Tag Archives: insects

Newly Discovered Receptors in Plants Help Them Recover from Environmental Changes, Pests, and Plant Wounds, MU Study Shows

By Guest PostJanuary 20, 2014Scienceadenosine triphosphate, atp, cell, energy source, environmental changes, environmental events, extracellular atp signaling, gary stacey, insects, jeongmin choi, kiwamu tanaka, newly discovered, pests, plant wounds, receptors in plants, recover, university of missouri

Discovery could lead to herbicides, fertilizers and pesticides that naturally work with plants to make them stronger

COLUMBIA, Mo. – ATP (adenosine triphosphate) is the main energy source inside a cell and is considered to be the high energy molecule that drives all life processes in animals and humans. Outside the cell, membrane receptors that attract ATP drive muscle control, neurotransmission, inflammation and development. Now, researchers at the University of Missouri have found the same receptor in plants and believe it to be a vital component in the way plants respond to dangers, including pests, environmental changes and plant wounds. This discovery could lead to herbicides, fertilizers and insect repellants that naturally work with plants to make them stronger. (more…)

Mutant Champions Save Imperiled Species from Almost-Certain Extinction

By Guest PostFebruary 25, 2013Scienceantibiotics, bacterium, benjamin kerr, changing environments, climate change, disease causing bacteria, e coli, environmental changes, environmental deterioration, escherichia coli, eth zurich, evolutionary adaptations, evolutionary rescue, extinction, extinction bullet, genes, genetic engineering, haley lindsey, heavy metals, high concentration environment, human caused changes, imperiled species, insects, jenna gallie, lower concentration, mutant champions, number of factors, overfishing, pesticides, population, populations of microorganisms, rapid rates, relay team, seattle, susan taylor, university of washington

Species facing widespread and rapid environmental changes can sometimes evolve quickly enough to dodge the extinction bullet. Populations of disease-causing bacteria evolve, for example, as doctors flood their “environment,” the human body, with antibiotics. Insects, animals and plants can make evolutionary adaptations in response to pesticides, heavy metals and overfishing.

Previous studies have shown that the more gradual the change, the better the chances for “evolutionary rescue” – the process of mutations occurring fast enough to allow a population to avoid extinction in changing environments. One obvious reason is that more individuals remain alive when change is gradual or moderate, meaning there are more opportunities for a winning mutation to emerge. (more…)

Southwest Regional Warming Likely Cause of Pinyon Pine Cone Decline, Says CU Study

By Guest PostFebruary 18, 2013Environmentbird, black bears, black chinned hummingbirds, boulder, climate change, climate warming trend, cone initiation, creeping climate change, crossbill, dramatic warming, drought, ecologists, ecosphere study, ecosystems, environmental stimulus, fire, forcella, frank forcella, germination, growing season, impact, increases in temperatures, insects, jeffry mitton, lower elevations, mammal species, masting events, miranda redmond, negative effect, new mexico, northern arizona, northwestern oklahoma, nut carrying cones, nutcrackers, pinyon pine, pinyon pine reproduction, pinyon pine seedlings, pollination, precipitation, season, southwest, temperature, university, university of colorado, us tree, woodland ecosystems

Creeping climate change in the Southwest appears to be having a negative effect on pinyon pine reproduction, a finding with implications for wildlife species sharing the same woodland ecosystems, says a University of Colorado Boulder-led study.

The new study showed that pinyon pine seed cone production declined by an average of about 40 percent at nine study sites in New Mexico and northwestern Oklahoma over the past four decades, said CU-Boulder doctoral student Miranda Redmond, who led the study. The biggest declines in pinyon pine seed cone reproduction were at the higher elevation research sites experiencing more dramatic warming relative to lower elevations, said Redmond of CU’s ecology and evolutionary biology department. (more…)

Flies of the World Embrace Vegetarianism

By Guest PostFebruary 2, 2013Nature, Scienceagricultural pests, animal kingdom, australia, bracken ferns, brassicas, canolas, change of lifestyle, convergent phenotypes, cyanogenic compounds, detoxify the plants, earth, evolutionary biologists, Facebook, family drosophilidae, fly detectives, genetic changes, genetic pathways, genome biology evolution, good model organisms, hawaii, hawaiian lineage, herbivores, herbivorous fly species, insects, levels of alcohol, microbe eating flies, mt lemmon, mustard plants, new zealand, noah whiteman, North America, north american flies, organisms, papua new guinea, richard lapoint, scaptomyza nigrita, South Pacific, toxic plants, united kingdom, university of arizona, vegetarianism

Microbe-eating flies from at least three different locations around the world recently have evolved into herbivores, feeding on some of the most toxic plants on Earth. Fly detectives and UA evolutionary biologists Noah Whiteman and Richard Lapoint are trying to find out what genetic pathways led the flies to such a major change of lifestyle.

