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29 results on '"biotic stressors"'

2. Harnessing biotechnology and breeding strategies for climate-resilient agriculture: pathways to sustainable global food security.

Author

Ngongolo, Kelvin and Mmbando, Gideon Sadikiel

Subjects
SUSTAINABILITY, BIOTECHNOLOGY, CULTIVARS, AGRICULTURE, SUSTAINABLE agriculture, DROUGHTS
Abstract

Climate change poses a critical threat to global food security, intensifying the vulnerability of agricultural systems. As traditional crop varieties buckle under the strain of erratic temperature shifts, altered rainfall, and increasingly violent weather, the urgency for innovative solutions grows. Climate-smart agriculture emerges as a vital response, yet the path forward feels uncertain, shadowed by the scale of these challenges. This review delves into the cutting-edge breeding strategies aimed at bolstering crop resilience, with genomic and biotechnological innovations taking center stage. Developing crops that can endure heat, drought, and salinity is crucial, but the stakes are high. The hope is that these innovations will stabilize yields and foster sustainable practices, though the outcomes remain unclear. For policymakers, researchers, and stakeholders, the question lingers: Will these advancements be enough to navigate the growing storm of food insecurity? [ABSTRACT FROM AUTHOR]

Published
2024
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3. Harnessing biotechnology and breeding strategies for climate-resilient agriculture: pathways to sustainable global food security

Author

Kelvin Ngongolo and Gideon Sadikiel Mmbando

Subjects
Agriculture, Resilience, Sustainability, Biotic stressors, Abiotic stress tolerance, Environmental sciences, GE1-350
Abstract

Abstract Climate change poses a critical threat to global food security, intensifying the vulnerability of agricultural systems. As traditional crop varieties buckle under the strain of erratic temperature shifts, altered rainfall, and increasingly violent weather, the urgency for innovative solutions grows. Climate-smart agriculture emerges as a vital response, yet the path forward feels uncertain, shadowed by the scale of these challenges. This review delves into the cutting-edge breeding strategies aimed at bolstering crop resilience, with genomic and biotechnological innovations taking center stage. Developing crops that can endure heat, drought, and salinity is crucial, but the stakes are high. The hope is that these innovations will stabilize yields and foster sustainable practices, though the outcomes remain unclear. For policymakers, researchers, and stakeholders, the question lingers: Will these advancements be enough to navigate the growing storm of food insecurity?

Published
2024
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4. Sugarcane sustainability in a changing climate: a systematic review on pests, diseases, and adaptive strategies.

Author

Msomba, Bahati Hakimu, Ndaki, Patrick Madulu, and Joseph, Charles O.

Subjects
AGRICULTURAL technology, INTEGRATED pest control, PEST control, GEOGRAPHIC information systems, SUGARCANE
Abstract

The cultivation of sugarcane (Saccharum officinarum L.) in the face of climate change requires robust strategies for managing pests, diseases, and weeds. This systematic review exposes critical deficiencies in current practices and underscores the need for climate-adaptive strategies. Climate change differentially influences pest behaviour, disease progression, and weed growth across various regions, yet the lack of region-specific responses impairs effective management. The review emphasizes the necessity for localized approaches that consider specific climatic conditions and the development of predictive models to anticipate pest and disease outbreaks. These models include Decision Support Systems (DSS), Support Vector Machines (SVM), Susceptible-Exposed-Infectious-Recovered (SEIR) models, Geographic Information Systems (GIS), Species Distribution Models (SDMs), Agricultural Production Systems sIMulator (APSIM), and Integrated Pest Management (IPM). Crucial strategies encompass integrated pest and disease management, adaptive breeding, precision agriculture, and ongoing innovation. Precision agriculture technologies, such as remote sensing and drones, enable early detection and prompt interventions. By adopting these adaptive measures and addressing existing research gaps, the sugarcane industry can bolster its resilience and maintain productivity amidst evolving climatic conditions. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Current honey bee stressor investigations and mitigation methods in the United States and Canada.

