Your search keyword '"plant chemistry"' showing total 254 results

1. Herbarium specimens as tools for exploring the evolution of fatty acid‐derived natural products in plants.

Author

Fitzgibbons, Emma, Lastovich, Jacob, Scott, Samuel, Groth, Nicole, Grusz, Amanda L., and Busta, Lucas

Subjects

*BOTANICAL chemistry, *BOTANICAL specimens, *PLANT products, *NATURAL products, *PLANT evolution

Abstract

SUMMARY: Plants synthesize natural products via lineage‐specific offshoots of their core metabolic pathways, including fatty acid synthesis. Recent studies have shed light on new fatty acid‐derived natural products and their biosynthetic pathways in disparate plant species. Inspired by this progress, we set out to develop tools for exploring the evolution of fatty‐acid derived products. We sampled multiple species from all major clades of euphyllophytes, including ferns, gymnosperms, and angiosperms (monocots and eudicots), and we show that the compositional profiles (though not necessarily the total amounts) of fatty‐acid derived surface waxes from preserved plant specimens are consistent with those obtained from freshly collected tissue in a semi‐quantitative and sometimes quantitative manner. We then sampled herbarium specimens representing 57 monocot species to assess the phylogenetic distribution and evolution, of two fatty acid‐derived natural products found in that clade: beta‐diketones and alkylresorcinols. These chemical data, combined with analyses of 26 monocot genomes, revealed a co‐occurrence (though not necessarily a causal relationship) between whole genome duplication and the evolution of diketone synthases from an ancestral alkylresorcinol synthase‐like polyketide synthase. Limitations of using herbarium specimen wax profiles as proxies for those of fresh tissue seem likely to include effects from loss of epicuticular wax crystals, effects from preservation techniques, and variation in wax chemical profiles due to genotype or environment. Nevertheless, this work reinforces the widespread utility of herbarium specimens for studying leaf surface waxes (and possibly other chemical classes) and reveals some of the evolutionary history of fatty acid‐derived natural products within monocots. Significance Statement: Plant chemicals are key components in our food and medicine, and advances in genomic technologies are accelerating plant chemical research. However, access to tissue from specific plant species can still be rate limiting, especially for species that are difficult to cultivate, endangered, or inaccessible. Here, we demonstrate that herbarium specimens provide a semiquantitative proxy for the cuticular wax composition of their fresh counterparts, thus reducing the need to collect fresh tissue for studies of wax chemicals and suggesting the same may also be true of other plant chemical classes. We also demonstrate the utility of combining herbarium‐based plant chemical profiling with genomic analyses to understand the evolution of plant natural products. [ABSTRACT FROM AUTHOR]

Published

2024

2. 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., and Peeters, Edwin T. H. M.

Subjects

*POTAMOGETON, *DROUGHTS, *CLIMATE extremes, *WATER shortages, *BOTANICAL chemistry, *PLANT drying, *WATER levels

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. [ABSTRACT FROM AUTHOR]

Published

2024

3. Investigating the host finding behaviour of the weevil Phytobius vestitus for the biological control of the invasive aquatic weed Myriophyllum aquaticum

Author

A. Pessina, L. Humair, R. Naderi, G. Röder, M.L. Seehausen, S. Rasmann, and P. Weyl

Subjects

Parrot’s feather, Invasive plant, Biocontrol, Host selection, Plant chemistry, Agriculture, Biology (General), QH301-705.5

Abstract

Biological control programmes involve pre-release studies that include host range tests to predict likely negative effects on native species. Behavioural responses of potential biological control agents to olfactory signals emitted by target and non-target species provide information on the host-finding and selection behaviour for safer agent selection. The weevil Phytobius vestitus (Coleoptera: Curculionidae) was identified as a potential biological control agent for the sustainable management of the aquatic weed Myriophyllum aquaticum (Haloragaceae). Using olfactometer-based bioassays, we analysed the host-finding and host-selection behaviour of P. vestitus across a variety of plant species closely related to M. aquaticum using a glass olfactometer. We further analysed the volatile organic compounds emitted by the target and non-target plant species to explain the weevil's observed preferences. We demonstrated that P. vestitus was able to recognise and discriminate between eight closely related Haloragaceae plant species and was significantly more attracted to the olfactory cues emitted by the target plant, M. aquaticum, compared to the other plant species. This study provides a first important indication of the specificity of P. vestitus and shows the role of plant chemistry in host selection and the possibility of refining host range assessment for potential biological control agents. However, exhaustive risk assessment for possible release into targeted new environments still requires further investigations.

Published

2024

4. Different effects of fire age and fire recurrence on grass and woody plant chemistry in Kafue National Park, Zambia.

Author

Namukonde, Ngawo, Simukonda, Chuma, and Ganzhorn, Jörg U.

Subjects

BOTANICAL chemistry, GRASSLAND fires, NATIONAL parks & reserves, SAVANNA plants, WOODY plants, METABOLIZABLE energy values

Abstract

In savannas, fire and herbivores are important drivers of natural ecosystem processes. Fire is also used intensively for management purposes. However, reported fire effects differ between studies. Reasons for these differences are still poorly understood. Here, we investigated the effects of fire on leaf chemistry of grasses and woody plants in the savanna of the Busanga Flood Plain, Zambia, in relation to the time elapsed between plant sampling and the last fire (fire age) and the frequency of fires during the last 16 years (fire recurrence). We analyzed leaves for their nitrogen, carbon, and fiber concentrations, and estimated their metabolizable energy content, reflecting feed quality for browsers and grazers. Grasses and woody plants differed in all chemical components and showed different responses to fire. Grass quality was higher at sites burnt in the year of sample collection than at sites burnt only in previous years, but did not change under different fire recurrences. Leaves of woody plants did not differ in relation to fire age but their quality increased with increasing fire recurrence. In woody plants, the carbon content responded to the interaction between fire age and fire recurrence, indicating changes in carbon allocation in response to fire. Thus, burning increased feed quality for grazers and browsers but on different temporal scales. The scale effects may contribute to the differences in resource allocation described by different studies. They merit more attention in management decisions as well as in future studies on fire effects in savanna systems. [ABSTRACT FROM AUTHOR]

Published

2023

5. Multiple and contrasting pressures determine intraspecific phytochemical variation in a tropical shrub.

Author

Glassmire, Andrea E., Carson, Walter P., Smilanich, Angela M., Richards, Lora A., Jeffrey, Christopher S., Dodson, Craig D., Philbin, Casey S., Humberto, Garcia L., and Dyer, Lee A.

Subjects

*PLANT proteins, *SOIL classification, *TROPICAL forests, *INSECT communities, *SOIL composition, *FLUVISOLS

Abstract

Intraspecific phytochemical variation across a landscape can cascade up trophic levels, potentially mediating the composition of entire insect communities. Surprisingly, we have little understanding of the processes that regulate and maintain phytochemical variation within species, likely because these processes are complex and operate simultaneously both temporally and spatially. To assess how phytochemistry varies within species, we tested the degree to which resource availability, contrasting soil type, and herbivory generate intraspecific chemical variation in growth and defense of the tropical shrub, Piper imperiale (Piperaceae). We quantified changes in both growth (e.g., nutritional protein, above- and below-ground biomass) and defense (e.g., imide chemicals) of individual plants using a well-replicated fully factorial shade-house experiment in Costa Rica. We found that plants grown in high light, nutrient- and richer old alluvial soil had increased biomass. High light was also important for increasing foliar protein. Thus, investment into growth was determined by resource availability and soil composition. Surprisingly, we found that chemical defenses decreased in response to herbivory. We also found that changes in plant protein were more plastic compared to plant defense, indicating that constitutive defenses may be relatively fixed, and thus an adaptation to chronic herbivory that is common in tropical forests. We demonstrate that intraspecific phytochemical variation of P. imperiale is shaped by resource availability from light and soil type. Because environmental heterogeneity occurs over small spatial scales (tens of meters), herbivores may be faced with a complex phytochemical landscape that may regulate how much damage any individual plant sustains. [ABSTRACT FROM AUTHOR]

Published

2023

6. Elemental Relationships in the Wood of Four Siberian Conifers: Whether Elements Are an Occasional Mixture

Author

Vladimir Gavrikov, Alexey Fertikov, Ruslan Sharafutdinov, and Eugeniy Vaganov

Subjects

plant chemistry, conifer xylem, chemical elements, X-ray fluorescent analysis, chemical treatment, correlation, Science, Biology (General), QH301-705.5

Abstract

In the abundant literature on plant chemistry, little attention is paid to correlations among chemical elements in tissues. The goal of the research is to establish consistent correlations among elements in the xylem of four widespread Siberian conifers. X-ray fluorescent analysis has been applied to find out the elements contained in the xylem. The method allowed finding the mean count rates of Al, P, S, K, Ca, Ti, Mn, Fe, Cu, Zn, and Sr in trunks of trees. Moreover, the xylem samples were chemically treated twice, first in alcohol and then in HCl. It was found that species factor exerts a significant influence on the elemental content of a few elements, but not on all of them. The chemical treatment decreases the impact of the species factor. The treatment increases the number of significant correlations and strength of them. In some cases (especially with Al), the correlations may change the sign of the relationship. The consistent correlations may help arrange more profound chemical research revealing the forms in which the elements exist in xylem.

