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Articoli di riviste sul tema "Conservation biological control"

Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 4 maggio 2024

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1

Floate, Kevin D. "Conservation Biological Control". Environmental Entomology 29, n. 3 (giugno 2000): 669. http://dx.doi.org/10.1603/0046-225x-29.3.669.

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Van Driesche, Roy G. "Conservation Biological Control. Pedro Barbosa". Quarterly Review of Biology 75, n. 2 (giugno 2000): 211. http://dx.doi.org/10.1086/393464.

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Pimentel, David. "Preface Special Issue: Conservation biological control". Biological Control 45, n. 2 (maggio 2008): 171. http://dx.doi.org/10.1016/j.biocontrol.2007.09.008.

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Khan, Zeyaur R., David G. James, Charles A. O. Midega e John A. Pickett. "Chemical ecology and conservation biological control". Biological Control 45, n. 2 (maggio 2008): 210–24. http://dx.doi.org/10.1016/j.biocontrol.2007.11.009.

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Pell, J. K., J. J. Hannam e D. C. Steinkraus. "Conservation biological control using fungal entomopathogens". BioControl 55, n. 1 (17 novembre 2009): 187–98. http://dx.doi.org/10.1007/s10526-009-9245-6.

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Settele, Josef, e William H. Settle. "Conservation biological control: Improving the science base". Proceedings of the National Academy of Sciences 115, n. 33 (2 agosto 2018): 8241–43. http://dx.doi.org/10.1073/pnas.1810334115.

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Begg, Graham S., Samantha M. Cook, Richard Dye, Marco Ferrante, Pierre Franck, Claire Lavigne, Gábor L. Lövei et al. "A functional overview of conservation biological control". Crop Protection 97 (luglio 2017): 145–58. http://dx.doi.org/10.1016/j.cropro.2016.11.008.

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Cullen, Ross, Keith D. Warner, Mattias Jonsson e Steve D. Wratten. "Economics and adoption of conservation biological control". Biological Control 45, n. 2 (maggio 2008): 272–80. http://dx.doi.org/10.1016/j.biocontrol.2008.01.016.

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Simberloff, Daniel. "Risks of biological control for conservation purposes". BioControl 57, n. 2 (24 luglio 2011): 263–76. http://dx.doi.org/10.1007/s10526-011-9392-4.

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Coll, Moshe. "Conservation biological control and the management of biological control services: are they the same?" Phytoparasitica 37, n. 3 (27 marzo 2009): 205–8. http://dx.doi.org/10.1007/s12600-009-0028-5.

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Singh, K. M., e M. M. Kumawat. "Arthropod biodiversity and conservation biological control in rice". Indian Journal of Entomology 82, n. 2 (2020): 374. http://dx.doi.org/10.5958/0974-8172.2020.00083.8.

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Müller, Christine B., e Jacques Brodeur. "Intraguild predation in biological control and conservation biology". Biological Control 25, n. 3 (novembre 2002): 216–23. http://dx.doi.org/10.1016/s1049-9644(02)00102-0.

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Romeis, Jörg, Steven E. Naranjo, Michael Meissle e Anthony M. Shelton. "Genetically engineered crops help support conservation biological control". Biological Control 130 (marzo 2019): 136–54. http://dx.doi.org/10.1016/j.biocontrol.2018.10.001.

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PRASAD, R. P., e W. E. SNYDER. "Polyphagy complicates conservation biological control that targets generalist predators". Journal of Applied Ecology 43, n. 2 (8 marzo 2006): 343–52. http://dx.doi.org/10.1111/j.1365-2664.2006.01129.x.

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15

Samways, Michael J. "Classical Biological Control and Insect Conservation: Are They Compatible?" Environmental Conservation 15, n. 4 (1988): 349–54. http://dx.doi.org/10.1017/s0376892900029842.