Author

Walsh, Elizabeth M and Simone-Finstrom, Michael

Subjects
*HONEYBEES, *INSECT pollinators, *BEEKEEPING, *BEEKEEPERS, *POLLINATORS, *VARROA destructor, *PROFESSIONAL associations
Abstract

Honey bees are the most important managed insect pollinators in the US and Canadian crop systems. However, the annual mortality of colonies in the past 15 years has been consistently higher than historical records. Because they are eusocial generalist pollinators and amenable to management, honey bees provide a unique opportunity to investigate a wide range of questions at molecular, organismal, and ecological scales. Here, the American Association of Professional Apiculturists (AAPA) and the Canadian Association of Professional Apiculturists (CAPA) created 2 collections of articles featuring investigations on micro and macro aspects of honey bee health, sociobiology, and management showcasing new applied research from diverse groups studying honey bees (Apis mellifera) in the United States and Canada. Research presented in this special issue includes examinations of abiotic and biotic stressors of honey bees, and evaluations and introductions of various stress mitigation measures that may be valuable to both scientists and the beekeeping community. These investigations from throughout the United States and Canada showcase the wide breadth of current work done and point out areas that need further research. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Sugarcane sustainability in a changing climate: a systematic review on pests, diseases, and adaptive strategies

Author

Bahati Hakimu Msomba, Patrick Madulu Ndaki, and Charles O. Joseph

Subjects
agroecology, biotic stressors, climate adaptation, crop resilience, environmental impact, integrated pest management, Agriculture, Plant culture, SB1-1110
Abstract

The cultivation of sugarcane (Saccharum officinarum L.) in the face of climate change requires robust strategies for managing pests, diseases, and weeds. This systematic review exposes critical deficiencies in current practices and underscores the need for climate-adaptive strategies. Climate change differentially influences pest behaviour, disease progression, and weed growth across various regions, yet the lack of region-specific responses impairs effective management. The review emphasizes the necessity for localized approaches that consider specific climatic conditions and the development of predictive models to anticipate pest and disease outbreaks. These models include Decision Support Systems (DSS), Support Vector Machines (SVM), Susceptible-Exposed-Infectious-Recovered (SEIR) models, Geographic Information Systems (GIS), Species Distribution Models (SDMs), Agricultural Production Systems sIMulator (APSIM), and Integrated Pest Management (IPM). Crucial strategies encompass integrated pest and disease management, adaptive breeding, precision agriculture, and ongoing innovation. Precision agriculture technologies, such as remote sensing and drones, enable early detection and prompt interventions. By adopting these adaptive measures and addressing existing research gaps, the sugarcane industry can bolster its resilience and maintain productivity amidst evolving climatic conditions.Systematic review registrationhttps://www.bmj.com/content/372/bmj.n71.

Published
2024
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9. Diversity and Traits of Multiple Biotic Stressors Elicit Differential Defense Responses in Legumes.

Author

Basu, Saumik, Moroz, Natalia, Lee, Benjamin W., Tanaka, Kiwamu, Oeller, Liesl, Baerlocher, Chase W., and Crowder, David W.

Subjects
PLANT chemical defenses, PLANT defenses, PEA aphid, REACTIVE oxygen species, LEAF area, CUCUMBER mosaic virus, LEGUMES, PEAS
Abstract

In agroecosystems, plants frequently confront multiple biotic stressors, including herbivores and pathogens. The nature of these interactions plays a crucial role in mediating the activation of plant defense mechanisms. However, induction of plant chemical defenses has been more well studied than the induction of physical defenses. Here, we assessed the physical and chemical defense responses of pea (Pisum sativum) plants after exposure to three stressors: a vector herbivore (pea aphid, Acrythosiphon pisum), a non-vector herbivore (pea leaf weevil, Sitona lineatus), and a virus (Pea enation mosaic virus, PEMV). We used various histochemical staining techniques show that viruliferous A. pisum (transmitting PEMV) strongly induced callose deposition (aniline blue staining) and antioxidant-mediated defenses (DAB and NBT staining) in peas, primarily through accumulating reactive oxygen species (ROS). High-throughput phenotyping showed that viruliferous aphids reduced plant photosynthetic efficiency, but plants infected with PEMV had increased cell death (trypan blue staining). However, herbivory by aphids and weevils did not strongly induce defenses in peas, even though weevil feeding significantly reduced pea leaf area. These results show that not all herbivores induce strong defensive responses, and plant responses to vector species depends on their virus infection status. More broadly, our results indicate that variable stressors differentially regulate various plant responses through intricate chemical and physical defense pathways. [ABSTRACT FROM AUTHOR]

Published
2023
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12. Decoding Metabolic Reprogramming in Plants under Pathogen Attacks, a Comprehensive Review of Emerging Metabolomics Technologies to Maximize Their Applications.

Author

Serag, Ahmed, Salem, Mohamed A., Gong, Shilin, Wu, Jian-Lin, and Farag, Mohamed A.