Published

2022

7. Effects of the Green Propolis on the Immune Response

Author

Sforcin, José Maurício, Biagi, Marco, Fernandes, Geraldo Wilson, editor, Oki, Yumi, editor, and Barbosa, Milton, editor

Published

2021

8. Baccharis Terpenoid Compounds

Author

Ambrósio, Sérgio Ricardo, Santos, Mário Ferreira Conceição, Oliveira, Larissa Costa, Bassi, Ana Lúcia, Bastos, Jairo Kenupp, Veneziani, Rodrigo Cassio Sola, Fernandes, Geraldo Wilson, editor, Oki, Yumi, editor, and Barbosa, Milton, editor

Published

2021

9. Macrocyclic Trichothecenes of Baccharis

Author

Frade, Alessandra Caroline Montes, de Oliveira Rabelo, Maria Beatriz, Campana, Priscilla Rodrigues Valadares, de Pádua, Rodrigo Maia, Braga, Fernão Castro, Fernandes, Geraldo Wilson, editor, Oki, Yumi, editor, and Barbosa, Milton, editor

Published

2021

10. Chemistry and Biological Activities of Phenolic Compounds from Baccharis Genus

Author

Bastos, Jairo Kenupp, Arruda, Caroline, Fernandes, Geraldo Wilson, editor, Oki, Yumi, editor, and Barbosa, Milton, editor

Published

2021

11. Linking Foliar Traits to Belowground Processes

Author

Madritch, Michael, Cavender-Bares, Jeannine, Hobbie, Sarah E., Townsend, Philip A., Cavender-Bares, Jeannine, editor, Gamon, John A., editor, and Townsend, Philip A., editor

Published

2020

12. Elemental Relationships in the Wood of Four Siberian Conifers: Whether Elements Are an Occasional Mixture.

Author

Gavrikov, Vladimir, Fertikov, Alexey, Sharafutdinov, Ruslan, and Vaganov, Eugeniy

Subjects

*BOTANICAL chemistry, *CONIFERS, *TREE trunks, *XYLEM, *TRACE elements, *CHEMICAL elements, *MIXTURES

Abstract

In the abundant literature on plant chemistry, little attention is paid to correlations among chemical elements in tissues. The goal of the research is to establish consistent correlations among elements in the xylem of four widespread Siberian conifers. X-ray fluorescent analysis has been applied to find out the elements contained in the xylem. The method allowed finding the mean count rates of Al, P, S, K, Ca, Ti, Mn, Fe, Cu, Zn, and Sr in trunks of trees. Moreover, the xylem samples were chemically treated twice, first in alcohol and then in HCl. It was found that species factor exerts a significant influence on the elemental content of a few elements, but not on all of them. The chemical treatment decreases the impact of the species factor. The treatment increases the number of significant correlations and strength of them. In some cases (especially with Al), the correlations may change the sign of the relationship. The consistent correlations may help arrange more profound chemical research revealing the forms in which the elements exist in xylem. [ABSTRACT FROM AUTHOR]

Published

2022

13. Comparative morphology, anatomy and chemotaxonomy of two Cissus Linn. species

Author

Ogwu, Matthew Chidozie, Osawaru, Moses Edwin, Amodu, Emmanuel, and Osamo, Frances

Published

2023

14. Volatile chemical signals underlying the host plant preferences of Tuta absoluta.

Author

Subramani, Vanitha, Pagadala Damodaram, Kamala Jayanthi, Goravale Krishnegowda, Ramegowda, Parepally, Saravan Kumar, Kempraj, Vivek, Thimmappa, Raghava, Kodthalu Seetharamaiah, Shivashankara, Vaddi, Sridhar, and Hookunda Boregowda, Lingaiah

Subjects

*HOST plants, *SOLANUM nigrum, *EGGPLANT, *TOMATOES, *LEAFMINERS, *PRINCIPAL components analysis, *WITHANIA somnifera

Abstract

The South American leaf miner, Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae), is a serious pest of tomato causing substantial annual economic losses at a global scale. Our study comprised choice and no‐choice bioassays, aimed at understanding the preference of this oligophagous pest for a few selected solanaceous hosts (tomato, potato, eggplant, ashwagandha, black nightshade, wild tomato, tobacco, and datura), and the identification of the volatile cues that influence its host selection process. In choice assays, T. absoluta females preferred tomato for oviposition over all the other plants, whereas ashwagandha, tobacco, and datura were the least preferred; on datura zero eggs were laid. A similar trend was observed in the subsequent number of larval mines formed. The moth's preference for host plants of the genus Solanum was quite evident in both the choice and no‐choice assays. Tomato plant volatiles were found to be more attractive to the female moths in single‐ and dual‐choice olfactometer assays. In electroantennographic bioassays, the mean depolarization was significant for tomato, potato, ashwagandha, and eggplant compared to empty air and honey. In total 76 volatile compounds were identified in the GC‐MS analysis across the eight previously selected host–plant headspace samples. Principal component analysis revealed that 1‐fluorododecane and p‐quinone mainly contributed to the observed variation among the host plant volatiles. Of all the host plants, tomato, wild tomato, and tobacco were found to share similarities with respect to volatile cues, whereas ashwagandha, eggplant, and datura were found to be closely related. The other two hosts, potato and black nightshade, had fewer volatiles in common. Volatile cues, namely p‐quinone, 2‐carene, δ‐curcumene, and 1,2‐diethylbenzene, in tomato could serve as oviposition stimulants to T. absoluta, whereas the presence of 1‐fluorododecane in host plants such as datura, eggplant, ashwagandha, and black nightshade, might have deterred T. absoluta from ovipositing. 1‐Fluorododecane was found to be completely absent in tomato. [ABSTRACT FROM AUTHOR]

Published

2021

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

Author

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

Subjects

*GRASSLANDS, *GRASSLAND soils, *HERBIVORES, *PLANT biomass, *NITROGEN in soils, *BOTANICAL chemistry, *HIGH temperatures

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. [ABSTRACT FROM AUTHOR]

Published

2021

16. Investigating the host finding behaviour of the weevil Phytobius vestitus for the biological control of the invasive aquatic weed Myriophyllum aquaticum.

Author

Pessina, A., Humair, L., Naderi, R., Röder, G., Seehausen, M.L., Rasmann, S., and Weyl, P.

Subjects

*AQUATIC weeds, *WEEDS, *NOXIOUS weeds, *BIOLOGICAL pest control agents, *MYRIOPHYLLUM, *NATIVE species, *OLFACTORY receptors

Abstract

• Phytobius vestitus is a biological control candidate for Myriophyllum aquaticum. • Phytobius vestitus responds to plant species based on olfactory cues. • Plant chemistry and phylogeny largely determine the host selection. • Phytobius vestitus is mostly attracted to olfactory cues emitted by M. aquaticum. • This research warrants further investment into the potential use of P. vestitus. Biological control programmes involve pre-release studies that include host range tests to predict likely negative effects on native species. Behavioural responses of potential biological control agents to olfactory signals emitted by target and non-target species provide information on the host-finding and selection behaviour for safer agent selection. The weevil Phytobius vestitus (Coleoptera: Curculionidae) was identified as a potential biological control agent for the sustainable management of the aquatic weed Myriophyllum aquaticum (Haloragaceae). Using olfactometer-based bioassays, we analysed the host-finding and host-selection behaviour of P. vestitus across a variety of plant species closely related to M. aquaticum using a glass olfactometer. We further analysed the volatile organic compounds emitted by the target and non-target plant species to explain the weevil's observed preferences. We demonstrated that P. vestitus was able to recognise and discriminate between eight closely related Haloragaceae plant species and was significantly more attracted to the olfactory cues emitted by the target plant, M. aquaticum , compared to the other plant species. This study provides a first important indication of the specificity of P. vestitus and shows the role of plant chemistry in host selection and the possibility of refining host range assessment for potential biological control agents. However, exhaustive risk assessment for possible release into targeted new environments still requires further investigations. [ABSTRACT FROM AUTHOR]

