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Imaginary insects follow a continuous maze through the core of Planet Holox.
An insect type creature that looks like a four legged spider and stands eight feet tall invades Earth. These insectoids are called the Mandubie (Man-doo-be). All they want from Earth is the gold, turquoise and blue sapphire. They love gold and the color blue. However; they also love he taste of rotting flesh. Humans serve the Mandubie as mentally controlled laborers and food. Will there be enough humans to feed the Mandubie until they finish getting what they want? That's up to you. Read and learn how to fight an eight foot tall Mandubie.
Mighty mozzarella! A swarm of hungry insects is chewing up everything in Muskrat City. Even Superstilton's and Swiftpaw's capes have more holes in them than two slices of Swiss! Can the Heromice figure out who's behind the insect invasion? And can these bad bugs be stopped before they take over the city?
Biological Invasions and Global Insect Decline offers the most updated knowledge on how invasive alien species affect insect diversity worldwide. The book provides ongoing research and the most relevant information, covering the main aspects of the impact of biological invasions as well as future insights on mitigation and consequences. It discusses how the introduction of all kinds of organisms, from bacteria and plants to vertebrates, affect current declines in insect diversity. The latter portion of the book delves into existent and future monitoring and management programs, including citizen science and regenerative ecology as socio-ecological solutions to combat these threats. Written and edited by international experts on invasion ecology and insect conservation, this book explores the role of global change and the introduction of invasive species in altering the structure of habitats and how this induces a global insect decline. This will be a valuable resource for entomologists, invasion biologists and other researchers in biodiversity conservation, as well as practitioners and stakeholders concerned about problematic invasive alien species and insect population decline. - Offers a concise vision of one of the main causes of insect extinctions in the Anthropocene - Discusses community ecology, insect conservation, species interactions, restoration ecology - Led by a team of editors whose expertise includes invasive alien species, invasion ecology, insect species diversity, and species conservation
The Synchronicity War is over and the Insectoid beachheads in our spiral arm have been destroyed but the aftermath of the war holds some nasty surprises for Humanity and its loyal AI allies. Somebody is messing with the human timeline. Is it the Friendlies, the Sogas, the Insectoids or a new race? This stand alone novel set in the same universe has new human and AI characters. Find out what happened to Valkyrie, Casanova, Iceman, Gunslinger and the other Rim AIs. The Retro War spans time and space in a galactic chess game with humans and their AIs as the pawns.
This overview of the roles of alien species in insect conservation brings together information, evidence and examples from many parts of the world to illustrate their impacts (often severe, but in many cases poorly understood and unpredictable) as one of the primary drivers of species declines, ecological changes and biotic homogenisation. Both accidental and deliberate movements of species are involved, with alien invasive plants and insects the major groups of concern for their influences on native insects and their environments. Risk assessments, stimulated largely through fears of non-target impacts of classical biological control agents introduced for pest management, have provided valuable lessons for wider conservation biology. They emphasise the needs for effective biosecurity, risk avoidance and minimisation, and evaluation and management of alien invasive species as both major components of many insect species conservation programmes and harbingers of change in invaded communities. The spread of highly adaptable ecological generalist invasive species, which are commonly difficult to detect or monitor, can be linked to declines and losses of numerous localised ecologically specialised insects and disruptions to intricate ecological interactions and functions, and create novel interactions with far-reaching consequences for the receiving environments. Understanding invasion processes and predicting impacts of alien species on susceptible native insects is an important theme in practical insect conservation.
Insects are a group of abundant and diverse organisms that have successfully adapted to the most challenging conditions on earth. The success of insects in adverse environments indicates the advanced defense mechanisms employed by these organisms, but they are often targeted by specialized microorganisms (viruses, bacteria, nematodes, & fungi) and parasitoids. Insects exhibit both humoral and cellular immune responses against pathogens. The lack of an adaptive immune system has compelled insects to choose immediate non-specific but sophisticated responses that include the production of antimicrobial peptides, phenoloxidase, apoptosis, phagocytosis, encapsulation, and nodulation. In recent decades, technological advances have been made in decrypting the molecular and mechanistic basis of insect immunity. However, there is a need to understand the insect immune responses to single or mixed encounters. Future challenges include a better understanding of functional cooperation of various endosymbiotic microbes and their role in insect defenses. Post-transcriptional modulation of immune responses regulated by non-coding RNAs (microRNA & long non-coding RNAs) has become critically important to study by using modern bioinformatics and experimental tools. Therefore, investigating the dynamics of insect immune responses will substantially increase the capacity for confronting harmful agricultural and medical pests. Furthermore, most insect cellular immune activities have been conducted in a laboratory setting, therefore confirming the existing knowledge in a natural environment would provide crucial information.
Insect Biodiversity: Science and Society brings togetherleading scientific experts to assess the impact insects have onhumankind and the earth’s fragile ecosystems. It examines whyinsect biodiversity matters and how the rapid evolution of insectspecies is affecting us all. Insects and related arthropods make up more than 50 percent ofthe known animal diversity globally, yet a lack of knowledge aboutinsects is hindering the advance of science and society. This bookexplores the wide variety in type and number of insect species andtheir evolutionary relationships. Case studies offer assessments onhow insect biodiversity can help meet the needs of a rapidlyexpanding human population, and also examine the consequences thatan increased loss of insect species will have on the world. The book concludes that a better understanding of the biologyand ecology of insects is the only way to sustainably manageecosystems in an ever changing global environment.
Advances in Insect Physiology publishes volumes containing important, comprehensive and in-depth reviews on all aspects of insect physiology. It is an essential reference source for invertebrate physiologists and neurobiologists, entomologists, zoologists and insect biochemists. First published in 1963, the serial is now edited by Steven Simpson and Jerome Casas to provide an international perspective. - Contributions from the leading researchers in entomology - Discusses physiological diversity in insects - Includes in-depth reviews with valuable information for a variety of entomology disciplines