Subjects
PHYTOPATHOGENIC microorganisms, PHENYLPROPANOIDS, CHEMICAL plants, METABOLOMICS, MASS spectrometry
Abstract

In their environment, plants interact with a multitude of living organisms and have to cope with a large variety of aggressions of biotic or abiotic origin. What has been known for several decades is that the extraordinary variety of chemical compounds the plants are capable of synthesizing may be estimated in the range of hundreds of thousands, but only a fraction has been fully characterized to be implicated in defense responses. Despite the vast importance of these metabolites for plants and also for human health, our knowledge about their biosynthetic pathways and functions is still fragmentary. Recent progress has been made particularly for the phenylpropanoids and oxylipids metabolism, which is more emphasized in this review. With an increasing interest in monitoring plant metabolic reprogramming, the development of advanced analysis methods should now follow. This review capitalizes on the advanced technologies used in metabolome mapping in planta, including different metabolomics approaches, imaging, flux analysis, and interpretation using bioinformatics tools. Advantages and limitations with regards to the application of each technique towards monitoring which metabolite class or type are highlighted, with special emphasis on the necessary future developments to better mirror such intricate metabolic interactions in planta. [ABSTRACT FROM AUTHOR]

Published
2023
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13. Sustaining productivity gains in the face of climate change: A research agenda for US wheat.

Author

Kusunose, Yoko, Rossi, Jairus J., Van Sanford, David A., Alderman, Phillip D., Anderson, James A., Yuan Chai, Gerullis, Maria K., Krishna Jagadish, S. V., Paul, Pierce A., Tack, Jesse B., and Wright, Brian D.

Subjects
*CLIMATE research, *CLIMATE change, *WHEAT, *FIELD crops, *PUBLIC universities & colleges
Abstract

Wheat is a globally important crop and one of the “big three” US field crops. But unlike the other two (maize and soybean), in the United States its development is commercially unattractive, and so its breeding takes place primarily in public universities. Troublingly, the incentive structures within these universities may be hindering genetic improvement just as climate change is complicating breeding efforts. “Business as usual” in the US public wheat-breeding infrastructure may not sustain productivity increases. To address this concern, we held a multidisciplinary conference in which researchers from 12 US (public) universities and one European university shared the current state of knowledge in their disciplines, aired concerns, and proposed initiatives that could facilitate maintaining genetic improvement of wheat in the face of climate change. We discovered that climate-change- oriented breeding efforts are currently considered too risky and/or costly for most university wheat breeders to undertake, leading to a relative lack of breeding efforts that focus on abiotic stressors such as drought and heat. We hypothesize that this risk/cost burden can be reduced through the development of appropriate germplasm, relevant screening mechanisms, consistent germplasm characterization, and innovative models predicting the performance of germplasm under projected future climate conditions. However, doing so will require coordinated, longer-term, inter-regional efforts to generate phenotype data, and the modification of incentive structures to consistently reward such efforts. [ABSTRACT FROM AUTHOR]

Published
2023
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14. Diversity and Traits of Multiple Biotic Stressors Elicit Differential Defense Responses in Legumes

Author

Saumik Basu, Natalia Moroz, Benjamin W. Lee, Kiwamu Tanaka, Liesl Oeller, Chase W. Baerlocher, and David W. Crowder

Subjects
plant defense, callose deposition, reactive oxygen species, biotic stressors, phenotyping, cell death, Agriculture (General), S1-972
Abstract

In agroecosystems, plants frequently confront multiple biotic stressors, including herbivores and pathogens. The nature of these interactions plays a crucial role in mediating the activation of plant defense mechanisms. However, induction of plant chemical defenses has been more well studied than the induction of physical defenses. Here, we assessed the physical and chemical defense responses of pea (Pisum sativum) plants after exposure to three stressors: a vector herbivore (pea aphid, Acrythosiphon pisum), a non-vector herbivore (pea leaf weevil, Sitona lineatus), and a virus (Pea enation mosaic virus, PEMV). We used various histochemical staining techniques show that viruliferous A. pisum (transmitting PEMV) strongly induced callose deposition (aniline blue staining) and antioxidant-mediated defenses (DAB and NBT staining) in peas, primarily through accumulating reactive oxygen species (ROS). High-throughput phenotyping showed that viruliferous aphids reduced plant photosynthetic efficiency, but plants infected with PEMV had increased cell death (trypan blue staining). However, herbivory by aphids and weevils did not strongly induce defenses in peas, even though weevil feeding significantly reduced pea leaf area. These results show that not all herbivores induce strong defensive responses, and plant responses to vector species depends on their virus infection status. More broadly, our results indicate that variable stressors differentially regulate various plant responses through intricate chemical and physical defense pathways.

