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Start Over Descriptor "plant chemistry" Publication Type Electronic Resources
15 results on '"plant chemistry"'

1. The impact of drought duration on two Potamogeton species with different growth forms

Author

Daumal, Maya M., Oosterhuis, Dian, Verhofstad, Michiel J.J.M., Erkens, Roy H.J., Peeters, Edwin T.H.M., Daumal, Maya M., Oosterhuis, Dian, Verhofstad, Michiel J.J.M., Erkens, Roy H.J., and Peeters, Edwin T.H.M.

Abstract

When facing new climate extremes, aquatic plant communities may experience more frequent or increasing durations of water shortages. Aquatic macrophytes of permanently inundated habitats (true hydrophytes) may lack the physiological or morphological characteristics that protect terrestrial plants from drying out. Aquatic hydrophytes with floating or emergent leaves are expected to be more resilient to droughts than completely submerged plants, as they have morphological characteristics adapted to air-exposed conditions. Therefore, we expected the latter to survive longer periods of air exposure and perform better with increasing drought than a completely submerged growing species. Here, we conducted a microcosm experiment and exposed two Potamogeton species—the completely submerged growing Potamogeton perfoliatus and the areal leaf producing Potamogeton nodosus—to different drought conditions (1, 5, and 15 days). We aimed to detect how two species with different growth strategies cope with and respond to increasing air exposures with waterlogged sediment. Both species showed a resistance to 1–5 days of drought but showed high mortality after 15 days. They displayed significant differences in all measured morphological responses (shoot length, side shoot, and leaf counts), plant chemistry (carbon, nitrogen, and phosphate), and the produced biomass (shoot, root, leaves), and reacted significantly to increasing drought durations. Differences in their resistance were observed based on the mortality rate and morphological responses. To prevent long-term droughts and keep mortality low, we recommend to the water managers to identify areas of risk and increase water levels during dry periods.

Published
2024

2. How and why plant ionomes vary across North American grasslands and its implications for herbivore abundance

Author

Kaspari, Michael, de Beurs, Kirsten M., Welti, Ellen A.R., Kaspari, Michael, de Beurs, Kirsten M., and Welti, Ellen A.R.

Abstract

Plant elemental content can vary up to 1,000-fold across grasslands, with implications for the herbivores the plants feed. We contrast the regulation, in grasses and forbs, of 12 elements essential to plants and animals (henceforth plant-essential), 7 essential to animals but not plants (animal-essential) and 6 with no known metabolic function (nonessential). Four hypotheses accounted for up to two thirds of the variation in grass and forb ionomes across 54 North American grasslands. Consistent with the supply-side hypothesis, the plant-essential ionome of both forbs and grasses tracked soil availability. Grass ionomes were more likely to harvest even nonessential elements like Cd and Sr. Consistent with the grazing hypothesis, cattle-grazed grasslands also accumulated a handful of metals like Cu and Cr. Consistent with the NP-catalysis hypothesis, increases in the macronutrients N and P in grasses were associated with higher densities of cofactors like Zn and Cu. The plant-essential elements of forbs, in contrast, consistently varied as per the nutrient-dilution hypothesis—there was a decrease in elemental parts per million with increasing local carbohydrate production. Combined, these data fit a working hypothesis that grasses maintain lower elemental densities and survive on nutrient-poor patches by opportunistically harvesting soil nutrients. In contrast, nutrient-rich forbs use episodes of high precipitation and temperature to build new carbohydrate biomass, raising leaves higher to compete for light, but diluting the nutrient content in every bite of tissue. Herbivores of forbs may thus be particularly prone to increases in pCO2 via nutrient dilution.

Published
2021

3. Bottom‐up control of geographic variation in insect herbivory on wild cotton (Gossypium hirsutum) by plant defenses and climate

Author

Ministerio de Economía y Competitividad (España), Moreira Tomé, Xoaquín [0000-0003-0166-838X], Abdala-Roberts, Luis, Quijano‐Medina, Teresa, Moreira Tomé, Xoaquín, Vázquez-González, Carla, Parra-Tabla, Víctor, Berny-Mier y Terán, Jorge C., Grandi, Luca, Glauser, Gaétan, Turlings, Ted C. J., Benrey, Betty, Ministerio de Economía y Competitividad (España), Moreira Tomé, Xoaquín [0000-0003-0166-838X], Abdala-Roberts, Luis, Quijano‐Medina, Teresa, Moreira Tomé, Xoaquín, Vázquez-González, Carla, Parra-Tabla, Víctor, Berny-Mier y Terán, Jorge C., Grandi, Luca, Glauser, Gaétan, Turlings, Ted C. J., and Benrey, Betty

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.

