D. Menalled, Andrew H. Heggenstaller, Robert G. Hartzler, Philip M. Dixon, “Are many little hammers effective? Velvetleaf (Abutilon theophrasti) population dynamics in two- and four-year crop rotation systems,” Weed Science, 53, 2005.

ABSTRACT:

To improve understanding of relationships between crop diversity, weed management practices, and weed population dynamics, we used data from a field experiment and matrix models to examine how contrasting crop rotations affect velvetleaf. We compared a 2-yr rotation system (corn-soybean) managed with conventional rates of herbicides with a 4-yr rotation (corn-soybean-triticale + alfalfa-alfalfa) that received 82% less herbicide. In November 2002, a pulse of velvetleaf seeds (500 seeds m⁻²) was added to 7- by 7-m areas within replicate plots of each crop phase-rotation system combination. Velvetleaf seed, seedling, and reproductive adult population densities, seed production, and seed losses to predators were measured during the next year. Velvetleaf seed production was greater in the 4-yr rotation than in the 2-yr rotation (460 vs. 16 seeds m⁻²). Averaged over 12 sampling periods from late May to mid-November 2003, loss of velvetleaf seeds to predators also was greater in the 4-yr rotation than in the 2-yr rotation (32 vs. 17% per 2 d). Modeling analyses indicated that velvetleaf density in the 4-yr rotation should decline if cumulative losses of seeds produced in the soybean phase exceeded 40%. Achieving such a level of predation appears possible, given the observed rates of velvetleaf seed predation. In addition, no tillage occurs in the 4-yr rotation for 26 mo after soybean harvest, thus favoring seed exposure on the soil surface to predators. Models that included estimates of seed predation indicated that to prevent increases in velvetleaf density, weed control efficacy in soybean must be ≥ 93% in the 2-yr rotation, but could drop to 86% in the 4-yr rotation. These results support the hypothesis that diverse rotations that exploit multiple stress and mortality factors, including weed seed predation, can contribute to effective weed suppression with less reliance on herbicides. FULL TEXT

Liebman, 2017

Matt Liebman, “Cultural techniques to manage weeds,” in Integrated weed management for sustainable agriculture, Ed: Robert Zimdahl, 2017, Burleigh Dodds Science Publishing.

SUMMARY:

The focus of this chapter is on cultural techniques that can also contribute to effective weed management strategies, including choice of crop density, crop arrangement, and crop genotype, and manipulation of initial crop size, soil fertility, and soil moisture conditions. Weed management strategies that make use of cultural factors seek to reduce weed density, resource consumption, biomass production and competition with crops. They also seek to prevent colonization of fields by weed species not previously present. Additionally, by altering the availability of light, water and nutrients in space and time, and by challenging weeds with allelochemicals, cultural tactics are intended to improve crop performance. FULL TEXT

Liebman and Gallandt, 1997

Matt Liebman and Eric Gallandt, “Many Little Hammers: Ecological Management of Crop-Weed Interactions,” In Ecology and Agriculture,” Ed: L.E. Jackson, 1997, Academic Press.

SUMMARY:

This is the first introduction of the phrase “many little hammers” to describe what is now known as integrated weed management, or IWM.  IWM relies on using a diverse assortment of weed control methods, possibly along with some herbicide use, along with changes in crop density and rotation to achieve weed control.  FULL TEXT

Back To Top