Nicholas Lefebvre scite author profile

Nicholas Lefebvre

3Publications

0Citation Statements Received

60Citation Statements Given

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Affiliations

Ministry of Agriculture, Fisheries and Food, Université Laval

Publications

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Control of Phytonemus pallidus (Acari: Tarsonemidae) from strawberry transplants using controlled atmosphere temperature treatment

Bernier

Lefebvre

Khelifi

et al. 2023

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Since it inhabits young leaves and buds of strawberry (Fragaria × ananassa Duchesne) crowns, cyclamen mite (Phytonemus pallidus Banks) is a difficult pest to control with biological or chemical means once it is present in a field. Controlled atmosphere temperature treatment (CATT) is a successful technique that has been commercially used in the Netherlands for nearly 2 decades to disinfect strawberry nursery stock, including elimination of cyclamen mite. During CATT, plants are treated at 35 °C, 50% CO2, and 10% O2 under high relative humidity for 48 h. The objective of this study was to test CATT against P. pallidus in North America at a scale that can be easily used on-farms by strawberry growers. Two greenhouse experiments were conducted where infested trayplants were treated with CATT or the acaricide abamectin, and P. pallidus number were compared to control plants. Plants were destructively sampled after 4 weeks, and CATT reduced mobile forms of P. pallidus by 99.9% in both experiments. Abamectin used in the first experiment had an efficacy of 95.5%. Our findings suggest that CATT is effective at nearly eliminating P. pallidus from strawberry planting material, and its application could reduce risks of field infestations and the need for multiple acaricide applications. While our results are encouraging, additional research is needed to assess the effects of CATT on strawberry plant survival, growth, and fruit production.

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Modeling juice extraction from the sorghum biomass for eventual production of bioethanol

Lefebvre¹,

Khelifi²

2019

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Design and Testing of a Commercial Prototype Press to Extract the Juice from Sweet Sorghum Biomass

Lefebvre¹,

Khelifi²

2022

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HighlightsA commercial-scale prototype press to extract the juice from sweet sorghum biomass was designed, built, and tested.Extraction rates of up to 45% were obtained with this prototype.Abstract. With the rising concerns related to climate change issues, different alternatives have been explored to reduce the use of fossil fuels. Laws forcing the use of ethanol at gas pumps have been enforced across North America. While ethanol is a good alternative, it is mainly made from corn, which is a very demanding crop in terms of water, fertilizers, and climate conditions. The sweet sorghum has been proved to be a good alternative crop, but current pressing methods require transportation of the biomass to a plant, thus resulting in high transportation costs and emissions as well as depriving the soil from an important source of fertilization, which is the pressing residue. The objective of this research was to develop and test a commercial scale prototype press able to extract juice from the sweet sorghum directly in the field. A sequential two-chamber piston press able to apply up to 1.6 MPa of pressure on the biomass was developed and tested. The prototype press was used in extracting juice from sweet sorghum and the influence of operational parameters (pressure and extraction time) on the extraction rate and juice yield was evaluated. Sweet sorghum plants were first harvested and chopped with a forage harvester, then weighed and pressed. The pressing juice was collected and the residue (bagasse) was returned to the field as fertilizer. Obtained results from pressing tests carried out in 2014, 2015, and 2018 showed a juice extraction rate of up to 45% of the initial weight of the biomass. Keywords: Bioethanol, Biomass, Ethanol, Juice, Pressing, Sweet sorghum.

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