Published
2023
Full Text
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15. Early transcriptional response pathways in Daphnia magna are coordinated in networks of crustacean‐specific genes

Author

Orsini, Luisa, Brown, James B, Solari, Omid Shams, Li, Dong, He, Shan, Podicheti, Ram, Stoiber, Marcus H, Spanier, Katina I, Gilbert, Donald, Jansen, Mieke, Rusch, Douglas B, Pfrender, Michael E, Colbourne, John K, Frilander, Mikko J, Kvist, Jouni, Decaestecker, Ellen, De Schamphelaere, Karel AC, and De Meester, Luc

Subjects
Genetics, 2.1 Biological and endogenous factors, Aetiology, Underpinning research, 1.1 Normal biological development and functioning, Animals, Conserved Sequence, Daphnia, Gene Expression Regulation, Gene Regulatory Networks, Genome, Genotype, Multigene Family, Transcription, Genetic, abiotic stressors, biotic stressors, differential co-expression networks, differential gene expression, ecological gene annotation, ecoresponsive genes, waterflea, Biological Sciences, Evolutionary Biology
Abstract

Natural habitats are exposed to an increasing number of environmental stressors that cause important ecological consequences. However, the multifarious nature of environmental change, the strength and the relative timing of each stressor largely limit our understanding of biological responses to environmental change. In particular, early response to unpredictable environmental change, critical to survival and fitness in later life stages, is largely uncharacterized. Here, we characterize the early transcriptional response of the keystone species Daphnia magna to twelve environmental perturbations, including biotic and abiotic stressors. We first perform a differential expression analysis aimed at identifying differential regulation of individual genes in response to stress. This preliminary analysis revealed that a few individual genes were responsive to environmental perturbations and they were modulated in a stressor and genotype-specific manner. Given the limited number of differentially regulated genes, we were unable to identify pathways involved in stress response. Hence, to gain a better understanding of the genetic and functional foundation of tolerance to multiple environmental stressors, we leveraged the correlative nature of networks and performed a weighted gene co-expression network analysis. We discovered that approximately one-third of the Daphnia genes, enriched for metabolism, cell signalling and general stress response, drives transcriptional early response to environmental stress and it is shared among genetic backgrounds. This initial response is followed by a genotype- and/or condition-specific transcriptional response with a strong genotype-by-environment interaction. Intriguingly, genotype- and condition-specific transcriptional response is found in genes not conserved beyond crustaceans, suggesting niche-specific adaptation.

Published
2018

16. Evaluation of insect pest occurrence in areas of calamitous mortality of Scots pine

Author

Liška Jan, Knížek Miloš, and Véle Adam

Subjects
pinus sylvestris, biotic stressors, coleoptera, hymenoptera, lepidoptera, central europe, Forestry, SD1-669.5
Abstract

Pinus sylvestris is an important production tree. In recent years, there has been a sharp increase in the mortality of pine trees due to insect pests. It is obvious that some pests profit from climatic changes, increase their aggressiveness and spread to new localities. The study aimed to investigate the spectrum of more abundant insect pest species in pine plantations of Czechia. The occurrence of species and intensity of their infestation were studied at 77 localities situated in six regions. Any abundant foliophagous insect species were noticed. Bark beetles and wood-boring insects were found to be prevalent. Namely, Ips acuminatus, Ips sexdentatus, Phaenops cyanea and Sirex noctilio seem to be the most dangerous. These species are now better competitors than species previously considered as main pests. Their aggressiveness, expansion to new areas and interspecies co-occurrence are alarming. Due to the advancing climate change, pine mortality due to bark beetles and wood-boring pests will probably continue to increase.

Published
2021
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17. Selective biotic stressors' action on seed germination: A review.

Author

Begum, Kohinoor, Hasan, Nazmul, and Shammi, Mashura

Subjects
*SEED coats (Botany), *GERMINATION, *SUSTAINABILITY, *BACTERIAL toxins, *CELL physiology, *ENVIRONMENTAL health, *WEEDS, *SEEDLINGS
Abstract