Published

2024

17. The seventh macronutrient: how sodium shortfall ramifies through populations, food webs and ecosystems.

Author

Kaspari, Michael and Chase, Jonathan

Subjects

*SODIUM, *ECOSYSTEMS, *BOTANICAL chemistry, *BISON, *TANNINS, *FOOD chains

Abstract

Of the 25 elements required to build most organisms, sodium has a unique set of characteristics that ramify through terrestrial ecology. In plants, sodium is found in low concentrations and has little metabolic function; in plant consumers, particularly animals, sodium is essential to running costly Na‐K ATPases. Here I synthesise a diverse literature from physiology, agronomy and ecology, towards identifying sodium's place as the '7th macronutrient', one whose shortfall targets two trophic levels – herbivores and detritivores. I propose that sodium also plays a central, though unheralded role in herbivore digestion, via its importance to maintaining microbiomes and denaturing tannins. I highlight how sodium availability is a key determinant of consumer abundance and the geography of herbivory and detritivory. And I propose a re‐appraisal of the assumption that, because sodium is metabolically unimportant to most plants, it is of little use. Instead, I suggest that sodium's critical role in limiting herbivore performance makes it a commodity used by plants to manipulate their herbivores and mutualists, and by consumers like bison and elephants to generate grazing lawns: dependable sources of sodium. [ABSTRACT FROM AUTHOR]

Published

2020

18. Quantitative trait locus for resistance to the aphid Rhopalosiphum padi L. in barley (Hordeum vulgare L.) is not linked with a genomic region for gramine concentration.

Author

Macaulay, Malcolm, Ramsay, Luke, and Åhman, Inger

Abstract

Gramine is an indole alkaloid found in certain grass species. Results of previous studies have diverged as to whether this compound might cause resistance to aphids or not. In a breeding program aiming to introduce resistance to the cereal pest Rhopalosiphum padi L. in barley, a cultivar has been crossed with the progenitor of cultivated barley, Hordeum vulgare ssp. spontaneum, and an F1-derived population of doubled haploid (DH) lines was screened both for seedling gramine concentration and resistance to R. padi. The resistance was measured as individual aphid growth in the laboratory. The present study aims to determine if there is a genetic relationship between aphid growth retardation and gramine concentration. To do so, the lines were genotyped with a 384 SNP oligonucleotide pool assay and QTL analyses were performed for both traits. A previously identified aphid resistance locus on the distal part of chromosome 2HS was thereby confirmed, with resistance inherited from H. v. ssp. spontaneum, whereas one or more QTL for gramine concentration were potentially indicated on chromosome 3H, thus corroborating that the two traits are not linked genetically. [ABSTRACT FROM AUTHOR]

Published

2020

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

Author

Abdala‐Roberts, Luis, Quijano‐Medina, Teresa, Moreira, Xoaquín, Vázquez‐González, Carla, Parra‐Tabla, Víctor, Berny Mier Y Terán, Jorge C., Grandi, Luca, Glauser, Gaétan, Turlings, Ted C. J., and Benrey, Betty

Subjects

*COTTON, *COTTON quality, *PLANT defenses, *SPATIAL variation, *INSECT populations, *BOTANICAL chemistry, *INSECTS

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. [ABSTRACT FROM AUTHOR]

Published

2019

20. Non-invasive monitoring of red beet development.

Author

Ma, Bing, Rodriguez, Raul D., Bogatova, Elena, Ruban, Alexey, Turanov, Sergey, Valiev, Damir, and Sheremet, Evgeniya

Subjects

*BEETS, *BETALAINS, *BOTANICAL chemistry, *AGING in plants, *PHYTOTRON, *RAMAN spectroscopy

Abstract

Abstract Agricultural monitoring is required to enhance crop production, control plant stress, and predict pests and crop infection. Apart from monitoring the external influences, the state of the plant itself must be tracked. However, the modern methods for plant analysis are expensive and require plants processing often in a destructive way. Optical spectroscopy can be used for the non-invasive monitoring requiring no consumables, and little to none sample preparation. In this context, we found that the red beet growth can be monitored by Raman spectroscopy. Our analysis shows that, as plants age, the rate of betalain content increases. This increase makes betalain dominate the whole Raman spectra over other plant components. The dominance of betalain facilitates its use as a molecular marker for plant growth. This finding has implications in the understanding of plant physiology, particularly important for greenhouse growth and the optimization of external conditions such as artificial illumination. Graphical Abstract Unlabelled Image Highlights • Raman spectroscopy enables the composition determination of red beet. • The spectra of the leaves and stems show the presence of carotenoids and betalain. • The pigment betalain content in red beet increases with the plant growth. • For the first time, betalain is proposed as a molecular marker for red beet senescence. [ABSTRACT FROM AUTHOR]

Published

2019

21. Plant‐soil feedbacks on free‐living nitrogen fixation over geological time.

Author

Houlton, Benjamin Z. and Winbourne, Joy B.

Subjects

*PLANT-soil relationships, *NITROGEN fixation, *ECOLOGICAL succession, *BOTANICAL chemistry, *STOICHIOMETRY

Abstract

Free‐living heterotrophic nitrogen fixation (FNF) is a widespread nitrogen input pathway in terrestrial ecosystems. However, questions remain over the relative influence of co‐occurring controls on patterns of heterotrophic FNF activity, especially across generalized stages of primary succession, from biomass accumulation to retrogressive phases. Here, we experimentally test two alternative hypotheses regarding FNF rates during ecosystem development: (H1) site (i.e., changes in soil fertility during succession) is the primary driver of leaf‐litter FNF rates, vs. (H2) leaf‐litter chemistry is the primary determinant of FNF activity across a broad range of ecosystem conditions. We evaluated these hypotheses across a well‐studied soil chronosequence in California (i.e., the Ecological Staircase), which spans ~1 million years of ecosystem development and displays extreme ranges in plant‐soil nutrient conditions, culminating in the nutrient depleted and stunted Pygmy forest. Across this successional gradient, we implemented a reciprocal leaf‐litter transplant and a common garden litter bag decomposition experiment with senesced needles of Pinus muricata. Our results support H1: rates of FNF were similar for all leaf‐litter types decomposed at the same site regardless of initial leaf‐litter C and nutrient contents. FNF rates sharply declined from the maximal to retrogressive stage of succession. Trends in P dynamics during decomposition suggest an important role of P in regulating FNF. For example, P. muricata litter collected from the infertile Pygmy site displayed substantially higher FNF rates when decomposed at the fertile site, in part by immobilizing significant quantities of P from the soil at the fertile site. Conversely, P. muricata litter collected from the fertile site decomposed more slowly at the Pygmy site, with concomitant declines in FNF rates that matched those of Pygmy site litter decomposed in situ. These results are consistent with the idea that, over millennia, long‐term declines in P availability feedback to constrain FNF rates, in part explaining the emergence of extremely nutrient‐poor and retrograded ecosystems. [ABSTRACT FROM AUTHOR]

Published

2018

22. Water availability influences accumulation and allocation of nutrients and metals in short-rotation poplar plantation.

Author

Tripathi, Abhishek Mani, Klem, Karel, Fischer, Milan, Orság, Matej, Trnka, Miroslav, and Marek, Michal V.

Subjects

*WATER supply, *STOICHIOMETRY, *PHYTOREMEDIATION, *HYDROGEN bonding, *LEAF area index, *BOTANICAL chemistry

Abstract

We analyzed the effect of manipulated water availability on an accumulation of nutrients and metals, their stoichiometry, and allocation to roots or leaves in a short rotation coppice (SRC) poplar plantation. The aim of this study was also to clarify how these changes are related to the effects of drought on growth parameters. This study was conducted in Domanínek, Czech Republic in an SRC poplar clone J-105 ( Populus nigra L. ×  P . Maximowiczii H.). This plantation was established as an uncoppiced (single stem) and later on converted into multi-stem (coppice). A rain-out shelter experiment (reduced throughfall) was established in the second year of coppice and the drought stress (DS) applied for 3 years. Water availability altered the accumulation and allocation of nutrients and metals in above and belowground biomass. Reduced water availability led, in particular, to the significantly lower accumulation of potassium (K) in both leaves and roots and a higher carbon (C) to potassium (K) ratio (C:K) in leaves. The significant decline of zinc (Zn) was also found in roots under reduced throughfall. Reduced water availability led to increased accumulation of cadmium (Cd) in leaves and decreased accumulation in roots. This resulted in significantly lower root:leaf ratio for Cd content. An opposite response was found for the allocation of copper (Cu). We also demonstrated that major changes in accumulation and allocation are associated with changes in growth. The results indicated that such knowledge may contribute to understanding the role of nutrient uptake and translocation in acclimation to DS and it may help in developing phytoextraction methods on contaminated soils. [ABSTRACT FROM AUTHOR]

Published

2018

23. Effects of Elevated CO2 on Plant Chemistry, Growth, Yield of Resistant Soybean, and Feeding of a Target Lepidoptera Pest, Spodoptera litura (Lepidoptera: Noctuidae).