Published
2019

6. Effects of population-related variation in plant primary and secondary metabolites on aboveground and belowground multitrophic interactions

Author

van Geem, Moniek, Gols, Rieta, Raaijmakers, Ciska E., Harvey, Jeffrey A., van Geem, Moniek, Gols, Rieta, Raaijmakers, Ciska E., and Harvey, Jeffrey A.

Abstract

Insects feeding on aboveground and belowground tissues can influence each other through their shared plant and this is often mediated by changes in plant chemistry. We examined the effects of belowground root fly (Delia radicum) herbivory on the performance of an aboveground herbivore (Plutella xylostella) and its endoparasitoid wasp (Cotesia vestalis). Insects were reared on three populations of wild cabbage (Brassica oleracea) plants, exhibiting qualitative and quantitative differences in root and shoot defense chemistry, that had or had not been exposed to root herbivory. In addition, we measured primary (amino acids and sugars) and secondary [glucosinolate (GS)] chemistry in plants exposed to the various plant population-treatment combinations to determine to what extent plant chemistry could explain variation in insect performance variables using multivariate statistics. In general, insect performance was more strongly affected by plant population than by herbivory in the opposite compartment, suggesting that population-related differences in plant quality are larger than those induced by herbivory. Sugar profiles were similar in the three populations and concentrations only changed in damaged tissues. In addition to population-related differences, amino acid concentrations primarily changed locally in response to herbivory. Whether GS concentrations changed in response to herbivory (indole GS) or whether there were only population-related differences (aliphatic GS) depended on GS class. Poor correlations between performance and chemical attributes made biological interpretation of these results difficult. Moreover, trade-offs between life history traits suggest that factors other than food nutritional quality contribute to the expression of life history traits.

Published
2016

7. Performance of a leaf beetle in a multitrophic context

Author

Nordström, Ylva and Nordström, Ylva

Abstract

The aim of my thesis was to assess the relative importance of bottom-up and top-down forces for a plant-herbivore system in a natural multitrophic context. The system consisted of the tall herb Meadowsweet, Filipendula ulmaria (Rosaceae), and the Strawberry leaf beetle Galerucella tenella (Coleoptera: Chrysomelidae). I set up a field experiment with four clones of each of 16 genotypes varying in food quality. The four clones of each genet were assigned to one of four G. tenella egg density treatments (10, 20, 40 or 80 eggs). I hypothesized that (1) larval performance increases with plant edibility; (2) larval performance increases at higher larval densities (3) the parasitation rate by the hymenopteran parasitoid Asecodes parviclava increases with increasing larval density and decreasing food quality. The results showed significant relationships between larval density treatment and G. tenella survival (negative), pupal weight (positive), proportion of parasitoids (negative) and generalist predators (positive; for both functional groups “web-forming spiders” and “others”), and plant chewers. Parasitation rate was unaffected by treatments. Otherwise, complex interaction effects dominated and support for my hypotheses was low. Analysis of phenolic compounds, using liquid chromatography-mass spectrometry (LC-MS), showed positive correlations between plant damage and quercetin, and plant quality and catechin. Taken together my study indicates that larval performance is affected by both plant quality and larval density. It is likely that herbivore damage induces release of volatile organic compounds (HI-VOCs), attracting other arthropods. The strength and direction of those interactions will depend upon the composition of the local arthropod community.

Published
2015

8. Using sheath-liquid reagents for capillary electrophoresis-mass spectrometry: Application to the analysis of phenolic plant extracts

Author

Austrian Science Fund, Maringer, Leila, Ibáñez, Elena, Causon, Tim J., Austrian Science Fund, Maringer, Leila, Ibáñez, Elena, and Causon, Tim J.

Abstract

The combination of CE and MS is now a widely used tool that can provide a combination of high resolution separations with detailed structural information. Recently, we highlighted the benefits of an approach to add further functionality to this well-established hyphenated technique, namely the possibility to perform chemical reactions within the sheath-liquid of the CE-MS interface . Apart from using hydrogen/deuterium exchange for online determination of numbers of exchangeable protons, the addition of DPPH• (2,2-diphenyl-1-picrylhydrazyl) to the sheath-liquid can be used as a fast screening tool for studying antioxidant characteristics of individual components. Such a CE-MS methodology allows rapid and information-rich analysis with minimal reagent and sample consumption to be performed. In the present work, we demonstrate the applicability of this approach for the characterization of phenolic plant extracts from the Labiatae family, namely Rosmarinus officinalis and Melissa officinalis. Using the described approach, a wide range of compounds (15 and 13 phenolic compounds, respectively) could be confidently identified using a combination of high resolution CE-MS separations with implementation of online deuterium exchange and DPPH• reactions. These compounds included polyphenols, phenolic acids, and triterpene acids. In conjunction with online MS/MS experiments, extensive structural information for aglyconic and glycosylated antioxidants present in the extracts could be obtained using simple experimental changes, which can be carried out prior to the purchasing of expensive chemical standards or the time-consuming preparative isolation of individual compounds.