In the realm of plant biology and agriculture, seed germination serves as a fundamental process with far-reaching implications for crop production and environmental health. This comprehensive review seeks to unravel the intricate web of interactions between some biotic stressors and seed germination, addressing the pertinent issue of how these stressors influence seed germination. Different chemicals produced by interacting plants (different parts), fungi, bacteria, or insects can either promote or inhibit seed germination. Releasing chemicals that modulate signaling pathways and cellular processes significantly disrupt essential cellular functions. This disruption leads to diverse germination outcomes, introducing additional layers of complexity to this regulatory landscape. The chemicals perturb enzyme activity and membrane integrity, imposing unique challenges on the germination process. Understanding the mechanisms- how allelochemicals, mycotoxins, or bacterial toxins affect seed germination or the modes of action holds promise for more sustainable agricultural practices, enhanced pest control, and improved environmental outcomes. In sum, this review contributes to a fundamental exposition of the pivotal role of biotic stressors in shaping the germination of seeds. • Seed biology is influenced by the size, structure, and the thickness of the seed coat, affecting seed mortality, permeability, hydration rate, and seedling emergence. • Allelochemicals inhibit or promote seed germination and weed growth. • Allelopathic interactions between crops and weeds can promote sustainable weed management. • Mycotoxins inhibit seed germination through enzymes, hormones, and gene disruption. • Mycotoxins induce oxidative stress and seed coat properties, impacting the food chain. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Decoding Metabolic Reprogramming in Plants under Pathogen Attacks, a Comprehensive Review of Emerging Metabolomics Technologies to Maximize Their Applications

Author

Ahmed Serag, Mohamed A. Salem, Shilin Gong, Jian-Lin Wu, and Mohamed A. Farag

Subjects
biotic stressors, defense response, mass spectrometry, metabolic reprogramming, metabolomics, plants, Microbiology, QR1-502
Abstract

In their environment, plants interact with a multitude of living organisms and have to cope with a large variety of aggressions of biotic or abiotic origin. What has been known for several decades is that the extraordinary variety of chemical compounds the plants are capable of synthesizing may be estimated in the range of hundreds of thousands, but only a fraction has been fully characterized to be implicated in defense responses. Despite the vast importance of these metabolites for plants and also for human health, our knowledge about their biosynthetic pathways and functions is still fragmentary. Recent progress has been made particularly for the phenylpropanoids and oxylipids metabolism, which is more emphasized in this review. With an increasing interest in monitoring plant metabolic reprogramming, the development of advanced analysis methods should now follow. This review capitalizes on the advanced technologies used in metabolome mapping in planta, including different metabolomics approaches, imaging, flux analysis, and interpretation using bioinformatics tools. Advantages and limitations with regards to the application of each technique towards monitoring which metabolite class or type are highlighted, with special emphasis on the necessary future developments to better mirror such intricate metabolic interactions in planta.

Published
2023
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20. The Role of Heavy Metals in Plant Response to Biotic Stress.

Author

Morkunas, Iwona, Woźniak, Agnieszka, Van Chung Mai, Rucińska-Sobkowiak, Renata, and Jeandet, Philippe

Subjects
*HEAVY metals, *PATHOGENIC fungi, *HORMESIS, *HERBIVORES, *APHIDS
Abstract

The present review discusses the impact of heavy metals on the growth of plants at different concentrations, paying particular attention to the hormesis effect. Within the past decade, study of the hormesis phenomenon has generated considerable interest because it was considered not only in the framework of plant growth stimulation but also as an adaptive response of plants to a low level of stress which in turn can play an important role in their responses to other stress factors. In this review, we focused on the defence mechanisms of plants as a response to different metal ion doses and during the crosstalk between metal ions and biotic stressors such as insects and pathogenic fungi. Issues relating to metal ion acquisition and ion homeostasis that may be essential for the survival of plants, pathogens and herbivores competing in the same environment were highlighted. Besides, the influence of heavy metals on insects, especially aphids and pathogenic fungi, was shown. Our intention was also to shed light on the relationship between heavy metals deposition in the environment and ecological communities formed under a strong selective pressure. [ABSTRACT FROM AUTHOR]

Published
2018
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21. Early transcriptional response pathways in <italic>Daphnia magna</italic> are coordinated in networks of crustacean‐specific genes.