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Abstract (sommario):
Exotic insect pests worldwide are many. They are accidental biotic contaminants. Classical biological control (CBC) agents can be considered as deliberately introduced biotic contaminants that, when successful, reduce the overall biomass of contamination and often bring considerable self-sustaining economic relief to farming communites.Although the introduction of exotic agents would seem to be contrary to conservation philosophy, there are no quantified instances to date where the introduction of arthropod agents has been shown to have harmed a specific conservation programme or has been categorically damaging to native fauna. There is only limited anecdotal evidence that introduced parasitoids may have damaged certain specific native taxa. CBC in some cases actually assists conservation by reducing the level of exotic pests in nature reserves.As CBC is an important socio-economic method of pest control, especially for tropical farmers, and as the taxonomic groups and life-histories of its targets are so different from those insects of endangered status, the two approaches are not in conflict. But as CBC is virtually irretrievable, it must continue to be carried out carefully and selectively only by truly responsible CBC agencies using appropriate quarantine facilities.Tourists and general travellers pose a greater threat to native faunas than do the activities of such CBC agencies. It is well known that vertebrate agents and certain invertebrates, especially snails, can be devastating to certain native biotas. Additionally, and in view of the impending world-wide biotic diversity crisis, even traditional agents such as insect pathogens, insect parasitoids, and insect and mite predators, should be viewed with extreme caution—especially when oligophagous, and unquestionably when polyphagous.
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Şengonca, Çetin. "Conservation and enhancement of natural enemies in biological control". Phytoparasitica 26, n. 3 (settembre 1998): 187–90. http://dx.doi.org/10.1007/bf02981433.

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Banks, John E., Riccardo Bommarco e Barbara Ekbom. "Population response to resource separation in conservation biological control". Biological Control 47, n. 2 (novembre 2008): 141–46. http://dx.doi.org/10.1016/j.biocontrol.2008.08.006.

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Shields, Morgan W., Anne C. Johnson, Sunita Pandey, Ross Cullen, M. González- Chang, Steve D. Wratten e Geoff M. Gurr. "History, current situation and challenges for conservation biological control". Biological Control 131 (aprile 2019): 25–35. http://dx.doi.org/10.1016/j.biocontrol.2018.12.010.

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19

Josephrajkumar, A., K. M. Anes, Merin Babu, P. S. Pratibha, Jilu V. Sajan e Vinayaka Hegde. "Exotic whiteflies and Conservation Biological Control in Coconut System". IOP Conference Series: Earth and Environmental Science 1179, n. 1 (1 maggio 2023): 012006. http://dx.doi.org/10.1088/1755-1315/1179/1/012006.

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Abstract Exotic pests upset biotic balance, threaten biodiversity and distort the livelihood security of the nation. In coconut, five exotic whiteflies viz., spiralling whitefly, Aleurodicus dispersus Russell, rugose spiralling whitefly, Aleurodicus rugioperculatus Martin, Bondar’s nesting whitefly, Paraleyrodes bondari Peracchi, non-native nesting whitefly, Paraleyrodes minei Iaccarino and palm whitefly, Aleurotrachelus atratus Hempel were reported from India. Morphological and molecular identification of these invasive whiteflies were established by puparium and (or) adult taxonomy and cytochrome c oxidase subunit 1 (COI) gene, respectively. Co-existence of nesting whiteflies with other exotic whiteflies regulated population explosion and warranted correct diagnosis of whiteflies in coconut system. Weather parameters viz., precipitation, temperature and humidity play an important role in the gradient outbreak of exotic whiteflies. The aphelinid parasitoids (Encarsia guadeloupae Viggiani, Encarsia dispersa Polaszek), predators (Apertochrysa sp., Cybocephalus sp. coccinellids viz., Jauravia pallidula Motschulsky, Serangium parcesetosum Sicard, Cheilomenes sexmaculata (Fabricius) and entomopathogenic fungus Aschersonia sp. reduced the incursion potential by exotic whiteflies. A sooty mould scavenger beetle, Leiochrinus nilgirianus Kaszab (Tenebrionidae: Coleoptera) that devours sooty mould encrusted on palm leaflets during monsoon phase was reported for the first time from Kerala, India. Pesticide holiday approach, conservation biological control using the aphelinid parasitoids, predators and entomopathogenic fungus as well as in situ habitat conservation of L. nilgirianus through crop-habitat diversification strategy subdued the invasive potential of exotic whiteflies in coconut system by 60%-80% gaining economic benefit to the tune of 17.59 billion rupees. Strict quarantine and systematic surveillance are the need of the hour to combat the biosecurity risks entering the country.
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Tooker, John F., Matthew E. O'Neal e Cesar Rodriguez-Saona. "Balancing Disturbance and Conservation in Agroecosystems to Improve Biological Control". Annual Review of Entomology 65, n. 1 (7 gennaio 2020): 81–100. http://dx.doi.org/10.1146/annurev-ento-011019-025143.

