Sediment and Wood Dynamics in Forests Managed for Timber Production in New South Wales, Australia PDF Download
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Author: Peter Gerard Walsh
Publisher:
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Languages : en
Pages : 0
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Over the next several decades there may be substantial pressure to extract timber from within harvest exclusion zones, or buffer strips along headwater streams to meet the projected increase in the global demand for forest products. Forest management activities have the potential to significantly modify woody debris loads in buffer strips, and thus the availability of material for recruitment into headwater streams. Therefore, it is important that forest management practices in these headwater systems take account of the role wood supplied from buffer strips play in the development of channel structure and sediment retention capacity. Most of the research on the effects of timber harvesting in buffer strips on sediment dynamics and wood accumulation in small headwater streams has been carried out in the Northern Hemisphere, in particular the Pacific Northwest of North America. Australia, in contrast to these regions, is tectonically inactive, with rivers that are characterised by highly variable flow regimes, and low sediment loads. Consequently it is likely that the drivers of erosion and sedimentation and woody debris recruitment are different. Where studies have been conducted in Australia, they have mostly been on larger systems in catchments not typical of the small headwater basins and ephemeral channels where the majority of timber harvesting in the coastal forest of New South Wales occurs. The main aim of this study is therefore to advance our understanding of the physical interactions between buffer strips and small zero order ephemeral headwater channels, and the potential impact of timber harvesting on these interactions. To address this main aim, five related research aims were proposed and focussed on: 1) assessing the characteristics of large wood pieces and their geomorphic significance in the channels; 2) identification of how, and from what distance the LW pieces were recruited to the channels; 3) measuring the impact of harvesting in the zero order basins and buffer strips along the channels; and 4) modelling the effect on channel erosion and sediment transport of in-channel obstructions created by large wood. To achieve this, five zero order channels in a native forest on the south coast of New South Wales, Australia, were instrumented with rain gauges and weirs to monitor rainfall, streamflow, turbidity, and suspended sediment concentration over a seven and a half year period. After a five year calibration period, four of the catchments were harvested, while one remained as a control. In the harvested catchments there were two replicated treatments; harvesting in the 10 m buffers, and no harvesting in the 10 m buffers. Two major methods were applied to identify interactions in the zero order channels between buffer strips and in-channel large wood obstructions, and the potential impact of timber harvesting on these interactions. The first was analysis of the effect of timber harvesting using a range of statistical techniques including generalised linear models and maximum likelihood estimation. The second method invoked a cellular landscape and river reach process model to simulate the role of channel obstructions created by large wood on channel erosion and sediment transport. The process model was parameterised and calibrated against an observed discharge and suspended sediment record. Following calibration, 12 discharge and large wood obstruction scenarios were carried out to model erosion and suspended sediment transport over a timber harvesting cycle. Results of the statistical analysis showed that harvesting had a significant impact on runoff and suspended sediment yield relative to the control, but did not have a significant impact on turbidity or suspended sediment concentration. There was no significant difference in post-harvest runoff, turbidity, suspended sediment concentration, or suspended sediment yield between the treatments. In the treatment where there was no harvesting in buffers, the significant increase in suspended sediment yield dissipated after 18 months and was accompanied by a hydrological recovery in peak flows toward pre-harvest values. In the treatment where there was harvesting in the buffers, there was no hydrological recovery in peak flows, nor was there a decrease in suspended sediment yields 18 months after harvesting. Erosion rates in the harvested catchments over the 32 month post-harvest period were three times greater than the control erosion rate, but were still less than the sustainable erosion rate recommended for Australia, and were largely in balance with regional estimates of soil production. The majority of large wood interacting with the channels, and forming obstructions behind which sediment was stored had diameters ≤ 30 cm. Most of this wood was being delivered from the channel margins within the buffer strips. Most of the sediment within the zero order channels was stored on the channel bed, and was an order of magnitude greater than the amount of sediment stored behind obstructions. Of the sediment stored behind obstructions, large wood provided the majority of storage sites. The use of the process model to increase and extend the observed discharge record provided some useful insights into the temporal and spatial pattern of erosion, sediment storage and transport, and complimented the statistical analysis of harvesting impacts by extending these processes over a harvesting cycle. The benefit of retaining buffers alongside the zero order channels was demonstrated by a substantial reduction in channel erosion and suspended sediment yield obtained through the inclusion of in-channel large wood obstructions in the cellular landscape and river reach model. Therefore it is important that harvesting practices maintain sufficient volume of standing wood in these buffer strips alongside zero order channels to ensure ongoing recruitment of large wood to the channel network. The management implications of this study are not just relevant for coastal New South Wales, but also for other catchments where their hydroclimatologies may produce similar results.