Author

Orsini, Luisa, Brown, James B., Shams Solari, Omid, Li, Dong, He, Shan, Podicheti, Ram, Stoiber, Marcus H., Spanier, Katina I., Gilbert, Donald, Jansen, Mieke, Rusch, Douglas B., Pfrender, Michael E., Colbourne, John K., Frilander, Mikko J., Kvist, Jouni, Decaestecker, Ellen, De Schamphelaere, Karel A. C., and De Meester, Luc

Subjects
*DAPHNIA magna, *CRUSTACEAN genetics, *CELL communication, *GENE expression, *ECOLOGICAL disturbances, *INVERTEBRATES
Abstract

Abstract: Natural habitats are exposed to an increasing number of environmental stressors that cause important ecological consequences. However, the multifarious nature of environmental change, the strength and the relative timing of each stressor largely limit our understanding of biological responses to environmental change. In particular, early response to unpredictable environmental change, critical to survival and fitness in later life stages, is largely uncharacterized. Here, we characterize the early transcriptional response of the keystone species Daphnia magna to twelve environmental perturbations, including biotic and abiotic stressors. We first perform a differential expression analysis aimed at identifying differential regulation of individual genes in response to stress. This preliminary analysis revealed that a few individual genes were responsive to environmental perturbations and they were modulated in a stressor and genotype‐specific manner. Given the limited number of differentially regulated genes, we were unable to identify pathways involved in stress response. Hence, to gain a better understanding of the genetic and functional foundation of tolerance to multiple environmental stressors, we leveraged the correlative nature of networks and performed a weighted gene co‐expression network analysis. We discovered that approximately one‐third of the Daphnia genes, enriched for metabolism, cell signalling and general stress response, drives transcriptional early response to environmental stress and it is shared among genetic backgrounds. This initial response is followed by a genotype‐ and/or condition‐specific transcriptional response with a strong genotype‐by‐environment interaction. Intriguingly, genotype‐ and condition‐specific transcriptional response is found in genes not conserved beyond crustaceans, suggesting niche‐specific adaptation. [ABSTRACT FROM AUTHOR]

Published
2018
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22. Evaluation of insect pest occurrence in areas of calamitous mortality of Scots pine

Author

Miloš Knížek, Adam Véle, and Jan Liška

Subjects
0106 biological sciences, coleoptera, biology, Scots pine, Forestry, biotic stressors, SD1-669.5, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, pinus sylvestris, Insect pest, 010602 entomology, central europe, Agronomy, hymenoptera, lepidoptera
Abstract

Pinus sylvestris is an important production tree. In recent years, there has been a sharp increase in the mortality of pine trees due to insect pests. It is obvious that some pests profit from climatic changes, increase their aggressiveness and spread to new localities. The study aimed to investigate the spectrum of more abundant insect pest species in pine plantations of Czechia. The occurrence of species and intensity of their infestation were studied at 77 localities situated in six regions. Any abundant foliophagous insect species were noticed. Bark beetles and wood-boring insects were found to be prevalent. Namely, Ips acuminatus, Ips sexdentatus, Phaenops cyanea and Sirex noctilio seem to be the most dangerous. These species are now better competitors than species previously considered as main pests. Their aggressiveness, expansion to new areas and interspecies co-occurrence are alarming. Due to the advancing climate change, pine mortality due to bark beetles and wood-boring pests will probably continue to increase.

Published
2021

23. Silicon and Plant Natural Defenses against Insect Pests: Impact on Plant Volatile Organic Compounds and Cascade Effects on Multitrophic Interactions

Author

Nicolas Leroy, Félix de Tombeur, Yseult Walgraffe, Jean-Thomas Cornélis, and François J. Verheggen

Subjects
silicon, attraction, chemical cues, insect-plant interactions, biotic stressors, vocs, Botany, QK1-989
Abstract

Environmental factors controlling silicon (Si) accumulation in terrestrial plant are key drivers to alleviate plant biotic stresses, including insect herbivory. While there is a general agreement on the ability of Si-enriched plant to better resist insect feeding, recent studies suggest that Si also primes biochemical defense pathways in various plant families. In this review, we first summarize how soil parameters and climate variables influence Si assimilation in plants. Then, we describe recent evidences on the ability of Si to modulate plant volatile emissions, with potential cascade effects on phytophagous insects and higher trophic levels. Even though the mechanisms still need to be elucidated, Si accumulation in plants leads to contrasting effects on the levels of the three major phytohormones, namely jasmonic acid, salicylic acid and ethylene, resulting in modified emissions of plant volatile organic compounds. Herbivore-induced plant volatiles would be particularly impacted by Si concentration in plant tissues, resulting in a cascade effect on the attraction of natural enemies of pests, known to locate their prey or hosts based on plant volatile cues. Since seven of the top 10 most important crops in the world are Si-accumulating Poaceae species, it is important to discuss the potential of Si mobility in soil-plant systems as a novel component of an integrated pest management.

Published
2019
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24. Salamander Antipredator Defenses: A Field Exercise to Engage Students in Ecosystem Dynamics.