Subjects

ATMOSPHERIC carbon dioxide, BOTANICAL chemistry, GREENHOUSE gases, CHEMICAL composition of plants, FOLIAR diagnosis

Abstract

Atmospheric CO2 level arising is an indisputable fact in the future climate change, as predicted, it could influence crops and their herbivorous insect pests. The growth and development, reproduction, and consumption of Spodoptera litura (F.) (Lepidoptera: Noctuidae) fed on resistant (cv. Lamar) and susceptible (cv. JLNMH) soybean grown under elevated (732.1 ± 9.99 μl/liter) and ambient (373.6 ± 9.21 μl/liter) CO2 were examined in open-top chambers from 2013 to 2015. Elevated CO2 promoted the above- and belowground-biomass accumulation and increased the root/shoot ratio of two soybean cultivars, and increased the seeds’ yield for Lamar. Moreover, elevated CO2 significantly reduced the larval and pupal weight, prolonged the larval and pupal life span, and increased the feeding amount and excretion amount of two soybean cultivars. Significantly lower foliar nitrogen content and higher foliar sugar content and C/N ratio were observed in the sampled foliage of resistant and susceptible soybean cultivars grown under elevated CO2, which brought negative effects on the growth of S. litura, with the increment of foliar sugar content and C/N ratio were greater in the resistant soybean in contrast to the susceptible soybean. Furthermore, the increment of larval consumption was less than 50%, and the larval life span was prolonged more obvious of the larvae fed on resistant soybean compared with susceptible soybean under elevated CO2. It speculated that the future climatic change of atmospheric CO2 level arising would likely cause the increase of the soybean yield and the intake of S. litura, but the resistant soybean would improve the resistance of the target Lepidoptera pest, S. litura. [ABSTRACT FROM AUTHOR]

Published

2018

24. Litter moisture adsorption is tied to tissue structure, chemistry, and energy concentration.

Author

Talhelm, Alan F. and Smith, Alistair M. S.

Subjects

HEAT of combustion, HYDROLOGY, FOREST litter, OXIDATION states, BOTANICAL chemistry

Abstract

The ability of plant litter to adsorb water is important for wildland fire, hydrological, and biogeochemical processes. Variation in water adsorption has largely been attributed to physical differences across species, with the role of litter chemistry in moisture dynamics receiving little attention. We hypothesized that lower specific leaf area (SLA, cm²/g) and higher concentrations of hydrophobic lignin and lipid biomolecules would be associated with decreased litter water adsorption. Because plant biochemistry is tied to litter elemental and structural traits via biophysics and leaf economics, we expected to observe a suite of linked traits that were related to water adsorption, including element concentrations, carbon oxidation state, and energy concentration (DHc). In litter from 22 species, we observed greater than fourfold variation in the maximum amount of liquid water adsorbed (adsorption capacity, g/g) and in the rate at which dry litter adsorbed water vapor (adsorption rate, mg g-11 min-11); there was a significant positive relationship between adsorption capacity and adsorption rate. Broadly, litter with low SLA had a low carbon oxidation state, low oxygen and ash concentrations, and high concentrations of carbon, hydrogen, lignin, and lipids. The two metrics of water adsorption had significant negative relationships with concentrations of energy, lignin, carbon, and hydrogen, and positive relationships with litter SLA and carbon oxidation state. However, water adsorption was better predicted by combinations of SLA with chemical and energy traits. Several traits associated with decreased litter water adsorption, such as concentrations of lignin and energy, also directly influence some of the same ecosystem processes affected by litter moisture (e.g., decomposition, wildland fires). In particular, because plants with the hydrophobic traits identified in this study are more abundant in dry environments, our observations suggest a mechanism that could accentuate the influence of litter traits on ecosystem processes and which merits further research. Understanding the role of these traits in water adsorption could be used to help predict shifts in ecosystem function as plant communities reassemble as result of climate change as well as provide quantitative information on how plant species influence wildland fire dynamics. [ABSTRACT FROM AUTHOR]

Published

2018

25. Methods of Enhancing Triterpenoid Production in Yeast

Author

Scott, Samuel

Subjects

Cell Factory, CRISPR, Molecular Biology, Plant Chemistry, Plant Natural Products, Yeast

Abstract

Microbial cell factories, particularly those using eukaryotic yeasts, are ideal platforms for producing plant secondary metabolites, including flavonoids, alkaloids, and terpenoids. Accordingly, this study aimed to increase triterpenoid production in the Saccharomyces cerevisiae strain BY4743 through CRISPR/Cas9 and cultivation engineering. The ROX1, DGK1, and PAH1 genes were targeted for knockout experiments. Sanger sequencing showed all three targets were successfully mutated; however, only the DGK1 knockout strain had a significant change in triterpenoid production at 130% compared to the wild-type. Various cultivation strategies were also explored, but none increased triterpenoid production significantly. Additionally, to illustrate the potential applications of engineered yeast, five uncharacterized oxidosqualene cyclases (OSCs) from Erysimum cheiranthioides were tested in the ROX1 knockout strain, revealing one responsible for producing the steroid core of medicinal cardenolides. In summary, this thesis provides engineered yeast strains with improved MVA pathway derivative production potential and comprehensive CRISPR/Cas9 methodologies for S. cerevisiae.

Published

2023

26. Condition dependence in biosynthesized chemical defenses of an aposematic and mimetic Heliconius butterfly

Author

Mattila, Anniina LK, Jiggins, Chris D, Saastamoinen, Marjo, Mattila, Anniina LK [0000-0002-6546-6528], Jiggins, Chris D [0000-0002-7809-062X], Saastamoinen, Marjo [0000-0001-7009-2527], Apollo - University of Cambridge Repository, Botany, Plant Adaptation and Conservation, Helsinki Institute of Life Science HiLIFE, Research Centre for Ecological Change, University of Helsinki, Finnish Museum of Natural History, Faculty Common Matters (Faculty of Biology and Environmental Sciences), and Life-history Evolution Research Group

Subjects

SELECTION, Ecology, FITNESS, trade‐offs, Heliconius, PREY, SEQUESTRATION, cyanogenic glucosides, EVOLUTION, trade-offs, PLANT CHEMISTRY, HISTORY TRADE-OFFS, 1181 Ecology, evolutionary biology, chemical defenses, aposematism, condition dependence, Ecology, Evolution, Behavior and Systematics, COSTS, mimicry, Nature and Landscape Conservation, MULLERIAN MIMICRY

Abstract

Aposematic animals advertise their toxicity or unpalatability with bright warning coloration. However, acquiring and maintaining chemical defenses can be energetically costly, and consequent associations with other important traits could shape chemical defense evolution. Here, we have tested whether chemical defenses are involved in energetic trade-offs with other traits, or whether the levels of chemical defenses are condition dependent, by studying associations between biosynthesized cyanogenic toxicity and a suite of key life-history and fitness traits in a Heliconius butterfly under a controlled laboratory setting. Heliconius butterflies are well known for the diversity of their warning color patterns and widespread mimicry and can both sequester the cyanogenic glucosides of their Passiflora host plants and biosynthesize these toxins de novo. We find energetically costly life-history traits to be either unassociated or to show a general positive association with biosynthesized cyanogenic toxicity. More toxic individuals developed faster and had higher mass as adults and a tendency for increased lifespan and fecundity. These results thus indicate that toxicity level of adult butterflies may be dependent on individual condition, influenced by genetic background or earlier conditions, with maternal effects as one strong candidate mechanism. Additionally, toxicity was higher in older individuals, consistent with previous studies indicating accumulation of toxins with age. As toxicity level at death was independent of lifespan, cyanogenic glucoside compounds may have been recycled to release resources relevant for longevity in these long-living butterflies. Understanding the origins and maintenance of variation in defenses is necessary in building a more complete picture of factors shaping the evolution of aposematic and mimetic systems.

