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1.
Sci Rep ; 10(1): 8257, 2020 05 19.
Article in English | MEDLINE | ID: mdl-32427834

ABSTRACT

Natural enemies of herbivores are expected to adapt to the defence strategies of their preys or hosts. Such adaptations may also include their capacity to cope with plant metabolites that herbivores sequester as a defence. In this study, we evaluated the ability of Mexican entomopathogenic nematodes (EPN) to resist benzoxazinoids that are sequestered from maize roots by the western corn rootworm (WCR, Diabrotica virgifera virgifera; Coleoptera: Chrysomelidae), an important maize pest in America and Europe. From maize fields throughout Mexico, we retrieved 40 EPN isolates belonging to five different species, with a majority identified as Heterorhabditis bacteriophora. In the laboratory, all nematodes readily infected non-sequestering larvae of the banded cucumber beetle (D. balteata), while infectivity varied strongly for WCR larvae. While some H. bacteriophora isolates seemed negatively affected by benzoxazinoids, most showed to be resistant. Thus, EPN from Mexican maize fields can cope with these plant defence metabolites, but the results also indicate that WCR larvae possess other mechanisms that help to resist EPN. This work contributes to a better understanding of the capacity of herbivore natural enemies to resist plant defence metabolites. Furthermore, it identifies several benzoxazinoid-resistant EPN isolates that may be used to control this important maize pest.


Subject(s)
Benzoxazines/pharmacology , Coleoptera/drug effects , Coleoptera/parasitology , Insecticide Resistance , Insecticides/pharmacology , Nematoda/physiology , Plant Diseases/parasitology , Zea mays/parasitology , Animals , Coleoptera/physiology , Herbivory/drug effects , Herbivory/physiology , Larva/drug effects , Larva/parasitology , Larva/physiology , Mexico , Pest Control, Biological
2.
Am J Bot ; 106(8): 1059-1067, 2019 08.
Article in English | MEDLINE | ID: mdl-31322738

ABSTRACT

PREMISE: The occurrence and amount of herbivory are shaped by bottom-up forces, primarily plant traits (e.g., defenses), and by abiotic factors. Addressing these concurrent effects in a spatial context has been useful in efforts to understand the mechanisms governing variation in plant-herbivore interactions. Still, few studies have evaluated the simultaneous influence of multiple sources of bottom-up variation on spatial variation in herbivory. METHODS: We tested to what extent chemical (phenolics, production of terpenoid glands) and physical (pubescence) defensive plant traits and climatic factors are associated with variation in herbivory by leaf-chewing insects across populations of wild cotton (Gossypium hirsutum). RESULTS: We found substantial population variation in cotton leaf defenses and insect leaf herbivory. Leaf pubescence, but not gossypol gland density or phenolic content, was significantly negatively associated with herbivory by leaf-chewing insects. In addition, there were direct effects of climate on defenses and herbivory, with leaf pubescence increasing toward drier conditions and leaf damage increasing toward wetter and cooler conditions. There was no evidence, however, of indirect effects (via plant defenses) of climate on herbivory. CONCLUSIONS: These results suggest that spatial variation in insect herbivory on wild G. hirsutum is predominantly driven by concurrent and independent influences of population variation in leaf pubescence and climatic factors.


Subject(s)
Gossypium , Herbivory , Animals , Climate , Insecta , Phenotype , Plant Leaves
3.
Environ Pollut ; 249: 949-958, 2019 Jun.
Article in English | MEDLINE | ID: mdl-30965547

ABSTRACT

Usage of neonicotinoids is common in all agricultural regions of the world but data on environmental contamination in tropical regions is scarce. We conducted a survey of five neonicotinoids in soil, water and sediment samples along gradients from crops fields to protected lowland tropical forest, mangroves and wetlands in northern Belize, a region of high biodiversity value. Neonicotinoid frequency of detection and concentrations were highest in soil (68%) and lowest in water (12%). Imidacloprid was the most common residue reaching a maximum of 17.1 ng/g in soil samples. Concentrations in soils differed among crop types, being highest in melon fields and lowest in banana and sugarcane fields. Residues in soil declined with distance to the planted fields, with clothianidin being detected at 100 m and imidacloprid at more than 10 km from the nearest applied field. About half (47%) of the sediments collected contained residues of at least one compound up to 10 km from the source. Total neonicotinoid concentrations in sediments (range 0.014-0.348 ng/g d. w.) were about 10 times lower than in soils from the fields, with imidacloprid being the highest (0.175 ng/g). A probabilistic risk assessment of the residues in the aquatic environment indicates that 31% of sediment samples pose a risk to invertebrate aquatic and benthic organisms by chronic exposure, whereas less than 5% of sediment samples may incur a risk by acute exposure. Current residue levels in water samples do not appear to pose risks to the aquatic fauna. Fugacity modeling of the four main compounds detected suggest that most of the dissipation from the agricultural fields occurs via runoff and leaching through the porous soils of this region. We call for better monitoring of pesticide contamination and invertebrate inventories and finding alternatives to the use of neonicotinoids in agriculture.


