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Tropical dry deciduous forests (TDFs) can be found in severe and extremely variable climates characterized by low annual rainfall, 5-6 dry months within the annual cycle, and nutrient-poor soil. Several terms have been used for this vegetation type such as seasonally dry tropical forest (SDTF), tropical dry deciduous forest, monsoon forest, caatinga, cuabal, etc. More than any other factor, the lack of precipitation during a prolonged portion of the year is what produces true dry forest, an ecosystem type characterized by plants and animals with specific adaptations to survive the long dry season. Deciduousness is the single most important adaptation among plants to the extended droughts. Most of the trees drop their leaves after the rains end, and essentially halt photosynthesis, as they would otherwise be unable to survive the water loss during the dry season. TDFs are subject to intensive anthropogenic disturbances and are among the most at-risk ecosystems in the world. In order to assess the conservation status of this forest type, information is required on its distribution pattern, climate, the structure and functional traits of its vegetation, phenology, strategies for coping with drought and nutrient poverty, and disturbances and their effects. In this book, we review important studies on TDFs around the globe, particularly those in the northern dry deciduous forests of India. We put forward the claim that those TDFs that experience drought and arise on nutrient-poor sites feature adaptations such as deciduousness, as well as a variety of nutrient conservation strategies. They also experience biotic disturbances, which can result in fragmentation and ecosystem conversion, and therefore exhibit changes in biomass, productivity, and soil microbial biomass, etc.
Tropical dry forests (TDFs) constitute one of the most dominant forests, accounting for approximately 45% of all tropical forests. These forests are distributed over an extensive geographical range, spanning large areas of Africa, Latin America, and the Asia Pacific. TDFs occur in severe and extremely variable climate characterized by low annual rainfall and 5-6 months of the dry period within the annual cycle, and nutrient-poor soil. Due to extreme drought conditions, TDFs exhibit deciduousness and various other adaptative features (viz., fire resistance, desiccation tolerance, herbivore defence, high root:shoot ratio, longer seed viability) to establish in the severe environmental conditions, which makes these forests exceptionally critical. These forests are one of the most productive with high biodiversity, but unfortunately, due to persistent anthropogenic pressures in terms of burning, mining, indiscriminate forest cutting, lopping, and increased extraction of non-wood forest products, these forest communities have become one of the most endangered ecosystems. Disturbances in TDFs have resulted in fragmentation and ecosystem conversion, and therefore, these forests exhibit changes in their biomass and productivity. Anthropogenic pressure is rapidly becoming a growing concern globally due to its negative impacts on the structure and composition of the vegetation. In addition, due to their higher net primary productivity, these forests have a considerable effect on the global carbon cycle. Uncontrolled harvesting for gaining temporal benefits is a major cause of forest destruction and deforestation which may lead to major loss. Deforestation and clearing of forests have resulted in soil erosion, soil degradation and loss of biodiversity, socio-economic damages to food components, water and health, as well as the loss of people's cultural ethnicity. In order to assess the conservation status of TDFs, information is required on its distribution pattern, climate, structural and functional traits of the vegetation, phenology, strategies against drought, nutrient deficiency, and disturbances. This book discusses various issues, obstacles and opportunities for protection, regeneration and management of TDFs worldwide, as well as information gaps in the areas referred to above, which may be of critical significance in adapting and mitigating responses to the current climate change scenario. The book is intended to help in collection of detailed knowledge and to address the concerns from environmental scientists, forestry experts, planners, policymakers and the general public. Starting with a description of plant composition of worldwide TDFs, the book evaluates plant diversity, biomass dynamics, carbon storage, late history and current status of anthropogenic disturbances, distribution pattern of lichen communities, relevance of tree crown architecture, effects of forestry management practices, degradation and traditional land-use practices, impact of changing environment on carbon dynamics, estimating ecosystem services using a geospatial approach, productivity and carbon accumulation, habitat heterogeneity and its impact on organic matter, nutrient pool and nitrogen mineralization, phosphorus and litter decomposability traits. For re-development of TDFs, the book describes improved low-input tree establishment methods, impact of drought and plant mechanisms to mitigate drought stress, importance of serotiny related to delayed seed dispersal, and foraging efficiency of fine roots in relation to carbon dynamics in a changing environment.
