Slug Control Research Articles

Biological control of slugs with the rhabditid nematode Phasmarhabditis hermaphrodita

This literature review is based on the biological control of slugs using the nematode Phasmarhabditis hermaphrodita. It describe the effectiveness and mode of action according to its environment. Also the method of application and doses, compared to chemical molluscicides and the study of the bacteria associated to the nematode. P. hermaphrodita seems to prefer soil moisture and infect young slugs of the Deroceras species. Partial nematode applications are less expensive and should be done in slug resting áreas.There are other nematodes species for slug control but with no effectiveness. More research is still needed to prove when nematode P. hermaphrodita's action stage is, because it has not been so effective for the control of many other slug species.

Efficacy of invasive alien plants in controlling Arionidae slugs

Aim of study: To develop an alternative slug control method, we explored the use of plant material from seven invasive plant species against Arion slugs.Area of study: The experiments were performed at the University of Ljubljana (Slovenia).Material and methods: In laboratory (exp. A-C) and semi-field studies (exp. D), we investigated the contact and barrier efficacy of plant material (powder or liquid formulation) of seven invasive plant species (Japanese knotweed, bohemian knotweed, Canadian goldenrod, giant goldenrod, staghorn sumac, tree of heaven, and false indigo) against Arion slugs. In order to test a contact efficacy of the substance (exp. A), slugs were rolled in a plant material powder. In exp. B, powder made from a plant material was used as a barrier for slugs. Antifeedant effect of the slugs was tested in exp. C, where lettuce leaves were treated with a liquid formulation of a plant material. In exp. D, all above mentioned techniques were used in a semi-field trial.Main results: The results of our studies showed that the plant material of staghorn sumac, giant goldenrod, and Japanese knotweed showed the strongest anti-feedant and barrier effects against the slugs. In the semi-field trial, only 7% of the plants treated with giant goldenrod plant material were attacked by slugs.Research highlights: A contact efficacy of plant powders against Arion slugs was not confirmed in our investigation. Furthermore, several plant powders (goldenrods, staghorn sumac) showed good barrier efficacy. A semi-field trial showed that plant material (giant goldenrod) could represent an alternative solution in slug control.

Blue Tits Cyanistes caeruleus Laying Smaller Eggs after a Decline in Snail Numbers: An Indirect Effect of Slug Control in a City Park

Egg size is a basic species-specific life-history trait in birds which influences offspring performance through the nestling stage and, therefore, fitness. Shells of snails are the principal source of calcium for female parids and some other passerines during egg formation. Shortages in the availability of snail shells may lead to laying smaller eggs with thinner shells. In urban green spaces that require protection against pests, the numbers of snails may become greatly reduced in response to molluscicide treatments. The use of a molluscicide treatment against pest slugs in the Botanic Garden, Łodź, Poland, in 2013 and 2014 provided a unique quasi-experimental setting to study the effect of molluscicide on both non-target snails and Blue Tit Cyanistes caeruleus eggs. Using a forest study site where no treatment was applied as a control area, we tested for effects of the molluscicide treatment in the Botanic Garden on the density of snails and on the egg volume of Blue Tits. We found that after the molluscicide treatment a dramatic drop in snail numbers occurred, which likely restricted the availability of snail shells for egg laying Blue Tits in the Botanic Garden. Correspondingly, egg sizes significantly decreased in the Garden, while they stayed constant over time in the forest. Eggs in bigger clutches were more strongly affected by the molluscicide treatment than eggs in smaller clutches. Our quasi-experimental study suggests that Blue Tits are sensitive to poor availability of snail shells. This is manifested by laying smaller eggs, which require less calcium to be incorporated in the eggshell, in response to a dramatic drop in the availability of snail shells. This result is expected to raise awareness of potential indirect and inadvertent effects of park pest management on biota other than molluscan pests.