Author

CONNELLY, SANDRA J., MEIER, KATELYN, and BECKER, MADELINE

Subjects
*SALAMANDER behavior, *ECOSYSTEM dynamics, *PREDATION, *ABIOTIC stress, *ANIMAL behavior
Abstract

The addition of field experimentation to the theory of behavioral biology and ecosystem science creates a significant critical thinking link for students at all levels. First-hand observations of the responses of salamanders in the field permit students to see how organisms behave in their natural habitat. This exercise introduces students to the study of animal behavior, specifically the antipredator responses of salamanders. The students form hypotheses regarding the behavior of salamanders in their natural environment and then record responses of individual salamanders, compile data, interpret data, and draw conclusions about the behavior of salamanders in response to natural stressors. [ABSTRACT FROM AUTHOR]

Published
2017
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25. Synergistic interactions of biotic and abiotic environmental stressors on gene expression.

Author

Altshuler, Ianina, McLeod, Anne M., Colbourne, John K., Yan, Norman D., Cristescu, Melania E., and Belzile, F.

Subjects
*ANIMALS, *GENE expression, *DAPHNIA pulex, *CALCIUM-binding proteins, *HOMEOSTASIS, ENVIRONMENTAL aspects
Abstract

Understanding the response of organisms to multiple stressors is critical for predicting if populations can adapt to rapid environmental change. Natural and anthropogenic stressors often interact, complicating general predictions. In this study, we examined the interactive and cumulative effects of two common environmental stressors, lowered calcium concentration, an anthropogenic stressor, and predator presence, a natural stressor, on the water flea Daphnia pulex. We analyzed expression changes of five genes involved in calcium homeostasis - cuticle proteins ( Cutie, Icp2), calbindin ( Calb), and calcium pump and channel ( Serca and Ip3R) - using real-time quantitative PCR (RT-qPCR) in a full factorial experiment. We observed strong synergistic interactions between low calcium concentration and predator presence. While the Ip3R gene was not affected by the stressors, the other four genes were affected in their transcriptional levels by the combination of the stressors. Transcriptional patterns of genes that code for cuticle proteins ( Cutie and Icp2) and a sarcoplasmic calcium pump ( Serca) only responded to the combination of stressors, changing their relative expression levels in a synergistic response, while a calcium-binding protein ( Calb) responded to low calcium stress and the combination of both stressors. The expression pattern of these genes ( Cutie, Icp2, and Serca) were nonlinear, yet they were dose dependent across the calcium gradient. Multiple stressors can have complex, often unexpected effects on ecosystems. This study demonstrates that the dominant interaction for the set of tested genes appears to be synergism. We argue that gene expression patterns can be used to understand and predict the type of interaction expected when organisms are exposed simultaneously to natural and anthropogenic stressors. [ABSTRACT FROM AUTHOR]

Published
2015
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26. Early transcriptional response pathways in Daphnia magna are coordinated in networks of crustacean-specific genes

Author

Jouni Kvist, Mieke Jansen, Luc De Meester, Katina I. Spanier, Karel A.C. De Schamphelaere, Omid Shams Solari, Marcus H. Stoiber, Mikko J. Frilander, John K. Colbourne, Shan He, Ellen Decaestecker, Dong Li, Ram Podicheti, Donald L. Gilbert, James B. Brown, Douglas B. Rusch, Michael E. Pfrender, and Luisa Orsini

Subjects
0301 basic medicine, differential co-expression networks, Transcription, Genetic, Environmental change, Genotype, 1.1 Normal biological development and functioning, Gene regulatory network, biotic stressors, ecological gene annotation, Biology, Daphnia, abiotic stressors, Article, 03 medical and health sciences, Genetic, Underpinning research, Genetics, Animals, 2.1 Biological and endogenous factors, Gene Regulatory Networks, Aetiology, differential gene expression, Gene, Ecology, Evolution, Behavior and Systematics, Conserved Sequence, Regulation of gene expression, Evolutionary Biology, Genome, Stressor, waterflea, Biological Sciences, biology.organism_classification, ecoresponsive genes, 030104 developmental biology, Gene Expression Regulation, Multigene Family, Adaptation, Functional genomics, Transcription
Abstract