Published

2022

27. Interactive Effects of [CO2] and Temperature on Plant Chemistry of Transgenic Bt Rice and Population Dynamics of a Non-Target Planthopper, Nilaparvata lugens (Stål) under Different Levels of Soil Nitrogen

Author

Yanmin Liu, Zhihao Dang, Yanhui Wang, Megha N. Parajulee, and Fajun Chen

Subjects

elevated CO2, high temperature, fertilizer-N level, transgenic Bt rice, plant chemistry, rice planthopper, population dynamics, Medicine

Abstract

Gaining a better understanding of the interactive effect of projected atmospheric CO2 level increase and the Earth’s rising temperature on plant chemistry (nutritional and defensive characteristics) of transgenic crops is essential when attempting to forecast the responses of target and non-target insects to climate change. In this study, effects of carbon dioxide (CO2; elevated versus ambient), temperature (T; high versus low), and their interactions on leaf nitrogen content (N%) and C:N ratio of transgenic Bt rice and its non-Bt isoline grown under low- and high-N fertilizer were systematically analyzed together with the resulting insect population dynamics of a non-target planthopper Nilaparvata lugens (Stâl) in open-top-chamber experiments. The results indicated that under low-N treatment, elevated CO2 at low T (i.e., eCO2) (compared to ambient CO2 at low T, i.e., CK) significantly decreased N% and Bt-toxin content and significantly increased C:N ratio in leaf sheath and leaf of Bt rice, especially during the tillering stage, whereas inverse effects of high T were shown on the plant chemistry of Bt rice, especially during heading stage. The combination of elevated CO2 and high T (i.e., Combined) (in contrast to CK) significantly increased N% and decreased C:N ratio in leaf sheath of Bt rice during the heading stage under low-N fertilizer, while significantly decreased N% and increased C:N ratio in leaf of Bt rice during the tillering stage, regardless of fertilizer-N level, and significantly increased Bt-toxin content in leaf sheath and leaf during the tillering stage under both low- and high-N. Moreover, no discernable relationships between Bt-toxin content and N% or leaf C:N ratio were observed at any CO2 or N levels evaluated. Furthermore, transgenic treatment, temperature and fertilizer-N level interactions, and CO2 and fertilizer-N level interactions all significantly affected the population dynamics of N. lugens. Specifically, high-N significantly enhanced the population dynamics of N. lugens fed on non-Bt rice grown under eTemp and Bt cultivar significantly reduced the population dynamics of N. lugens under eCO2 regardless of N fertilizer levels. The study demonstrates that the planting of transgenic Bt rice would not increase the risk of increased N. lugens severity under the combined condition of elevated CO2 and increased temperature, particularly under moderate level of N fertility.

Published

2019

28. Carbon and nitrogen allocation shifts in plants and soils along aridity and fertility gradients in grasslands of China.

Author

Luo, Wentao, Li, Mai ‐ He, Sardans, Jordi, Lü, Xiao ‐ Tao, Wang, Chao, Peñuelas, Josep, Wang, Zhengwen, Han, Xing ‐ Guo, and Jiang, Yong

Subjects

*CARBON content of plants, *NITROGEN content of plants, *STOICHIOMETRY, *SOIL chemistry, *SOIL fertility, *PLANT-soil relationships

Abstract

Plant carbon (C) and nitrogen (N) stoichiometry play an important role in the maintenance of ecosystem structure and function. To decipher the influence of changing environment on plant C and N stoichiometry at the subcontinental scale, we studied the shoot and root C and N stoichiometry in two widely distributed and dominant genera along a 2,200-km climatic gradient in China's grasslands. Relationships between C and N concentrations and soil climatic variables factors were studied. In contrast to previous theory, plant C concentration and C:N ratios in both shoots and roots increased with increasing soil fertility and decreased with increasing aridity. Relative N allocation shifted from soils to plants and from roots to shoots with increasing aridity. Changes in the C:N ratio were associated with changes in N concentration. Dynamics of plant C concentration and C:N ratios were mainly caused by biomass reallocation and a nutrient dilution effect in the plant-soil system. Our results suggest that the shifted allocation of C and N to different ecosystem compartments under a changing environment may change the overall use of these elements by the plant-soil system. [ABSTRACT FROM AUTHOR]

Published

2017

29. Small mammal activity alters plant community composition and microbial activity in an old-field ecosystem.

Author

Moorhead, Leigh C., Souza, Lara, Habeck, Christopher W., Lindroth, Richard L., and Classen, Aimée T.

Subjects

PLANT communities, HERBIVORES, PLANT biomass, SPECIES distribution, MINERALIZATION

Abstract

Herbivores modify their environment by consuming plant biomass and redistributing materials across the landscape. While small mammalian herbivores, such as rodents, are typically inconspicuous, their impacts on plant community structure and chemistry can be large. We used a small mammal exclosure experiment to explore whether rodents in a southeastern old field directly altered the aboveground plant species composition and chemistry, and indirectly altered the belowground soil community composition and activity. In general, when rodents were excluded, C3 graminoids increased in cover and biomass, contributing toward a shift in plant species composition relative to plots where rodents were present. The plant community chemistry also shifted; plant fiber concentration and carbon : nitrogen were higher, whereas plant nitrogen concentration was lower in exclosure plots relative to access plots. While microbial community enzyme activity increased when rodents were excluded, no significant changes in the fungal : bacterial or potential nitrogen mineralization occurred between treatments. Our results show that rodents can rapidly influence aboveground plant community composition and chemistry, but their influence on belowground processes may require plant inputs to the soil to accumulate over longer periods of time. [ABSTRACT FROM AUTHOR]

Published

2017

30. Demonstrating the Effect of Surfactant on Water Retention of Waxy Leaf Surfaces.

Author

Yu-Chun Chiu, Jenks, Matthew A., Richards-Babb, Michelle, Ratcliff, Betsy B., Juvik, John A., and Kang-Mo Ku

Subjects

*SURFACE active agents, *WAXES, *AGRICULTURAL industries, *HYDROPHOBIC surfaces, *LEAVES

Abstract

We report here the development of an inexpensive and engaging laboratory-based activity that can help students learn about the scientific method and the role of plant epicuticular waxes and surfactant function on waxy plant leaves as real life example in the agricultural industry. Three each of nontreated collard leaves (Brassica oleraceae L. Acephala group) and brushed-leaves were sprayed with water to demonstrate hydrophobicity of epicuticular waxes. Another set of three nontreated collard leaves was sprayed with Tween 20 containing water to demonstrate function of surfactant. Then, water retention rate was calculated by subtracting between before and after spray treatments. Water contact angles were measured by ImageJ software from nontreated and brushed-leaves from pictures taken by students' smartphone. This lab activity provides a foundation for instruction on the importance of the plant epicuticular waxes that is the outermost hydrophobic barrier in agrochemical applications and the function of surfactant on waxy leaf surface. [ABSTRACT FROM AUTHOR]

Published

2017

31. Separation of Anthocyaninic and Nonanthocyaninic Flavonoids by Liquid–Liquid Extraction Based on Their Acid–Base Properties: A Green Chemistry Approach

Author

Alice Dias, Luís F. Sousa, Cátia I. Sampaio, and Universidade do Minho

Subjects

Green chemistry, Ciências Químicas [Ciências Naturais], Noncovalent interactions, Acids/Bases, Plant chemistry, Organic chemistry, Social Sciences, Flavones, Education, Second-year undergraduate, 03 medical and health sciences, Pigment, chemistry.chemical_compound, Flavonols, Solubility, Separation science, 030304 developmental biology, chemistry.chemical_classification, Natural products, Dyes/Pigments, 0303 health sciences, Science & Technology, 05 social sciences, Extraction (chemistry), 050301 education, General Chemistry, Ciências Naturais::Ciências Químicas, chemistry, Hands-on learning/manipulatives, visual_art, Anthocyanin, visual_art.visual_art_medium, Colorimetric analysis, 0503 education

Abstract

Anthocyanins are natural pigments belonging to the flavonoid family that originate the red, blue and purple colors of fruits, vegetables and flowers. Their structure and color are dependent of various factors, like the pH. Anthocyanins appear red in acidic, purple in neutral, and blue in basic solutions, making them suitable to be used as natural pH indicators. Thus, petals of flowers could be an attractive pedagogic tool for laboratory activities due to the highly content of anthocyanins, but the presence of copigments such as flavonols and flavones modify the anthocyanins characteristic colors in pH studies. Therefore, a simple and ecological liquid-liquid extraction was developed for the separation of anthocyaninic and non-anthocyaninic flavonoids, based on the different acid-base properties of these two classes of pigments. Treatment with NaOH allowed the detection of non-anthocyanin flavonoids in the organic phase through the development of a deep yellow color. Colorimetric analysis of the aqueous anthocyaninic fractions enabled visualization of the typical colors from different forms of anthocyanins, demonstrating the efficacy of the separation method. It was also possible to distinguish if the red pigments of the flower were anthocyanins or betalains. Thus, the beautiful colors of flowers make them an accessible and attractive source of pigments that can be used to demonstrate acid-base base properties of organic molecules, solid-liquid and liquid-liquid extraction techniques, intermolecular interactions and solubility properties. This protocol could be implemented in practical classes of chemistry and biochemistry degrees, being particularly useful to teach fundamentals of organic chemistry and color chemistry., The authors are thankful to University of Minho for support provided through laboratory facilities and equipment and financial provision through Centro IDEA-UMinho, and to FCT – Fundação para a Ciência e Tecnologia through Chemistry Research Centre of the University of Minho (UID/QUI/00686/2016 and UID/QUI/00686/2018).