Determination of metaldehyde in different commercial pesticide formulations using green analytical procedure and gas chromatography flame ionization detection

Metaldehyde is a molluscicide allowed for use in the control of slugs and snails in agriculture and horticulture in many countries. A simple, fast, and precise gas chromatography method was developed and single-laboratory validated for determination of metaldehyde in different formulations of plant protection products. The proposed method involves extraction of active substance from samples by sonication with acetone and analysis using gas chromatography–flame ionization detection (GC–FID). The suggested analytical procedure is accurate, precise, and repeatable. Moreover, it is environmentally friendly and useful for laboratories as it uses a no time- and no solvent-consuming reference chromatography technique for quality control of commercially available pesticide formulations. Advantages of the proposed method are consistent with the ideas of sustainable development, which are in accordance with the principles of Green Analytical Chemistry. Analysis of real samples of commercial pesticide formulations confirmed that the proposed method is fit for its purpose.

Efficacy of chemical and biological slug control measures in response to watering and earthworms

The Spanish Slug (Arion vulgaris, formerly known as Arion lusitanicus) is an invasive agricultural and horticultural pest species that causes great damages all over Europe. Numerous options to control this slug are on the market; among the most commonly used are slug pellets containing the active ingredients metaldehyde or iron-III-phosphate and the application of parasitic nematodes (Phasmarhabditis hermaphrodita). These control measures potentially also affect non-target organisms like earthworms (Lumbricidae), which themselves can directly and/or indirectly alter a plant’s susceptibility against slug herbivory. Also, the efficacy of slug control treatments is expected to be influenced by watering. In a greenhouse experiment we investigated the influence of daily watering vs. every third day watering on slug control efficacy and potential interactions with earthworms. We found significant interactions between watering and slug control efficacy. Slug herbivory and biomass decreased after application of slug pellets; metaldehyde was more effective under less frequent watering while iron-III-phosphate was unaffected by watering. Parasitic nematodes had no effect on slug herbivory and biomass production. Earthworm activity was reduced with less frequent watering but did not interact with slug control. We conclude that watering patterns should be considered when choosing slug control measures.

Passive Slug Attenuation Device: Potential and Operability

Over the years, there have been some concerted efforts towards developing techniques to mitigate the threat posed by slugs to oil and gas production systems. Passive slug attenuation devices have been known to show promising potential in this regard but can generally be confronted with operability issues. In this study, experimental investigation on the hydrodynamic slug attenuation potential and the operability of a process-intensified passive slug control device-Pseudo Spiral Tube (PST) was carried out. The result showed that the device possesses the capability to partially attenuate slug flow. This was achieved with the help of the swirl flow generated within the device which helps achieve air entrainments in the liquid slug leading to reduction in the effective density of the liquid slug. The results showed that the slug severity was reduced by 24% for the case studied. However, the slug redeveloped few meters downstream the device. Therefore, in order to achieve maximum slug attenuation, the device should be installed immediately upstream the topside separator. It was also observed that the pipeline might be pigged with the device installed. However, during multiphase flows, the pig may get stuck intermittently in the device. Hence, it was conceived that a flexible pig could be more appropriate to overcome this challenge.

SLUG CONTROL IN LEAFY VEGETABLE USING NEMATODE PHASMARHABDITIS HERMAPHRODITA (SCHNEIDER)

Vegetable crops, more than other agricultural crops, are exposed to great damages caused by slugs. Current control methods rely on chemical molluscicides that are often ineffective and harmful to non - target organisms, specially Carabids. Parasitic nematode Phasmarhabditis hermaphrodita (Schneider) parasites many slugs and snails and has been formulated as biological molluscicide. In this investigation, effectiveness of P. hermaphrodita applied in recommended and half the recommended dose in slug control in greenhouse lettuce and cabbage was evaluated and compared with metaldehyde and methiocarb pellets. Tested mollusicides did not stop feeding of Arion lusitanicus Mabille and did not achieve long term protection from slug damage. The use of standard dose of P. hermaphrodita in lettuce and cabbage provided satisfactory protection from slugs to harvest. Half recommended dose of P. hermaphrodita showed lower level of protection compared with recommended dose. Repeated applications of half recommended dose of P. hermaphrodita could boost molluscicidal effect to the level of the efficacy reached by standard dose, so it could find their place in practice. Effective control of A. lusitanicus using parasitic nematodes provides great opportunity to replace chemical molluscicides in organic production and to reduce their negative side effect to non - target organisms and the environment.