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Disturbances associated with agricultural intensification reduce our ability to achieve sustainable crop production. These disturbances stem from crop-management tactics and can leave crop fields more vulnerable to insect outbreaks, in part because natural-enemy communities often tend to be more susceptible to disturbance than herbivorous pests. Recent research has explored practices that conserve natural-enemy communities and reduce pest outbreaks, revealing that different components of agroecosystems can influence natural-enemy populations. In this review, we consider a range of disturbances that influence pest control provided by natural enemies and how conservation practices can mitigate or counteract disturbance. We use four case studies to illustrate how conservation and disturbance mitigation increase the potential for biological control and provide co-benefits for the broader agroecosystem. To facilitate the adoption of conservation practices that improve top-down control across significant areas of the landscape, these practices will need to provide multifunctional benefits, but should be implemented with natural enemies explicitly in mind.
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Tscharntke, Teja, Riccardo Bommarco, Yann Clough, Thomas O. Crist, David Kleijn, Tatyana A. Rand, Jason M. Tylianakis, Saskya van Nouhuys e Stefan Vidal. "Conservation biological control and enemy diversity on a landscape scale". Biological Control 43, n. 3 (dicembre 2007): 294–309. http://dx.doi.org/10.1016/j.biocontrol.2007.08.006.

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Griffiths, Georgianne J. K., John M. Holland, Alastair Bailey e Matthew B. Thomas. "Efficacy and economics of shelter habitats for conservation biological control". Biological Control 45, n. 2 (maggio 2008): 200–209. http://dx.doi.org/10.1016/j.biocontrol.2007.09.002.

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23

Jonsson, Mattias, Steve D. Wratten, Doug A. Landis e Geoff M. Gurr. "Recent advances in conservation biological control of arthropods by arthropods". Biological Control 45, n. 2 (maggio 2008): 172–75. http://dx.doi.org/10.1016/j.biocontrol.2008.01.006.

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Heimpel, George E. "Linking parasitoid nectar feeding and dispersal in conservation biological control". Biological Control 132 (maggio 2019): 36–41. http://dx.doi.org/10.1016/j.biocontrol.2019.01.012.

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25

Pandey, Sunita. "Conservation biological control in brassica crops using Australian native plants". Journal and proceedings of the Royal Society of New South Wales 154, n. 2 (dicembre 2021): 253. http://dx.doi.org/10.5962/p.361987.

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Huh, Dongsung, e Terrence J. Sejnowski. "Conservation law for self-paced movements". Proceedings of the National Academy of Sciences 113, n. 31 (14 luglio 2016): 8831–36. http://dx.doi.org/10.1073/pnas.1608724113.

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Optimal control models of biological movements introduce external task factors to specify the pace of movements. Here, we present the dual to the principle of optimality based on a conserved quantity, called “drive,” that represents the influence of internal motivation level on movement pace. Optimal control and drive conservation provide equivalent descriptions for the regularities observed within individual movements. For regularities across movements, drive conservation predicts a previously unidentified scaling law between the overall size and speed of various self-paced hand movements in the absence of any external tasks, which we confirmed with psychophysical experiments. Drive can be interpreted as a high-level control variable that sets the overall pace of movements and may be represented in the brain as the tonic levels of neuromodulators that control the level of internal motivation, thus providing insights into how internal states affect biological motor control.
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Naranjo, Steven E., e Peter C. Ellsworth. "The contribution of conservation biological control to integrated control of Bemisia tabaci in cotton". Biological Control 51, n. 3 (dicembre 2009): 458–70. http://dx.doi.org/10.1016/j.biocontrol.2009.08.006.

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28

Boyetchko, Susan M. "Principles of Biological Weed Control". HortScience 30, n. 4 (luglio 1995): 750D—750. http://dx.doi.org/10.21273/hortsci.30.4.750d.