Published

2020

32. International Journal of Secondary Metabolite

Subjects

phenolic compounds, secondary metabolites, plant biotechnology, plant physiology, plant chemistry, antioxidant, Agriculture, Plant culture, SB1-1110

Published

2015

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

Author

Geem, Moniek, Gols, Rieta, Raaijmakers, Ciska, and Harvey, Jeffrey

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. [ABSTRACT FROM AUTHOR]

Published

2016

34. Chemicals on plant surfaces as a heretofore unrecognized, but ecologically informative, class for investigations into plant defence.

Author

LoPresti, Eric F.

Subjects

*PLANT chemical defenses, *PLANT surfaces, *PLANT diversity, *PLANT physiology, *PLANT ecology, *PLANT evolution, *QUALITATIVE chemical analysis

Abstract

ABSTRACT Plants produce and utilize a great diversity of chemicals for a variety of physiological and ecological purposes. Many of these chemicals defend plants against herbivores, pathogens and competitors. The location of these chemicals varies within the plant, some are located entirely within plant tissues, others exist in the air- (or water-) space around plants, and still others are secreted onto plant surfaces as exudates. I argue herein that the location of a given defensive chemical has profound implications for its ecological function; specifically, I focus on the characteristics of chemical defences secreted onto plant surfaces. Drawing from a broad literature encompassing ecology, evolution, taxonomy and physiology, I found that these external chemical defences ( ECDs) are common and widespread in plants and algae; hundreds of examples have been detailed, yet they are not delineated as a separate class from internal chemical defences ( ICDs). I propose a novel typology for ECDs and, using existing literature, explore the ecological consequences of the hypothesized unique characteristics of ECDs. The axis of total or proportional investment in ECDs versus ICDs should be considered as one axis of investment by a plant, in the same way as quantitative versus qualitative chemical defences or induced versus constitutive defences is considered. The ease of manipulating ECDs in many plant systems presents a powerful tool to help test plant defence theory (e.g. optimal defence). The framework outlined here integrates various disciplines of botany and ecology and suggests a need for further examinations of exudates in a variety of contexts, as well as recognition of the effects of within-plant localization of defences. [ABSTRACT FROM AUTHOR]

Published

2016

35. Using Mung Beans as a Simple, Informative Means To Evaluate the Phytotoxicity of Engineered Nanomaterials and Introduce the Concept of Nanophytotoxicity to Undergraduate Students.

Author

Ross, Shailise S., Owen, Matthew J., Pedersen, Brian P., Gang-yu Liu, and Miller, William J. W.

Subjects

*MUNG bean, *PHYTOTOXICITY, *NANOSTRUCTURED materials, *UNDERGRADUATES, *SILICA, *ZINC oxide

Abstract

This work presents a lecture and lab series that focuses on teaching the concept of nanophytotoxicity to undergraduate students in a relatively simple experiment. In this experiment, students evaluated the phytotoxicity of engineered nanomaterials (ENMs) using mung beans (i.e., Vigna radiata) and industrially relevant, commercially available ENMs, silicon dioxide (SiO2xide (ZnO) nanoparticles (NPs). In comparison to the control system using solutions of Nanopure water, the growth of mung beans in solutions of ZnO NPs with a concentration of 20 mg/L was severely stunted, showing clear evidence of a high level of nanophytotoxicity. The growth of mung beans in solutions of SiO2 NPs with the same concentration was intermediate to, though statistically separate from, the aforementioned solutions, showing clear evidence of a lower level of nanophytotoxicity than for the ZnO NPs. The simplicity of the experiment and the clear phytotoxic results should make this experiment of interest to many types of students including science majors, nonmajors, and high school students. [ABSTRACT FROM AUTHOR]

Published

2016

36. Making a Natural Product Chemistry Course Meaningful with a Mini Project Laboratory.

Author

Hakim, Aliefman, Liliasari, Kadarohman, Asep, and Syah, Yana Maolana

Subjects

*NATURAL products, *CHEMISTRY education, *PHARMACY, *METABOLITES, *MEDICINAL plants, *CELL fractionation

Abstract

This paper discusses laboratory activities that can improve the meaningfulness of natural product chemistry course. These laboratory activities can be useful for students from many different disciplines including chemistry, pharmacy, and medicine. Students at the third-year undergraduate level of chemistry education undertake the project to isolate secondary metabolites from medicinal plants. This project provides opportunities for students to design their own activities to isolate secondary metabolites from medicinal plants. Students were exposed to skills as extraction, fractionation, purification, and structural elucidation of secondary metabolites. In this project, two secondary metabolites were successfully isolated from medicinal plants. The implementation of this project improved students' understanding of natural product chemistry. [ABSTRACT FROM AUTHOR]

Published

2016

37. Stilbenes in the different organs of Vitis vinifera cv. Merlot grafted on Teleki Kober 5BB rootstock

Author

Gyöngyi Németh, Orsolya Hegyi, Attila Dunai, and Laszlo Kocsis

Subjects

grape organs, stilbene, cane, bud, root, polyphenols, plant chemistry, Agriculture, Botany, QK1-989

Abstract

Aim: To determine which of the grapevine organ is the richest in stilbene, like the t-piceid, t-resveratrol and ε-viniferin and would it be useful as by-product of viticulture for processing stilbene concentrate. Methods and results: Nine organs, such as cane, buds, shoot tips, inflorescences, clusters at veraison, matured berry skins, seeds and cluster stems, of Merlot grafted on Teleki Kober 5BB rootstock were collected during a year and its ethanolic extractions were analyzed via HPLC-FLD. Stilbene content of the different organs occurred in a wide range, the lowest was 3.15 mg/kg dry weight (dw) measured in the seeds and the highest 2265 mg/kg dw in the buds. Conclusion: The present research demonstrated that different grapevine organs contain different amount of stilbene in the vineyard. The winter-buds, the roots and the matured cane internodes of Merlot are significantly richer in t-resveratrol and t-ε-viniferin than the green vegetative and generative parts we examined in one growing year. Significance and impact of the study: According to our knowledge there was no stilbenes measuring in several plant organs of a vine cultivar in field study, in vineyard. Our research pointed out the pruned cane could be primary source of stilbene of the health-industry. Beside that grape root is a by-product of grapevine nursery is also rich in stilbene.

Published

2017

38. Organic Chemistry and the Native Plants of the Sonoran Desert: Conversion of Jojoba Oil to Biodiesel.

Author

Daconta, Lisa V., Minger, Timothy, Nedelkova, Valentina, and Zikopoulos, John N.

Subjects

*ORGANIC chemistry education, *NATIVE plants, *JOJOBA, *OXIDATION of biodiesel fuels, *THIN layer chromatography

Abstract

A new, general approach to the organic chemistry laboratory is introduced that is based on learning about organic chemistry techniques and research methods by exploring the natural products found in local native plants. As an example of this approach for the Sonoran desert region, the extraction of jojoba oil and its transesterification to biodiesel are presented. The oil of jojoba seeds contains a large quantity of wax esters that are smoothly converted to biodiesel using various methods. The biodiesel is isolated using preparative thin layer chromatography, and infrared and NMR spectroscopies are used to evaluate the product. Either traditional expository ("cookbook") or guided inquiry approaches may be used. [ABSTRACT FROM AUTHOR]

Published

2015

39. Determination of Plant Volatiles Using Solid Phase Microextraction GC-MS.

Author

Van Bramer, Scott and Goodrich, Katherine R.