Published
2015

9. Quantifying the response of free-ranging mammalian herbivores to the interplay between plant defense and nutrient concentrations

Author

Bedoya-Perez, Miguel A., Issa, Daniel D., Banks, Peter B., McArthur, Clare, Bedoya-Perez, Miguel A., Issa, Daniel D., Banks, Peter B., and McArthur, Clare

Abstract

While trying to achieve their nutritional requirements, foraging herbivores face the costs of plant defenses, such as toxins. Teasing apart the costs and benefits of various chemical constituents in plants is difficult because their chemical defenses and nutrient concentrations often co-vary. We used an approach derived from predator–prey studies to quantitatively compare the foraging response of a free-ranging mammalian herbivore, the swamp wallaby (Wallabia bicolor), through three feeding trials with artificial diets that differed in their concentrations of (1) the terpene 1,8-cineole, (2) primary constituents (including nitrogen and fiber), and (3) both the terpene and the primary constituents. Applying the giving-up density (GUD) framework, we demonstrated that the foraging cost of food patches increases with higher dietary cineole concentration and decreases with higher dietary nutrient concentration. The effect of combined differences in nutrients and cineole concentrations on GUD was interactive, and high nutrient food required more cineole to achieve the same patch value as low nutrient food. Our results indicate that swamp wallabies equate low nutrient, poorly defended food with high nutrient, highly defended food, providing two contrasting diets with similar cost–benefit outcomes. This behavior suggests that equal concentrations of chemical defenses provide nutrient-poor plants with relatively greater protection as nutrient-rich plants. Nutrient-rich plants may therefore face the exacerbated problem of being preferred by herbivores and therefore need to produce more defense compounds to achieve the same level of defense as nutrient-poor plants. Our findings help explain the difference in anti-herbivore strategy of nutrient-poor and rich plants, i.e., tolerance versus defense.

Published
2014

10. Operation Allelopathy: An Experiment Investigating an Alternative to Synthetic Agrochemicals

Author

Química Orgánica, Chinchilla Salcedo, Nuria, García Durán, Alexandra, Carrera Fernández, Ceferino, Ayuso Vilacides, Jesús, Macías Domínguez, Francisco Antonio, Química Orgánica, Chinchilla Salcedo, Nuria, García Durán, Alexandra, Carrera Fernández, Ceferino, Ayuso Vilacides, Jesús, and Macías Domínguez, Francisco Antonio

Abstract

Synthetic herbicides represent a serious problem in modern agriculture because they are not biodegradable and can accumulate in the soil and in the groundwater, a situation that allows them to enter the trophic chain and ultimately leads to human exposure. Allelopathic chemicals offer an effective alternative to the synthetic compounds. The aim of this experiment is to highlight the differences between chemical and biological control of diseases in crops and to demonstrate the use of natural fungicides and herbicides as alternatives to synthetic chemicals. The experiment involves an evaluation by students of the potential of plant extracts as an alternative to synthetic agrochemicals to identify new ecological farming techniques that could be applied in agriculture. In an effort to encourage 1800 students in high school (14 to 16 years old) to have an interest in science, technology, and innovation, the third edition of the Summer Science Campus was organized by the Spanish Foundation for Science and Technology and the Ministry of Education, Culture, and Sports with support from the foundation Obra Social “la Caixa”.

Published
2014

11. Normal- and reverse-phase paper chromatography of leaf extracts of dandelions

Author

10186646 - Du Toit, Maria Henriette, Du Toit, Maria H., Eggen, Per-Odd, Kvittigen, Lise, Partali, Vassilia, Schmid, Rudolf, 10186646 - Du Toit, Maria Henriette, Du Toit, Maria H., Eggen, Per-Odd, Kvittigen, Lise, Partali, Vassilia, and Schmid, Rudolf

Abstract

This demonstration describes how normal and reverse phase chromatography can be illustrated using only chromatography paper for the separation of extracts of dandelions.

Published
2012

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