Predation by the carabid beetle Harpalus rufipes on the pest slug Deroceras reticulatum in the laboratory

AbstractThe Harpalini species Harpalus rufipes, as many other generalist carabids, consume a wide variety of prey and it is known to feed on pest slugs such as the grey field slug Deroceras reticulatum, but quantitative data about the predatory activity of H. rufipes on slugs are very scarce. In laboratory experiments, we assessed the capability of male H. rufipes to kill eggs and different‐sized slugs of the pest species D. reticulatum in either the absence or the presence of alternative live prey (dipteran larvae and aphids). We also investigated the preference of H. rufipes for eggs and hatchlings of D. reticulatum in a choice experiment. H. rufipes killed considerable amounts of eggs and small juveniles (≤5.0 mg) of D. reticulatum, both in no‐choice and in choice situations. Medium‐sized juvenile slugs (10–20 mg) were seldom killed only in no‐choice situations, and no large juveniles (50–60 mg) were killed. Dipteran larvae and aphids were killed also in no‐choice and in choice situations. The type of alternative prey presented with slug eggs affected the survival of the eggs to H. rufipes predation. The presence of dipteran larvae as alternative prey did not affect the survival of juvenile slugs. When eggs and small juvenile slugs were offered together, the survivals of both items were similar. The obtained results under laboratory conditions suggest that the generalist predator H. rufipes might realise an important contribution to the control of pest slugs.

Is a combination of different natural substances suitable for slug (Arion spp.) control?

In a laboratory study we investigated the contact and barrier efficacy of different natural substances (wood ash, sawdust, hydrated lime, and diatomaceous earth) against slugs of the genus Arion, an important agricultural pest. Natural substances were tested individually and in combination with each other. The experiment was carried out in plastic petri dishes and in glass insectaria. Moistened tampons and fresh leaves of lettuce were placed into both experimental arenas. The slugs were starved for 48 hours prior to the experiment. Six categories of behaviour were identified for slugs in the presence of the natural substances: (1) slug survived the experiment, (2) slug died during the experiment, (3) slug crossed the barrier, (4) slug did not cross the barrier, (5) slug fed on the lettuce, and (6) slug did not feed on the lettuce. The effect of different treatments (natural substances) was significant. The results of our study have shown that hydrated lime had the best contact efficacy on slugs (the mortality of slugs was 100%), both individually and in combination with other substances. The treatments with hydrated lime also proved to be the most efficient barrier preventing slugs from feeding on lettuce. Hydrated lime shows great potential in Arion control in our investigation; however, further research is needed to investigate the practical value (how to avoid the problem when the substance becomes wet), safety and economics of hydrated lime used in this way.

Behavioural avoidance by slugs and snails of the parasitic nematode Phasmarhabditis hermaphrodita

ABSTRACTThe nematode Phasmarhabditis hermaphrodita has been developed as a biological control agent for slugs and snails. Slugs avoid areas where P. hermaphrodita is present. We investigated whether behavioural avoidance of P. hermaphrodita is a common feature of slugs and snails by exposing eight species to P. hermaphrodita. We showed that slugs generally avoided P. hermaphrodita, whereas snails did not. We also showed that slugs specifically avoided the commercial strain and a natural isolate of P. hermaphrodita and were not deterred by other nematodes such as Steinernema kraussei or Turbatrix aceti. We also showed that slugs avoided the dauer stage of P. hermaphrodita and not mixed-stage cultures. Furthermore, slugs do not avoid dead P. hermaphrodita or exudates from live nematodes. Taken together, we have unravelled further factors that are essential for slugs to avoid P. hermaphrodita in soil, which could have important implications for the biological control of slugs and snails.