Subjects

*SOLID phase extraction, *BOTANICAL chemistry, *GAS chromatography/Mass spectrometry (GC-MS), *EXTRACTION techniques, *BIOSYNTHESIS, *ORGANIC chemistry research

Abstract

This experiment combines analytical techniques of solid phase microextraction and gas chromatography--mass spectrometry with easily relatable and accessible plant volatile chemistry (floral and vegetative scents of local/available plants). The biosynthesis and structure of these chemicals are of interest in the areas of organic chemistry, biochemistry, and molecular biology. This laboratory exercise is well-suited for a broad range of cross-disciplinary topics in chemistry and biology courses. The methods described here could be used to expose undergraduate chemistry students to broad aspects of biological volatile chemistry in plants, and alternatively, to expose undergraduate biology students to analytical chemistry techniques useful in the study of plant biology and plant--insect interactions. [ABSTRACT FROM AUTHOR]

Published

2015

40. "Supermarket Column Chromatography of Leaf Pigments" Revisited: Simple and Ecofriendly Separation of Plant Carotenoids, Chlorophylls, and Flavonoids from Green and Red Leaves.

Author

Dias, Alice M. and Ferreira, Maria La Salete

Subjects

*EXTRACTION (Chemistry), *SEPARATION (Technology), *ORGANIC chemistry, *XANTHOPHYLLS, *CHLOROPHYLL, *FLAVONOIDS

Abstract

A simple and ecofriendly procedure was developed in order to prepare extracts from red and green leaves. This procedure enables the separation of yellow, green, and red band pigments and optimizes the previously reported baking soda "supermarket column". The same extract also led to a novel and colorful potato starch column, which can efficiently separate β-carotene, xanthophylls, chlorophylls a and b, and flavonoids. Thus, two simple and attractive supermarket columns are presented that may be implemented either in university or high-school practical classes. The challenges associated with separation of these pigments, which have diverse physical and chemical properties, will improve the expected learning outcomes of these activities. [ABSTRACT FROM AUTHOR]

Published

2015

41. Carbon and nitrogen allocation shifts in plants and soils along aridity and fertility gradients in grasslands of China

Subjects

Transect, Biomass allocation, Climatic gradient, Plant chemistry, Nutrient availability

Published

2021

42. Miljøovervåkingsprogram for Nyhamna landanlegg – Nyhamna, Gossa. Overvåking av vegetasjon og jord – endringer i kjemiske parametere fra 2008 til 2020

Author

Jokerud, Mari, Bargmann, Tessa, Vassvik, Linn, Bakkestuen, Vegar, Kyrkjeeide, Magni Olsen, and Uggerud, Hilde Thelle

Subjects

bogs, Plantekjemi, Plant chemistry, Air pollution, ground water analyses, jordvannanalyser, heathland, Vegetasjon, kystlynghei, miljøovervåking, soil analyses, acidification, prosessanlegg, Oljeindustri, process plant, Oil industry, heavy metals, environmental monitoring, Vegetation, eutrofiering, species composition, nitrogengjødsling, tungmetaller, nitrogen fertilization, re-analyses, eutrophication, jordanalyser, forsuring, artssammensetning, nedbørsmyr, gjenanalyser, Luftforurensing

Abstract

Jokerud, M., Bargmann, T., Vassvik L., Bakkestuen, V., Kyrkjeeide, M.O. & Uggerud, H.T. 2021. Miljøovervåkingsprogram for Nyhamna landanlegg – Nyhamna, Gossa. Overvåking av vegetasjon og jord – endringer i kjemiske parametere fra 2008 til 2020. NINA Rapport 1934. Norsk institutt for naturforskning. A/S Norske Shell sitt landanlegg i Nyhamna på øya Gossa i Aukra kommune mottar ubehandlet gass og lettolje (kondensat) fra Ormen Lange-feltet i Norskehavet. Fra og med desember 2018 får Nyhamna også tilført ubehandlet gass fra Aasta Hansteen-feltet. Ved produksjon av salgs-gass og kondensat slipper landanlegget ut CO, CO2, NOx, CH4, NMVOC (inklusive BTEX), SO2 og mindre mengder tungmetaller etter utslippstillatelse gitt av Miljødirektoratet. Utslipp av nitrogen og svovelholdige gasser kan generelt påvirke terrestriske økosystemer ved forsuring og gjødsling av jordsmonn og vegetasjon. For å kunne dokumentere eventuelle effekter av utslipp til luft av forurensende stoffer, ble det i 2008 etablert en overvåking av vegetasjon, vann og jord i påvirkningsområdet fra Nyhamna landanlegg. Overvåkingen er videreført med noen justeringer i metodikk siden oppstart. Det ble i 2008 opprettet to overvåkingsområder, ett med relativt høy avsetning av nitrogen nord-øst for anlegget innenfor Gule-Stavikmyrane naturreservat i Fræna kommune (lokalitet Gulmyran), og ett sørvest for landanlegget på øya Gossa med mindre nitrogenavsetning (lokalitet Aukra, referanselokalitet). Etter analysen i 2016 anbefalte NINA å legge ned lokalitet Aukra, fordi den ikke lengre egnet seg som referanseområde på grunn av høyt beitetrykk fra hjortevilt, for nær beliggenhet til utslipp fra prosessanlegget på Nyhamna og lokal forurensing fra biltrafikk og nærliggende grøfting av myrområdet. I 2018 ble det derfor etablert en ny referanselokalitet innenfor Lomstjønna naturreservat på Harøya i Ålesund kommune. Kystlyngheiene på Gulmyran har en mer fuktig utforming enn ved Lomstjønna. Derfor ble det i 2020 opprettet to nye analysefelter av kystlynghei på Gulmyran med en tørrere utforming som ligner kystlyngheia på Lomstjønna, og ett av de tidligere analysefeltene ble lagt ned. Innen hvert område utføres en integrert overvåking av vegetasjonens artssammensetning og kjemisk innhold i planter, humusjord og jordvann i tre ulike næringsfattige vegetasjonstyper: 1) kystlynghei, 2) tuemyr og 3) fastmattemyr, begge de to siste på nedbørsmyr. Disse vegetasjonstypene anses å ha lave tålegrenser for forurensing og er følsomme for forsuring og eutrofiering. I tillegg ble det utført optiske målinger av plantenes grønnhet (NDVI), som gir en indikasjon på helsetilstanden til vegetasjonen. Her rapporteres resultater fra vegetasjonsundersøkelsen, og de kjemiske målingene av plantevev, jord og jordvann på Gulmyran og Lomstjønna i 2020, samt en vurdering av endring av målte parametere over tid. Generelt viser analysene at både de terrestriske og akvatiske økosystemer er i relativt god til-stand på begge lokaliteter. Vegetasjonsanalysene viser at vegetasjonen i alle tre naturtyper har en ganske lik artssammensetning på Lomstjønna og Gulmyran. Utvalget av de nye kystlyngheifeltene på Gulmyran har således vært vellykket. Det er heller ingen store endringer i vegetasjonen over tid, men graminiden torvull har økt i mengde på myrfeltene på Gulmyran. Dette kan være en begynnende eutrofiering av vegetasjonen på grunn av økt nitrogenavsetning. Analysen av plantekjemien viser også at endringene over analyseårene er relativt små. Innholdet av både makro-næringsstoffer og sporelementer i plantevevsprøver er også sammenlignbare mellom lokalitetene. Innholdet av tungmetaller i plantevevsprøvene fra Gulmyran har hatt en generell nedgang. I likhet med analysene gjort på plantevevet viser de kjemiske analysene av jordvann og humusjord fra 2008 til 2020 små endringer i de overvåkede parametere på lokaliteten Gulmyran. Selv om det har vært en signifikant nedgang i pH i både jord og jordvann over analyseårene, er pH verdiene tilsvarende på Lomstjønna, og utviklingen er lik på begge lokalitetene. Utviklingen i nitrogeninnholdet i jord og jordvann er også nokså lik på begge lokalitetene, og er foreløpig ikke forårsaket av nitrogenutslipp fra landanlegget. Konsentrasjonen av tungmetallene i både jord og jordvann er relativt små, og alle signifikante endringer på Gulmyran mellom 2008 og 2020 viser tilbakegang av elementene. Det er likevel noe bekymringsfullt at innholdet av alle tungmetallene har økt i humusjord fra Gulmyran fra 2018 til 2020. Foreløpig er det liten grunn til å tro at endringer i de fleste av parameterne skyldes utslipp fra Nyhamna landanlegg. Likevel er det viktig at man fortsetter innsamling av eksisterende parametere for bedre å vurdere utviklingen på Gulmyran i forhold til den nyopprettede referanselokaliteten, særlig gjelder dette den videre utviklingen av tungmetaller og økningen de to siste årene.