Subject(s)
Environmental Monitoring/methods , Environmental Pollutants/analysis , Geologic Sediments/chemistry , Neonicotinoids/analysis , Pesticides/analysis , Soil/chemistry , Water/chemistry , Animals , Belize , Risk Assessment , Surveys and Questionnaires , Wetlands
4.
J Exp Bot ; 67(3): 919-34, 2016 Feb.
Article in English | MEDLINE | ID: mdl-26596763

ABSTRACT

Tocopherol, a compound with vitamin E (VTE) activity, is a conserved constituent of the plastidial antioxidant network in photosynthetic organisms. The synthesis of tocopherol involves the condensation of an aromatic head group with an isoprenoid prenyl side chain. The latter, phytyl diphosphate, can be derived from chlorophyll phytol tail recycling, which depends on phytol kinase (VTE5) activity. How plants co-ordinate isoprenoid precursor distribution for supplying biosynthesis of tocopherol and other prenyllipids in different organs is poorly understood. Here, Solanum lycopersicum plants impaired in the expression of two VTE5-like genes identified by phylogenetic analyses, named SlVTE5 and SlFOLK, were characterized. Our data show that while SlFOLK does not affect tocopherol content, the production of this metabolite is >80% dependent on SlVTE5 in tomato, in both leaves and fruits. VTE5 deficiency greatly impacted lipid metabolism, including prenylquinones, carotenoids, and fatty acid phytyl esters. However, the prenyllipid profile greatly differed between source and sink organs, revealing organ-specific metabolic adjustments in tomato. Additionally, VTE5-deficient plants displayed starch accumulation and lower CO2 assimilation in leaves associated with mild yield penalty. Taken together, our results provide valuable insights into the distinct regulation of isoprenoid metabolism in leaves and fruits and also expose the interaction between lipid and carbon metabolism, which results in carbohydrate export blockage in the VTE5-deficient plants, affecting tomato fruit quality.


Subject(s)
Biosynthetic Pathways , Down-Regulation , Lipid Metabolism , Organ Specificity , Plant Proteins/metabolism , Solanum lycopersicum/enzymology , Tocopherols/metabolism , Biosynthetic Pathways/genetics , Carbohydrate Metabolism/genetics , Chlorophyll/metabolism , Down-Regulation/genetics , Esters/metabolism , Fruit/metabolism , Gases/metabolism , Gene Expression Regulation, Plant , Gene Knockdown Techniques , Genes, Plant , Lipid Metabolism/genetics , Solanum lycopersicum/genetics , Mutation/genetics , Photosynthesis/genetics , Photosystem II Protein Complex/metabolism , Phytol/metabolism , Plant Leaves/metabolism , Plant Proteins/genetics , Plants, Genetically Modified , Prenylation , RNA Interference , Solubility , Starch/metabolism
5.
J Nat Prod ; 73(5): 844-7, 2010 May 28.
Article in English | MEDLINE | ID: mdl-20166702

ABSTRACT

Investigation of the aerial parts of Schizanthus tricolor yielded seven isomeric tropane alkaloids: 3alpha-(1-methylitaconyl)-6beta-senecioyloxytropane (1), 3alpha-(1-methylitaconyl)-6beta-angeloyloxytropane (2), 3alpha-(1-methylmesaconyl)-6beta-senecioyloxytropane (3), 3alpha-(1-methylmesaconyl)-6beta-angeloyloxytropane (4), 3alpha-(1-methylmesaconyl)-6beta-tigloyloxytropane (5), 3alpha-(1-methylcitraconyl)-6beta-senecioyloxytropane (6), and 3alpha-(1-methylcitraconyl)-6beta-angeloyloxytropane (7). Their structures were established by NMR including (1)H, (13)C NMR, HSQC, HMBC, COSY, and NOESY experiments, UV, IR, and mass spectrometry. Compounds 1, 6, and 7 are new to the literature. Alkaloids 1, 3, 4, and 5 and a mixture of 3, 4, and 5 were evaluated for in vitro antiplasmodial and cytotoxic activity. Compounds 1, 4, and 5 showed marginal inhibition of Plasmodium falciparum strain K1 with IC(50) values of 22.8, 24.8, and 36.0 microM and displayed no cytotoxicity on MRC-65 cells (CC(50) > 64 microM). Alkaloid 3 was inactive (IC(50) 63.5 microM). The alkaloid mixture exhibited slightly higher activity (IC(50) 17.0 microM) than the pure compounds, indicating some synergy between the different isomers.


Subject(s)
Alkaloids/isolation & purification , Antimalarials/isolation & purification , Plants, Medicinal/chemistry , Plasmodium falciparum/drug effects , Solanaceae/chemistry , Tropanes/isolation & purification , Alkaloids/chemistry , Alkaloids/pharmacology , Antimalarials/chemistry , Antimalarials/pharmacology , Chile , Humans , Molecular Structure , Nuclear Magnetic Resonance, Biomolecular , Stereoisomerism , Tropanes/chemistry , Tropanes/pharmacology
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