Effects of landscape composition on carabids and slugs in herbaceous and woody field margins

Field margin vegetation can provide shelter and complementary resources for both agricultural pests and their natural enemies. Thus, simplification of agricultural landscapes can either reduce or enhance pest pressure, depending on the habitat preferences and mobility of the relevant organisms. The promotion of field margin vegetation that selectively enhances natural enemies but not pests, would be desirable for the optimization of pest control services. Unfortunately, the majority of existing studies on the effects of field margins and landscape focussed on either natural enemies or (less often) on pests, but very rarely on both. This study evaluates the influence of herbaceous and woody semi-natural habitats and landscape composition on carabid beetles as natural enemies of the pest slugs Deroceras reticulatum and Arion spp. We found effects of semi-natural habitats on carabids and slugs at the field and landscape scale. While most carabids and D. reticulatum preferred herbaceous over woody habitats, Arion spp. oppositely showed highest activity-densities in woody habitats. With increasing amount of semi-natural habitats in the landscape activity-densities of predatory carabids tended to increase while activity-densities of Arion spp. decreased. This, and a negative correlative trend between Arion spp. and carabid densities indicate favourable conditions for natural slug control by carabids in landscapes with a high amount of semi-natural habitats. Our results confirm that different response of pest and their natural enemies to the landscape context can indeed alter the predator-prey ratio. However, our study also revealed that pests such as Arion spp. and D. reticulatum prefer different types of field margins, complicating the optimization of agricultural landscapes for pest management.

A Bioassay Evaluation of Field-Aged and Fresh Molluscicide Baits for Control of Dusky Slug, 2015: Table 1

The purpose of this bioassay was to assess the effectiveness of fresh and field-aged molluscicide baits for control of dusky slug, which is a common slug pest in Virginia. All slug baits (Iron Fist and Deadline) were commercially formulated and obtained from AMVAC Chemical Corporation. Samples of 100 g of each bait product were applied to a no-till cornfield located near Blacksburg, VA on 29 May 2015. After 2 weeks in the field, and approximately 1 cm of precipitation, the baits were retrieved from the field and brought to …

Short-Term Effects of Conversion to Direct Seeding Mulch-Based Cropping Systems on Macro-Fauna and Weed Dynamics

ABSTRACTAgroecosystem biodiversity could provide essential services such as pest control. One approach currently used to promote ecosystem services in agricultural systems is to reduce tillage and increase plant diversity. In this study, we assessed the short-term effects of conversion from reduced tillage (RT) to direct seeding mulch-based cropping systems (DMC) on the dynamics of arthropods (detritivores and predators), and major pests (slugs and weeds). The study was conducted in two commercial fields: one cropped with sorghum (Sorghum bicolor L.) and one with maize (Zea mays L.). We found that both beneficial and detrimental groups monitored were more abundant in DMC than in RT treatment and that the dominant species differed between treatments. Because of their major role in agroecosystems by contributing to the control of weed seeds, insects, and slugs, carabid beetles (Carabidae) were investigated in greater detail, and the results showed their diversity was also higher in DMC than in RT. The dominant species found were Poecillus cupreus and Pseudofonus rufipes in the maize and sorghum fields, respectively. The increase in biological control agents shortly after conversion suggested that cover crops should be considered as a pest management tool, even on a short-term scale.

Stability analysis of slug flow control

ABSTRACTThe threat of slugging to production facilities has been known since the 1970s. This undesirable flow phenomenon continues to attract the attention of researchers and operators alike. The most common method for slug mitigation is by choking the valve at the exit of the riser which unfortunately could negatively affect production. The focus, therefore, is to satisfy the need for system stability and to maximize production simultaneously. Active feedback control is a promising way to achieve this. However, due to the complexity of multiphase flow systems, it is a challenge to develop a robust slug control system to achieve the desired performance using existing design tools. In this paper, a new general method for multiphase flow system stability analysis was proposed. Active feedback control was observed to optimize slug attenuation compared with manual choking. The use of soft sensors was believed to be desirable for the practical implementation of the proposed control technique.