Published

2021

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

Author

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

Subjects

Biology, plant chemistry, precipitation, Poaceae, Nutrient, Abundance (ecology), biogeochemistry, Grazing, Animals, ionomics, grazing, nutrient dilution, Herbivory, Ecology, Evolution, Behavior and Systematics, plant biomass, Herbivore, Biomass (ecology), Ecology, food and beverages, Biogeochemistry, Plants, Grassland, herbivores, Agronomy, North America, Forb, Cattle, Ionomics

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

44. Elemental composition of serpentine plants depends on habitat affinity and organ type.

Author

DeHart, Kyle S., Meindl, George A., Bain, Daniel J., and Ashman, Tia-Lynn

Subjects

*CHEMICAL composition of plants, *SERPENTINE plants, *SERPENTINE in soils, *HABITATS, *PLANT nutrients, *CONCENTRATION functions

Abstract

Serpentine soils represent a stressful growing environment for most plants due to a number of edaphic factors, including low concentrations of plant nutrients and high concentrations of heavy metals. Plants in these environments range from weakly resistant to strictly endemic, yet it remains unclear whether serpentine habitat affinity affects plant chemistry, including elemental distribution among various organs. We address this knowledge gap using three confamilial pairs of endemic and non-endemic plants. First, we determined total and phytoavailable soil concentrations of four nutrients (Ca, Mg, P, K) and three heavy metals (Co, Cr, Ni) across 11 serpentine study sites. Next, we determined the concentrations of these elements in leaves, flowers, and seeds in plants of each species growing on serpentine soil. Soils at the study sites were characteristically high in concentrations of Mg, Ni, Co and Cr, and low in K, P and Ca relative to non-serpentine soils. Habitat affinity was critical in determining the organ concentrations of Ca, Mg, K, and Co, although concentration often varied by organ type. Relative to non-endemics, endemics had higher concentrations of Mg and K across all organ types, whereas Ca concentrations were higher for non-endemics in the leaves but equal for the two reproductive organs. While no difference was observed in Ni or Cr concentrations, endemics contained 56% less Co than non-endemics across all organ types. These results suggest that serpentine endemics are more effective at acquiring potentially limiting nutrients compared to non-endemic species, but both endemic and non-endemic plants exclude most phytotoxic heavy metals. Therefore, growth on serpentine requires common physiological responses of all plants, though high variation in uptake of some key nutrients and exclusion of some metals may reflect differential adaptation to serpentines by non-endemic and endemic plants. [ABSTRACT FROM AUTHOR]

Published

2014

45. Soybean Oil: Powering a High School Investigation of Biodiesel.

Author

De La Rosa, Paul, Azurin, Katherine A., and Page, Michael F. Z.

Subjects

*SOY oil, *BIODIESEL fuels, *CHEMISTRY education, *SECONDARY education, *CHEMICAL synthesis, *RENEWABLE natural resources

Abstract

This laboratory investigation challenges students to synthesize, analyze, and compare viable alternative fuels to Diesel No. 2 using a renewable resource, as well as readily available reagents and supplies. During the experiment, students synthesized biodiesel from soybean oil in an average percent yield of 83.8 ± 6.3%. They then prepared fuel samples consisting of commercial Diesel No. 2, B100 (100% biodiesel), and blended B20 (80:20 Diesel No. 2 to biodiesel). During analysis, the students determined that the fuels contained an average energy value of 3626.2 ± 622.0 kJ/kg (B100), 3675.6 ± 723.7 kJ/kg (B20), and 4349.5 ± 1019.2 kJ/kg (Diesel No. 2). The experiment requires three 50 min lab periods and reinforces crosscutting educational science standards. It can enrich science discussions in either a high school or an introductory university chemistry class regarding sustainability and stewardship. [ABSTRACT FROM AUTHOR]

Published

2014

46. Integrating Biology into the General Chemistry Laboratory: Fluorometric Analysis of Chlorophyll a.

Author

Wesolowski, Meredith C.

Subjects

*SCIENTIFIC experimentation, *CHLOROPHYLL, *SPIRULINA, *SOLVENTS, *LEAVES

Abstract

A laboratory experiment that introduces fluorometry of chlorophyll a at the general chemistry level is described. The use of thin-layer chromatography to isolate chlorophyll a from spirulina and leaf matter enables quantification of small amounts of chlorophyll a via fluorometry. Student results were reasonably comparable to those found in the literature. This experiment uses relatively low volumes of organic solvents and an inexpensive fluorescence spectrometer (such as a Vernier SpectroVis Plus). The method could also be adapted for inquiry-based laboratories comparing chlorophyll a levels in plants, algae, and photosynthetic bacteria. [ABSTRACT FROM AUTHOR]

Published

2014

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

Author

Bedoya-Pérez, Miguel, Issa, Daniel, Banks, Peter, and McArthur, Clare

Subjects

*HERBIVORES, *PLANT nutrients, *PLANT chemical defenses, *PLANT protection, *PREDATION

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. [ABSTRACT FROM AUTHOR]

Published

2014

48. Imaging spectroscopy links aspen genotype with below-ground processes at landscape scales.

Author

Madritch, Michael D., Kingdon, Clayton C., Singh, Aditya, Mock, Karen E., Lindroth, Richard L., and Townsend, Philip A.

Subjects

*BIODIVERSITY, *GENOTYPES, *GENETICS, *ECOSYSTEMS

Abstract

Fine-scale biodiversity is increasingly recognized as important to ecosystem-level processes. Remote sensing technologies have great potential to estimate both biodiversity and ecosystem function over large spatial scales. Here, we demonstrate the capacity of imaging spectroscopy to discriminate among genotypes of Populus tremuloides (trembling aspen), one of the most genetically diverse and widespread forest species in North America. We combine imaging spectroscopy (AVIRIS) data with genetic, phytochemical, microbial and biogeochemical data to determine how intraspecific plant genetic variation influences below-ground processes at landscape scales. We demonstrate that both canopy chemistry and below-ground processes vary over large spatial scales (continental) according to aspen genotype. Imaging spectrometer data distinguish aspen genotypes through variation in canopy spectral signature. In addition, foliar spectral variation correlates well with variation in canopy chemistry, especially condensed tannins. Variation in aspen canopy chemistry, in turn, is correlated with variation in below-ground processes. Variation in spectra also correlates well with variation in soil traits. These findings indicate that forest tree species can create spatial mosaics of ecosystem functioning across large spatial scales and that these patterns can be quantified via remote sensing techniques. Moreover, they demonstrate the utility of using optical properties as proxies for fine-scale measurements of biodiversity over large spatial scales. [ABSTRACT FROM AUTHOR]

Published

2014

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

Author

Chinchilla, Nuria, Durán, Alexandra G., Carrera, Ceferino, Ayuso, Jesús, and Macías, Francisco A.

Subjects

*HERBICIDE research, *APPLICATION of agricultural chemicals, *FUNGICIDES, *EXPERIMENTAL methods in education, *AGRICULTURAL education, *TEACHING aids

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". [ABSTRACT FROM AUTHOR]

Published

2014

50. Uptake and Impact of Silver Nanoparticles on Brassica rapa: An Environmental Nanoscience Laboratory Sequence for a Nonmajors Course.

Author

Metz, Kevin M., Sanders, Stephanie E., Miller, Anna K., and French, Katelyn R.

Subjects

*NANOSCIENCE, *SCIENCE education research, *ENGINEERING education, *CURRICULUM research, *TEACHING aids

Abstract

Nanoscience is one of the fast growing fields in science and engineering. Curricular materials ranging from laboratory experiments to entire courses have been developed for undergraduate science majors. However, little material has been developed for the nonmajor students. Here we present a semester-long laboratory sequence developed for a nonmajors course, where students investigate the potential environmental impacts of nanoscience. Students synthesize and characterize silver nanoparticles using green synthetic methods. They then use the suspension of silver nanoparticles to "water" Wisconsin Fast Plants, Brassica rapa, over a three to four week period to simulate environmental exposure. Possible impacts are examined throughout the growth period, and silver uptake by the plants is quantified at the end of the growth period. This lab requires design input from the student, making it an open-ended experiment. Although designed for nonmajors, this lab could easily be adapted for an environmental chemistry or chemical nanoscience course. [ABSTRACT FROM AUTHOR]

Published

2014