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Weeds continue to have a tremendous impact on crop yield losses in Canada and the United States, despite efforts to control them with chemicals. Biological control offers an additional means for reducing weed populations while reducing the reliance of the agri-food industry on chemical pesticides. Effective biological strategies that are compatible with good soil conservation practices would benefit farmers while maintaining environmental quality and a sustained production for the future. Inundative biological control of weeds with microbial agents involves the mass production and application of high concentrations of a plant pathogen to a target weed. Historically, biocontrol agents used on weeds have been foliar fungal pathogens. More recently, the soil has become a source for microorganisms, such as rhizobacteria, for development as biological control agents. Several naturally occurring rhizobacteria have weed suppressive properties, where growth and development of weeds such as downy brome, wild oats, leafy spurge, and green foxtail are significantly inhibited. Although the focus in weed biocontrol has been on the eradication of weeds, rhizobacteria may be used to improve seedling establishment of the crop by reducing the weed competition. This can be achieved through a reduction in weed growth, vigor, and reproductive capacity and improvement in the ability of the crop to compete with the weed. Current research in weed biocontrol with microorganisms and its application to weed management systems will be discussed.
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Blassioli-Moraes, Maria Carolina, Madelaine Venzon, Luis Claudio Paterno Silveira, Lessando Moreira Gontijo, Pedro Henrique Brum Togni, Edison Ryoiti Sujii, Marcelo Mendes Haro et al. "Companion and Smart Plants: Scientific Background to Promote Conservation Biological Control". Neotropical Entomology 51, n. 2 (12 gennaio 2022): 171–87. http://dx.doi.org/10.1007/s13744-021-00939-2.

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LOUDA, SVATA M., e PETER STILING. "The Double-Edged Sword of Biological Control in Conservation and Restoration". Conservation Biology 18, n. 1 (febbraio 2004): 50–53. http://dx.doi.org/10.1111/j.1523-1739.2004.00070.x.

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Torres, Jorge B., e Adeney de F. Bueno. "Conservation biological control using selective insecticides – A valuable tool for IPM". Biological Control 126 (novembre 2018): 53–64. http://dx.doi.org/10.1016/j.biocontrol.2018.07.012.

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Koh, Insu, Helen I. Rowe e Jeffrey D. Holland. "Graph and circuit theory connectivity models of conservation biological control agents". Ecological Applications 23, n. 7 (ottobre 2013): 1554–73. http://dx.doi.org/10.1890/12-1595.1.

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Mkenda, Prisila A., Patrick A. Ndakidemi, Philip C. Stevenson, Sarah E. J. Arnold, Iain Darbyshire, Steven R. Belmain, Jan Priebe, Anne C. Johnson, Julie Tumbo e Geoff M. Gurr. "Knowledge gaps among smallholder farmers hinder adoption of conservation biological control". Biocontrol Science and Technology 30, n. 3 (3 gennaio 2020): 256–77. http://dx.doi.org/10.1080/09583157.2019.1707169.

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Bordini, Isadora, Peter C. Ellsworth, Steven E. Naranjo e Alfred Fournier. "Novel insecticides and generalist predators support conservation biological control in cotton". Biological Control 154 (marzo 2021): 104502. http://dx.doi.org/10.1016/j.biocontrol.2020.104502.

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Winkler, Karin, Felix L. Wäckers, Aad J. Termorshuizen e Joop C. van Lenteren. "Assessing risks and benefits of floral supplements in conservation biological control". BioControl 55, n. 6 (20 giugno 2010): 719–27. http://dx.doi.org/10.1007/s10526-010-9296-8.

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Ruga, Luigia, Fabio Orlandi e Marco Fornaciari. "Preventive Conservation of Cultural Heritage: Biodeteriogens Control by Aerobiological Monitoring". Sensors 19, n. 17 (22 agosto 2019): 3647. http://dx.doi.org/10.3390/s19173647.

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Artefact conditions need to be continuously monitored to avoid degradation effects naturally caused by time and public exploitation in order to increase the value of cultural assets. In this way, the atmospheric analysis of both biological and chemical pollutants potentially present inside conservation environments represents valid support for the adoption of preventive conservation actions by evaluating periodically the presence of risk for the same artefacts. The aim of the present study was to analyze the fungal particles, potentially biodeteriogen, through aerobiological volumetric monitoring, particularly inside valuable historical, artistic, and cultural sites. Different exposition and conservation typologies of the artefacts with different flows of visitors were considered. The applied methodologies have furnished a reliable description of biological air pollution due to the presence of fungal spores—moreover, they have allowed for the prevention of risk situations and the measurement of their evolution in order to limit degradation processes. Through aerobiological monitoring, it was possible to provide important indications for interventions of prevention, conservation and restoration of cultural heritage in indoor environments.
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Holland, John, Philippe Jeanneret, Anna-Camilla Moonen, Wopke van der Werf, Walter Rossing, Daniele Antichi, Martin Entling et al. "Approaches to Identify the Value of Seminatural Habitats for Conservation Biological Control". Insects 11, n. 3 (20 marzo 2020): 195. http://dx.doi.org/10.3390/insects11030195.