Though seasonally dry tropical forests are equally as important to global biodiversity as tropical rainforests, and are one of the most representative and highly endangered ecosystems in Latin America, knowledge about them remains limited because of the relative paucity of attention paid to them by scientists and researchers and a lack of published information on the subject. Seasonally Dry Tropical Forests seeks to address this shortcoming by bringing together a range of experts in diverse fields including biology, ecology, biogeography, and biogeochemistry, to review, synthesize, and explain the current state of our collective knowledge on the ecology and conservation of seasonally dry tropical forests. The book offers a synthetic and cross-disciplinary review of recent work with an expansive scope, including sections on distribution, diversity, ecosystem function, and human impacts. Throughout, contributors emphasize conservation issues, particularly emerging threats and promising solutions, with key chapters on climate change, fragmentation, restoration, ecosystem services, and sustainable use. Seasonally dry tropical forests are extremely rich in biodiversity, and are seriously threatened. They represent scientific terrain that is poorly explored, and there is an urgent need for increased understanding of the system's basic ecology. Seasonally Dry Tropical Forests represents an important step in bringing together the most current scientific information about this vital ecosystem and disseminating it to the scientific and conservation communities.
This book provides in-depth information on Caatinga’s geographical boundaries and ecological systems, including plants, insects, fishes, amphibians, reptiles, birds, and mammals. It also discusses the major threats to the region’s socio-ecological systems and includes chapters on climate change and fast and large-scale land-use changes, as well as slow and small-scale changes, also known as chronic human disturbances. Subsequent chapters address sustainable agriculture, conservation systems, and sustainable development. Lastly, the book proposes 10 major actions that could enable the transformation of Caatinga into a place where people and nature can thrive together. “I consider this book an excellent example of how scientists worldwide can mobilize their efforts to propose sound solutions for one of the biggest challenges of modern times, i.e., how to protect the world’s natural ecosystems while improving human well-being. I am sure this book will inspire more research and conservation action in the region and perhaps encourage other groups of scientists to produce similar syntheses about their regions.” Russell Mittermeier, Ph.D. Executive Vice-Chair, Conservation International
Tropical dry forests are the most exploited and endangered ecosystems in the world. A combination of climatic and human factors often reduce these forests to patches of dry scrubs or savannas. Because these ecosystems experience a more arduous and less anticipated environment, they are more prone to environmental stress as plant communities are developed. Therefore, urgent research is necessary to understand both the detrimental issues and problem-solving approaches to conserving these important forests. The Handbook of Research on the Conservation and Restoration of Tropical Dry Forests is a pivotal reference source that combines theory and practice on the current trends and issues in this important ecological subject and discusses future challenges towards conservation strategies of these tropical dry forests. While highlighting topics such as forest management, natural regeneration, and silviculture, this publication examines the anthropogenic impacts on tropical dry forests and the necessity to rebuild their ecosystems. This book is ideally designed for state forest agency professionals, resource managers, non-governmental organization agents, ecologists, botanists, environmentalists, students, and researchers seeking current research on the threats to these forests.
Under threat from natural and human disturbance, tropical dry forests are the most endangered ecosystem in the tropics, yet they rarely receive the scientific or conservation attention they deserve. In a comprehensive overview, Tropical Dry Forests in the Americas: Ecology, Conservation, and Management examines new approaches for data sampling and analysis using remote sensing technology, discusses new ecological and econometric methods, and critically evaluates the socio-economic pressures that these forest are facing at the continental and national levels. The book includes studies from Mexico, Costa Rica, Colombia, Venezuela, and Brazil that provide in-depth knowledge about the function, status, and conservation efforts of these endangered forests. It presents key elements of synthesis from standardized work conducted across all sites. This unique contribution provides new light in terms of these forests compared to each other not only from an ecological perspective but also in terms of the pressures that they are facing, and their respective responses. Written by experts from a diversity of fields, this reference brings together the many facets of function, use, heritage, and future potential of these forests. It presents an important and exciting synthesis of many years of work across countries, disciplines, and cultures. By standardizing approaches for data sampling and analysis, the book gives readers comparison information that cannot be found anywhere else given the high level of disparity that exists in the current literature.
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More often than not, when people think of a neotropical forest, what comes to mind is a rain forest, rather than a dry forest. Just as typically, when they imagine a savanna, they visualize the African plains, rather than those dry woodlands and grasslands found in the Neotropics. These same preconceptions can be found among scientists, as these ne
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