Natural habitats are exposed to an increasing number of environmental stressors that cause important ecological consequences. However, the multifarious nature of environmental change, the strength and the relative timing of each stressor largely limit our understanding of biological responses to environmental change. In particu- lar, early response to unpredictable environmental change, critical to survival and fitness in later life stages, is largely uncharacterized. Here, we characterize the early transcriptional response of the keystone species Daphnia magna to twelve environmental perturbations, including biotic and abiotic stressors. We first perform a differential expression analysis aimed at identifying differential regulation of individual genes in response to stress. This preliminary analysis revealed that a few individual genes were responsive to environmental perturbations and they were modulated in a stressor and genotype-specific manner. Given the limited number of differentially regulated genes, we were unable to identify pathways involved in stress response. Hence, to gain a better understanding of the genetic and functional foundation of tolerance to multiple environmental stressors, we leveraged the correlative nature of networks and performed a weighted gene co-expression network analysis. We discovered that approximately one-third of the Daphnia genes, enriched for metabo- lism, cell signalling and general stress response, drives transcriptional early response to environmental stress and it is shared among genetic backgrounds. This initial response is followed by a genotype- and/or condition-specific transcriptional response with a strong genotype-by-environment interaction. Intriguingly, genotype- and condition-specific transcriptional response is found in genes not conserved beyond crustaceans, suggesting niche-specific adaptation. ispartof: Molecular Ecology vol:2018 issue:27 pages:886-897 ispartof: location:England status: published

Published
2018

27. Silicon as a plant defence against insect herbivory: response to Massey, Ennos and Hartley.

Author

Keeping, Malcolm G. and Kvedaras, Olivia L.

Subjects
*SILICON in agriculture, *PLANT nutrition, *PLANT resistance to insects, *PHYTOPATHOGENIC microorganisms, *INSECT-plant relationships, *HERBIVORES, *FOLIVORES, *PHLOEM, *SILICA, *PLANT chemical defenses, *MAMMALS
Abstract

1. Silicon (Si) has received increased attention as a nutrient capable of providing some measure of defence for plants against fungal pathogens, and insect and mammalian herbivores. 2. On the basis of a study including two generalist insect folivores and a phloem feeder, Massey, Ennos & Hartley (2006 ; Journal of Animal Ecology, 75, 595–603) have drawn attention to a putative distinction between the effects of plant Si in defending against folivorous and phloem-feeding insects. On the basis of their results they imply that phloem feeders are less likely to be adversely affected by increased plant Si than folivores. 3. However, in making this suggestion, Massey et al. have ignored many previous studies demonstrating a clear effect of plant Si on a range of phloem-feeding and some xylem-feeding insects, and that this effect stems not only from leaf mechanical properties based on opaline silica, but also from induced chemical defences seemingly mediated by soluble Si. 4. Furthermore, Massey et al. cannot claim that their study was the first demonstration of a direct effect of Si on insect herbivore preference and performance; there have been numerous earlier studies demonstrating this from folivores, stem borers, and phloem and xylem feeders. 5. We contend that current evidence indicates that Si is likely to be involved to a similar extent in enhancing resistance to all four insect feeding guilds and that any conclusion to the contrary is, at this stage, premature. [ABSTRACT FROM AUTHOR]

Published
2008
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28. Silicon and Plant Natural Defenses against Insect Pests: Impact on Plant Volatile Organic Compounds and Cascade Effects on Multitrophic Interactions.

Author

Leroy, Nicolas, de Tombeur, Félix, Walgraffe, Yseult, Cornélis, Jean-Thomas, and Verheggen, François J.

Subjects
VOLATILE organic compounds, INSECT pests, PLANT defenses, INTEGRATED pest control, PLANT parasites, INSECT defenses
Abstract

Environmental factors controlling silicon (Si) accumulation in terrestrial plant are key drivers to alleviate plant biotic stresses, including insect herbivory. While there is a general agreement on the ability of Si-enriched plant to better resist insect feeding, recent studies suggest that Si also primes biochemical defense pathways in various plant families. In this review, we first summarize how soil parameters and climate variables influence Si assimilation in plants. Then, we describe recent evidences on the ability of Si to modulate plant volatile emissions, with potential cascade effects on phytophagous insects and higher trophic levels. Even though the mechanisms still need to be elucidated, Si accumulation in plants leads to contrasting effects on the levels of the three major phytohormones, namely jasmonic acid, salicylic acid and ethylene, resulting in modified emissions of plant volatile organic compounds. Herbivore-induced plant volatiles would be particularly impacted by Si concentration in plant tissues, resulting in a cascade effect on the attraction of natural enemies of pests, known to locate their prey or hosts based on plant volatile cues. Since seven of the top 10 most important crops in the world are Si-accumulating Poaceae species, it is important to discuss the potential of Si mobility in soil-plant systems as a novel component of an integrated pest management. [ABSTRACT FROM AUTHOR]

Published
2019
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