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Invertebrates perform many vital functions in agricultural production, but many taxa are in decline, including pest natural enemies. Action is needed to increase their abundance if more sustainable agricultural systems are to be achieved. Conservation biological control (CBC) is a key component of integrated pest management yet has failed to be widely adopted in mainstream agriculture. Approaches to improving conservation biological control have been largely ad hoc. Two approaches are described to improve this process, one based upon pest natural enemy ecology and resource provision while the other focusses on the ecosystem service delivery using the QuESSA (Quantification of Ecological Services for Sustainable Agriculture) project as an example. In this project, a predictive scoring system was developed to show the potential of five seminatural habitat categories to provide biological control, from which predictive maps were generated for Europe. Actual biological control was measured in a series of case studies using sentinel systems (insect or seed prey), trade-offs between ecosystem services were explored, and heatmaps of biological control were generated. The overall conclusion from the QuESSA project was that results were context specific, indicating that more targeted approaches to CBC are needed. This may include designing new habitats or modifying existing habitats to support the types of natural enemies required for specific crops or pests.
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Tyndale-Biscoe, H. "The CRC for Biological Control of Vertebrate Pest Populations: fertility control of wildlife for conservation". Pacific Conservation Biology 1, n. 3 (1994): 160. http://dx.doi.org/10.1071/pc940160.

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In the last four years there has been a growing awareness of fertility control as a means of reducing or eliminating pest mammals. It is the preferred option of animal welfare groups in Australia (Tyndale-Biscoe 1991) and in North America (Denver Wildlife Research Center 1993), and the expectations have accordingly been raised for its imminent use for the control of Australia's most intractable species, the rabbit, the fox and the cat. In this article I will outline the progress so far achieved in developing this approach for the fox and rabbit, the major obstacles that still remain including the perceived risks, and the long-term prospects for these and other species if fertility control is shown to be an effective means of controlling pest populations.
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COX, SEAN P., ALLEN R. KRONLUND e ASHLEEN J. BENSON. "The roles of biological reference points and operational control points in management procedures for the sablefish (Anoplopoma fimbria) fishery in British Columbia, Canada". Environmental Conservation 40, n. 4 (26 settembre 2013): 318–28. http://dx.doi.org/10.1017/s0376892913000271.

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SUMMARYBiological reference points (BRPs) in fisheries policy are typically sensitive to stock assessment model assumptions, thus increasing uncertainty in harvest decision-making and potentially blocking adoption of precautionary harvest policies. A collaborative management strategy evaluation approach and closed-loop simulation modelling was used to evaluate expected fishery economic and conservation performance of the sablefish (Anoplopoma fimbria) fishery in British Columbia (Canada), in the presence of uncertainty about BRPs. Comparison of models derived using two precautionary harvest control rules, which each complied with biological conservation objectives and short-term economic objectives given by industry, suggested that both rules were likely to avert biomass decline below limit BRPs, even when stock biomass and production were persistently overestimated by stock assessment models. The slightly less conservative, industry-preferred harvest control rule also avoided short-term economic losses of c. CAN$ 2.7–10 million annually, or 10–50% of current landed value. Distinguishing between the role of BRPs in setting fishery conservation objectives and operational control points that define harvest control rules improved the flexibility of the sablefish management system, and has led to adoption of precautionary management procedures.
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Hoy, Marjorie A. "Biological control of arthropod pests: Traditional and emerging technologies". American Journal of Alternative Agriculture 3, n. 2-3 (1988): 63–68. http://dx.doi.org/10.1017/s0889189300002198.

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AbstractBiological control of arthropod pests has a long history of useful practical application. Parasites, predators, and pathogens have been employed in many cases to control pest arthropods in an efficient, cost-effective, and permanent manner. The traditional tactics used in biological control (classical, augmentation, and conservation) remain vital and valuable tools in the biological control of pests for agricultural crops, range lands, forests, and glasshouses. New technologies offer promise. One emerging technique involves the genetic improvement of natural enemies of arthropods through selection, hybridization, or recombinant DNA technology.
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Hoeft, Eric V., Nicholas Jordan, Jianhua Zhang e Donald L. Wyse. "Integrated cultural and biological control of Canada thistle in conservation tillage soybean". Weed Science 49, n. 5 (settembre 2001): 642–46. http://dx.doi.org/10.1614/0043-1745(2001)049[0642:icabco]2.0.co;2.

