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Carbon stocks and fluxes associated with land-use and land-cover change in mangrove ecosystems: A systematic review protocol
Coastal mangrove forests are known as one of the most productive ecosystems and efficient carbon (C) sinks on the planet. Mangroves store a substantial amount of organic C in below-ground sediment, which is known as “blue carbon (C)”. As anthropogenic factors have caused greenhouse gas (GHG) emissions and sea levels to increase, mangrove blue C has become a part of global climate change negotiations due to its potential for storing C and mitigating GHG emissions. However, these coastal forests are also currently under threat from major land-use and land-cover changes (LULCC) for aquaculture and agriculture, resulting in large amounts of deforested and degraded mangrove areas globally. Little is known about the range of impacts different LULCC have upon mangrove C dynamics (e.g. C storage, emission and sequestration). This systematic review protocol outlines the methodology to identify and quantify the impacts of LULCC upon the C dynamics of global mangrove forests. The forthcoming review will assess the magnitude of LULCC on natural and impacted mangroves and identify where research gaps remain on mangrove C dynamics
Ecosystem Function in Savannas
Fascinating and diverse, savanna ecosystems support a combination of pastoral and agropastoral communities alongside wild and domestic herbivores that can be found nowhere else. This diversity has made the study of these areas problematic. Ecosystem Function in Savannas: Measurement and Modeling at Landscape to Global Scales addresses some of the d
Carbon Accounting and Savanna Fire Management
In the context of Australia’s developing carbon economy, fire management helps to abate emissions of greenhouse gases and is an important means of generating carbon credits. The vast high-rainfall savannas of northern Australia are one of the world’s most flammable landscapes. Management of fires in this region has the potential to assist with meeting emissions reduction targets, as well as conserving biodiversity and providing employment for Indigenous people in remote parts of Australia’s north. This comprehensive volume brings together recent research from northern Australian savannas to provide an internationally relevant case study for applying greenhouse gas accounting methodologies to the practice of fire management. It provides scientific arguments for enlarging the area of fire-prone land managed for emissions abatement. The book also charts the progress towards development of a savanna fire bio-sequestration methodology. The future of integrated approaches to emissions abatement and bio-sequestration is also discussed.
Ecosystem Collapse and Climate Change
Human-driven greenhouse emissions are increasing the velocity of climate change and the frequency and intensity of climate extremes far above historical levels. These changes, along with other human-perturbations, are setting the conditions for more rapid and abrupt ecosystem dynamics and collapse. This book presents new evidence on the rapid emergence of ecosystem collapse in response to the progression of anthropogenic climate change dynamics that are expected to intensify as the climate continues to warm. Discussing implications for biodiversity conservation, the chapters provide examples of such dynamics globally covering polar and boreal ecosystems, temperate and semi-arid ecosystems, as well as tropical and temperate coastal ecosystems. Given its scope, the volume appeals to scientists in the fields of general ecology, terrestrial and coastal ecology, climate change impacts, and biodiversity conservation.
Social Practices and Dynamic Non-Humans
The robots are coming! So too is the ‘age of automation’, the march of ‘invasive’ species, more intense natural disasters, and a potential cataclysm of other unprecedented events and phenomena of which we do not yet know, and cannot predict. This book is concerned with how to account for these non-humans and their effects within theories of social practice. In particular, this provocative collection tackles contemporary debates about the roles, relations and agencies of constantly changing, disruptive, intelligent or otherwise 'dynamic' non-humans, such as weather, animals and automated devices. In doing so contributors challenge and take forward existing understandings of dynamic non-humans in theories of social practice by reconsidering their potential roles in everyday life. The book will benefit sociology, geography, science and technology studies, and human- (and animal-) computer interaction design scholars seeking to make sense of the complex entanglement of non-human phenomena and things in the performance of social practices.
Flammable Australia
In Flammable Australia: Fire Regimes, Biodiversity and Ecosystems in a Changing World, leading researchers in fire ecology and management discuss how fire regimes have shaped and will continue to shape the distribution and abundance of Australia’s highly diverse plants and animals. Central to this is the exploration of the concept of the fire regime – the cumulative pattern of fires and their individual characteristics (fire type, frequency, intensity, season) and how variation in regime components affects landscapes and their constituent biota. Contributions by 44 authors explore a wide range of topics including classical themes such as pre-history and evolution, fire behaviour, fire re...
Plant Competition in a Changing World
Competitiveness describes a key ability important for plants to grow and survive abiotic and biotic stresses. Under optimal, but particularly under non-optimal conditions, plants compete for resources including nutrients, light, water, space, pollinators and other. Competition occurs above- and belowground. In resource-poor habitats, competition is generally considered to be more pronounced than in resource-rich habitats. Although competition occurs between different players within an ecosystem such as between plants and soil microorganisms, our topic focusses on plant-plant interactions and includes inter-specific competition between different species of similar and different life forms and...
Unseen Jungle: The Microbes That Secretly Control Our World
This lively peek into the amazing world of microbes, replete with a kid-pleasing “ick” factor, is chock-full of facts, humor, and fun illustrations. Microbes are everywhere: outside, indoors, on your body, in your body. In fact, only about half of our bodies' cells are human cells—the rest are microbes. Whether helping people digest their food or using mind-control techniques to lure mice into the path of hungry cats (no, really), microbes form an unseen jungle all around us. Through zany facts, hilarious and sometimes disgusting illustrations, and interviews with experts in their fields, aspiring young scientists (or kids who just want to be grossed out) will discover a hidden world in which your health depends on a myriad of microbes, houseflies get zombified by fungi, and termites are saving the planet one fart at a time. With such extras as sidebars, limericks, and even a lesson on how to draw E. coli, this “eww”-worthy treasure trove for kids is an engrossing romp into the microbe drama unfolding where you might least expect it.
Underbug
Who has the answer to the world's fuel problems? How can we bring ruined land back to life? Where do roboticists turn when they try to engineer a hive mind? Termites. Strange though it seems, scientists look to tiny termites for answers to some big ideas. Lisa Margonelli tracks them, deep into their mounds to find out how termites can change the world. Underbug: An Obsessive Tale of Termites and Technology touches on everything from meditation, innovation and the psychology of obsession to good old-fashioned biology.