Increasing Production by Applying Active Slug-Suppression Technology

This article, written by JPT Technology Editor Chris Carpenter, contains highlights of paper SPE 170731, “Increasing Production by Applying Field-Proven Active Slug- Suppression Technology,” by C.E. Lacy, SPE, G.A. Groote, and R. Chao, Shell; E. Osemwinyen, Nigeria NLNG; and F.A. Fleyfel, SPE, and O. Akinmoladum, Shell, prepared for the 2014 SPE Annual Technical Conference and Exhibition, Amsterdam, 27–29 October. The paper has not been peer reviewed. Active slug-control methods have been developed in recent years. One such system is a relatively inexpensive solution developed by Shell that has proved to be very effective in stabilizing slugging in flowlines and risers. Field data from case histories in the Gulf of Mexico (GOM), Malaysia, and Nigeria indicate that production gains of 10% are often possible. Introduction The active slug-control method in question uses a single standard control valve and pressure sensors immediately upstream and downstream of the valve. One advantage of this method is that a choke/ control valve is often already installed. If changes are required, these are often limited to the trim and actuator. Because only localized pressure measurements are required, this makes the technology a cost-effective solution with very limited added weight or space requirements. Another advantage is that the system acts on both liquid and gas surges of the multiphase fluid without the need for prior separation. It can thus stabilize the fluids arriving at the production facility, allowing for optimization and increased production. In this paper, a new application in Nigeria is discussed in which this active slug-suppression technology reduced the gas and liquid surges and lowered riser gas lift requirements. Riser-base gas lift is often used both to reduce hydrostatic head and to mitigate slugging in subsea applications. In this case, the asset was gas lift constrained and the gas lift was insufficient to mitigate slugging below a fixed flow-rate range. Lowering gas lift requirements meant more barrels could be produced across the asset. Reducing slugging would enable lower minimal production limits. Technology The concept of active slug control is several decades old. This latest technology, however, uses a single control valve— typically the boarding choke—located between the outlet of the riser and the first stage separator. A control algorithm especially designed for slug control was developed that incorporates the measurements of the pressure upstream and downstream of the control valve. The first objective of the control system is to suppress riser-induced slugging. Here, riser-induced slugging (sometimes referred to as severe slugging) is characterized by the formation of a blockage beginning at the riser base. As the blockage forms, the gas production starts to decrease at the top of the riser and may stop completely. Eventually, a liquid slug arrives at the facility followed immediately by a gas surge. Once the gas surge is produced, the cycle then repeats itself. The control system can be used to minimize the impact coming from many types of transient slugs. Transient slugs can occur for a variety of reasons. These include start-up or ramp-up slugs and slugs resulting from dips in the elevation profile allowing alternating accumulation and blowout of liquids and slugs from instabilities either in the horizontal flowline or vertical riser.

A Pneumatically Controlled Reconfigurable Antenna With Three States of Polarization

Many of the existing antennas described in current literature utilize PIN diodes to achieve switchable polarization. In realizing more elaborate reconfigurable antennas, the biasing structures for these DC-controlled components become more complex, which leads to limitations in the RF design as well as losses and undesired radiation. Other reconfigurable technologies, such as MEMS switches and liquid crystals, could be chosen for a particular application depending on various trade-offs, for example efficiency and ease of implementation. An alternative system is a recently developed scheme of using pneumatically controlled solid dielectric slugs, which is low-loss and immune to RF distortion, and eliminates the need for DC biasing structures. To demonstrate the viability of this system, it was incorporated in the design of a reconfigurable ring slot antenna capable of three polarization states (LP/LHCP/RHCP) at 2.4 GHz. The measured axial-ratio bandwidth was 5%, which is comparable to similar low-profile antennas. The simulated and measured antenna performance at all three states showed strong correlation. The pneumatic actuation of four slugs inside a channel to realize the three different states was successfully implemented, demonstrating that pneumatic slug control technology is suitable for inclusion in reconfigurable antennas.

Marsh Flies, Snails, and Blood Flukes: Biology of the Ecologically Connected

Marsh Flies, Snails, and Blood Flukes: Biology of the Ecologically Connected

Recreating Riser Slugging Flow Based on an Economic Lab-sized Setup

As a kind of periodic phenomenon, the slugging flow in the offshore oil & gas production addresses a lot of attentions, due to its limitation of production rate, periodic overload processing facilities, and even direct cause of emergent shutdown. This work studies the emulation of the riser slugging flow in the offshore oil & gas production, by constructing an economical lab-sized setup in the university campus. Firstly, the construction and used components for the lab setup are illustrated; then, the constructed setup is validated by checking the consistency with some existing typical riser slug model, besides extensive experimental tests. The theoretical analysis and experimental results show that this simple setup can recreate the key features of slugging flow phenomenon with reasonable preciseness, and it serves as a good platform for further slug control study.