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James, D. G., e S. Castle. "CONSERVATION BIOLOGICAL CONTROL AND HIPPOs IN ARTHROPOD PEST MANAGEMENT IN WASHINGTON HOPS". Acta Horticulturae, n. 668 (febbraio 2005): 167–72. http://dx.doi.org/10.17660/actahortic.2005.668.22.

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43

Nave, A., F. Gonçalves, A. L. Crespí, M. Campos e L. Torres. "Evaluation of native plant flower characteristics for conservation biological control ofPrays oleae". Bulletin of Entomological Research 106, n. 2 (19 gennaio 2016): 249–57. http://dx.doi.org/10.1017/s0007485315001091.

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AbstractSeveral studies have shown that manipulating flowering weeds within an agroecosystem can have an important role in pest control by natural enemies, by providing them nectar and pollen, which are significant sources of nutrition for adults. The aim of this study was to assess if the olive moth,Prays oleae(Bernard, 1788) (Lepidoptera: Praydidae), and five of its main natural enemies, the parasitoid speciesChelonus elaeaphilusSilvestri (Hymenoptera: Braconidae),Apanteles xanthostigma(Haliday) (Hymenoptera: Braconidae),Ageniaspis fuscicollis(Dalman) (Hymenoptera: Encyrtidae) andElasmus flabellatus(Fonscolombe) (Hymenoptera: Eulophidae), as well as the predatorChrysoperla carnea(Stephens) (Neuroptera: Chrysopidae), can theoretically access the nectar from 21 flowering weeds that naturally occur in olive groves. Thus, the architecture of the flowers as well as the mouthpart structure and/or the head and thorax width of the pest and its enemies were analyzed. The results suggested that all beneficial insects were able to reach nectar of the plant species from Apiaceae family, i.e.Conopodium majus(Gouan) Loret,Daucus carotaL. andFoeniculum vulgareMill., as well asAsparagus acutifoliusL.,Echium plantagineumL.,Capsella bursa-pastoris(L.) Medik.,Raphanus raphanistrumL.,Lonicera hispanicaBoiss. et Reut.,Silene gallicaL.,Spergula arvensisL.,Hypericum perforatumL.,Calamintha baeticaBoiss. et Reut,Malva neglectaWallr. andLinaria saxatilis(L.) Chaz.P. oleaewas not able to access nectar from five plant species, namely:Andryala integrifoliaL.,Chondrilla junceaL.,Dittrichia viscosa(L.) Greuter,Sonchus asper(L.) Hill andLavandula stoechasL.
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Straub, Cory S., Deborah L. Finke e William E. Snyder. "Are the conservation of natural enemy biodiversity and biological control compatible goals?" Biological Control 45, n. 2 (maggio 2008): 225–37. http://dx.doi.org/10.1016/j.biocontrol.2007.05.013.

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45

Fiedler, Anna K., Doug A. Landis e Steve D. Wratten. "Maximizing ecosystem services from conservation biological control: The role of habitat management". Biological Control 45, n. 2 (maggio 2008): 254–71. http://dx.doi.org/10.1016/j.biocontrol.2007.12.009.

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46

Liu, Yin-Quan, Zu-Hua Shi, Myron P. Zalucki e Shu-Sheng Liu. "Conservation biological control and IPM practices in Brassica vegetable crops in China". Biological Control 68 (gennaio 2014): 37–46. http://dx.doi.org/10.1016/j.biocontrol.2013.06.008.

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47

Dreyer, Jamin, e Claudio Gratton. "Habitat linkages in conservation biological control: Lessons from the land–water interface". Biological Control 75 (agosto 2014): 68–76. http://dx.doi.org/10.1016/j.biocontrol.2013.11.006.

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48

Gontijo, Lessando M. "Engineering natural enemy shelters to enhance conservation biological control in field crops". Biological Control 130 (marzo 2019): 155–63. http://dx.doi.org/10.1016/j.biocontrol.2018.10.014.

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49

Tamburini, Giovanni, Serena De Simone, Maurizia Sigura, Francesco Boscutti e Lorenzo Marini. "Conservation tillage mitigates the negative effect of landscape simplification on biological control". Journal of Applied Ecology 53, n. 1 (18 ottobre 2015): 233–41. http://dx.doi.org/10.1111/1365-2664.12544.

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EMELIANOV, IGOR. "Evolutionary aspects of ecological generalism with special reference to conservation biological control". Ecological Entomology 35 (gennaio 2010): 10–17. http://dx.doi.org/10.1111/j.1365-2311.2009.01149.x.

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