For millennia, they buzzed through the woods, contentedly munching yeasts off the surfaces of leaves, bracken and rotting duff on the forest floor. But now, flies in the family Drosophilidae, whose disparate members dwell in areas all across the planet, have evolved into all-out vegetarians with a wicked diet of plants that are deadly to most other organisms.

What, University of Arizona scientists would like to know, has caused these flies, yeast-feeders for nearly 80 million years, to independently go cold turkey with respect to their formerly meaty diets? (more…)

Moths Wired Two Ways to Take Advantage of Floral Potluck

By Guest PostDecember 9, 2012Naturearizona, behavior, brain, brain activity, bright green, buffet, caterpillar, channels, chemical composition, favored blossoms, floral environment, flower, hong lei, humans, insects, jeffrey riffell, john hildebrand, leif abrell, manduca sexta, mechanism, moth, naive moths, neural pathways, neurobiology, north, olfactory information, oxygenated aromatic compounds, pollinator, process, scent samples, science express, scientist, sources of nectar, south america, soybean, tobacco hornworms, university, Washington

Moths are able to enjoy a pollinator’s buffet of flowers – in spite of being among the insect world’s picky eaters – because of two distinct “channels” in their brains, scientists at the University of Washington and University of Arizona have discovered.

One olfactory channel governs innate preferences of the palm-sized hawk moths that were studied – insects capable of traveling miles in a single night in search of favored blossoms. The other allows them to learn about alternate sources of nectar when their first choices are not available.

For moths, the ability to seek and remember alternate sources of food helps them survive harsh, food-deprived conditions. Scientists knew bees could learn, but this is the first proof that moths can too. (more…)

Cambrian Fossil Pushes Back Evolution of Complex Brains

By Guest PostOctober 10, 2012Nature, Scienceancient animal, arachnids, arizona, arthropods, brain anatomy, branchiopod brain, branchiopods, brine shrimp, cambrian fossil, cambrian period, China, common ancestor, complex brain, course, crustaceans, dna sequence, evolution, evolutionary biologist, fuxianhuia protensa, gregory edgecombe, hypothesis, insects, malacostracans, microscope, missing link, modern brain, modern malacostracan, molecular data, morphology, mudstone, multicellular animals, Nature, neural anatomy, neurobiologist, neurocladistics, neuropils, nicholas strausfeld, optic lobes, origin, sensory organ, species, taxonomic group, transformative discovery, university, xianguang hou, xiaoya ma, yunnan province, yunnan university. kunming

Complex brains evolved much earlier than previously thought, as evidenced by a 520-million-year-old fossilized arthropod with remarkably well-preserved brain structures.

The remarkably well-preserved fossil of an extinct arthropod shows that anatomically complex brains evolved earlier than previously thought and have changed little over the course of evolution. According to University of Arizona neurobiologist Nicholas Strausfeld, who co-authored the study describing the specimen, the fossil is the earliest known to show a brain.

The discovery will be published in the Oct. 11 issue of the journal Nature. (more…)

Study Proves that One Extinction Leads to Another

By Guest PostAugust 15, 2012Natureafrican plains, aphids, carnivore, ecosystem, extinction, food web, frank van veen, insects, parasitic wasps, predatory fish, predatory species, ripple effect, university of exeter

When a carnivore becomes extinct, other predatory species could soon follow, according to new research.

Scientists have previously put forward this theory, but a University of Exeter team has now carried out the first experiment to prove it.

Published today (15 August 2012) in the Royal Society journal Biology Letters, the study shows how the demise of one carnivore species can indirectly cause another to become extinct. The University of Exeter team believes any extinction can create a ripple effect across a food web, with far-reaching consequences for many other animals. (more…)

Science Fair Winner Publishes New Study on Butterfly Foraging Behavior

By Guest PostMay 4, 2012Natureadrian duehl, agricultural fields, alexandra, alexandra sourakov, andrei sourakov, blue morpho, blue morpho butterfly, butterflies, butterfly, butterfly rainforest, clipper butterfly, ecology, electroantennography, evolutionary biology, fermented bananas, foraging behavior, gas chromatography, honey, insects, labial palpi, lepidopterist, mango, mass spectrometry, moths, pollinators, teenage daughter, university of florida

GAINESVILLE, Fla. — University of Florida lepidopterist Andrei Sourakov has spent his life’s work studying moths and butterflies. But it was his teenage daughter, Alexandra, who led research on how color impacts butterflies’ feeding patterns.

The research shows different species exhibit unique foraging behaviors, and the study may be used to build more effective, species-specific synthetic lures for understanding pollinators, insects on which humans depend for sustaining many crops.

In a study appearing online in April in the journal Psyche, researchers used multi-colored landing pads and baits in the Florida Museum of Natural History’s McGuire Center for Lepidoptera and Biodiversity on the UF campus to determine that some butterflies use both sight and smell to locate food, while others rely primarily on smell. (more…)