Slug Controls Stem/Progenitor Cell Growth Dynamics during Mammary Gland Morphogenesis

BackgroundMorphogenesis results from the coordination of distinct cell signaling pathways controlling migration, differentiation, apoptosis, and proliferation, along stem/progenitor cell dynamics. To decipher this puzzle, we focused on epithelial-mesenchymal transition (EMT) “master genes”. EMT has emerged as a unifying concept, involving cell-cell adhesion, migration and apoptotic pathways. EMT also appears to mingle with stemness. However, very little is known on the physiological role and relevance of EMT master-genes. We addressed this question during mammary morphogenesis. Recently, a link between Slug/Snai2 and stemness has been described in mammary epithelial cells, but EMT master genes actual localization, role and targets during mammary gland morphogenesis are not known and we focused on this basic question.Methodology/Principal FindingsUsing a Slug–lacZ transgenic model and immunolocalization, we located Slug in a distinct subpopulation covering about 10–20% basal cap and duct cells, mostly cycling cells, coexpressed with basal markers P-cadherin, CK5 and CD49f. During puberty, Slug-deficient mammary epithelium exhibited a delayed development after transplantation, contained less cycling cells, and overexpressed CK8/18, ER, GATA3 and BMI1 genes, linked to luminal lineage. Other EMT master genes were overexpressed, suggesting compensation mechanisms. Gain/loss-of-function in vitro experiments confirmed Slug control of mammary epithelial cell luminal differentiation and proliferation. In addition, they showed that Slug enhances specifically clonal mammosphere emergence and growth, cell motility, and represses apoptosis. Strikingly, Slug-deprived mammary epithelial cells lost their potential to generate secondary clonal mammospheres.Conclusions/SignificanceWe conclude that Slug pathway controls the growth dynamics of a subpopulation of cycling progenitor basal cells during mammary morphogenesis. Overall, our data better define a key mechanism coordinating cell lineage dynamics and morphogenesis, and provide physiological relevance to broadening EMT pathways.

Removal of molluscicidal bait pellets by earthworms and its impact on control of the gray field slug (Derocerus reticulatum Mueller) in western Oregon grass seed fields

Slugs are common pests of grass seed fields in western Oregon and the current focus of repeated, and often unsuccessful, efforts by growers to control them using molluscicides. Here we document rapid loss of molluscicidal bait pellets to earthworms and the resulting adverse effects on slug control. Three years of field studies were conducted at 17 locations with contrasting crops, soil types, residue levels, and tillage management programs. Baits were isolated in covered, sunken, open bottom arenas in the field to exclude removal by slugs, rodents, or birds. Forty hours of nighttime field observations and photographic documentation were collected to support the hypothesis that earthworms were removing slug bait before it had the opportunity to kill slugs. Greenhouse studies were conducted on the gray field slug (Derocerus reticulatum Mueller), in screen-topped arenas to determine the effects on mortality, seedling survival, and egg fecundity in a bait-depleting environment. Field data showed that an average of 17% of all bait pellet types were removed nightly by earthworms, with a range of 5.1–6.4 days until 100% disappearance. Individual earthworms in the field were observed removing up to three bait pellets per hour. Earthworms removed a 5% metaldehyde formulation significantly faster than either 4% metaldehyde or 1% iron phosphate pellet baits, possibly because of the smaller physical pellet size. Seedling survival in the greenhouse ≥ 65% was achieved by the highest rate of 4% metaldehyde bait pellets, the two highest rates of 7.5% metaldehyde granules, and the two highest rates of 25% metaldehyde liquid formulation. Earthworms showed no behavioral interest in the granular or liquid formulations, providing growers with attractive alternatives to the ineffectual pelleted baits currently in widespread use.