Author: Peter Gerard Walsh
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
Over the next several decades there may be substantial pressure to extract timber from within harvest exclusion zones, or buffer strips along headwater streams to meet the projected increase in the global demand for forest products. Forest management activities have the potential to significantly modify woody debris loads in buffer strips, and thus the availability of material for recruitment into headwater streams. Therefore, it is important that forest management practices in these headwater systems take account of the role wood supplied from buffer strips play in the development of channel structure and sediment retention capacity. Most of the research on the effects of timber harvesting in buffer strips on sediment dynamics and wood accumulation in small headwater streams has been carried out in the Northern Hemisphere, in particular the Pacific Northwest of North America. Australia, in contrast to these regions, is tectonically inactive, with rivers that are characterised by highly variable flow regimes, and low sediment loads. Consequently it is likely that the drivers of erosion and sedimentation and woody debris recruitment are different. Where studies have been conducted in Australia, they have mostly been on larger systems in catchments not typical of the small headwater basins and ephemeral channels where the majority of timber harvesting in the coastal forest of New South Wales occurs. The main aim of this study is therefore to advance our understanding of the physical interactions between buffer strips and small zero order ephemeral headwater channels, and the potential impact of timber harvesting on these interactions. To address this main aim, five related research aims were proposed and focussed on: 1) assessing the characteristics of large wood pieces and their geomorphic significance in the channels; 2) identification of how, and from what distance the LW pieces were recruited to the channels; 3) measuring the impact of harvesting in the zero order basins and buffer strips along the channels; and 4) modelling the effect on channel erosion and sediment transport of in-channel obstructions created by large wood. To achieve this, five zero order channels in a native forest on the south coast of New South Wales, Australia, were instrumented with rain gauges and weirs to monitor rainfall, streamflow, turbidity, and suspended sediment concentration over a seven and a half year period. After a five year calibration period, four of the catchments were harvested, while one remained as a control. In the harvested catchments there were two replicated treatments; harvesting in the 10 m buffers, and no harvesting in the 10 m buffers. Two major methods were applied to identify interactions in the zero order channels between buffer strips and in-channel large wood obstructions, and the potential impact of timber harvesting on these interactions. The first was analysis of the effect of timber harvesting using a range of statistical techniques including generalised linear models and maximum likelihood estimation. The second method invoked a cellular landscape and river reach process model to simulate the role of channel obstructions created by large wood on channel erosion and sediment transport. The process model was parameterised and calibrated against an observed discharge and suspended sediment record. Following calibration, 12 discharge and large wood obstruction scenarios were carried out to model erosion and suspended sediment transport over a timber harvesting cycle. Results of the statistical analysis showed that harvesting had a significant impact on runoff and suspended sediment yield relative to the control, but did not have a significant impact on turbidity or suspended sediment concentration. There was no significant difference in post-harvest runoff, turbidity, suspended sediment concentration, or suspended sediment yield between the treatments. In the treatment where there was no harvesting in buffers, the significant increase in suspended sediment yield dissipated after 18 months and was accompanied by a hydrological recovery in peak flows toward pre-harvest values. In the treatment where there was harvesting in the buffers, there was no hydrological recovery in peak flows, nor was there a decrease in suspended sediment yields 18 months after harvesting. Erosion rates in the harvested catchments over the 32 month post-harvest period were three times greater than the control erosion rate, but were still less than the sustainable erosion rate recommended for Australia, and were largely in balance with regional estimates of soil production. The majority of large wood interacting with the channels, and forming obstructions behind which sediment was stored had diameters ≤ 30 cm. Most of this wood was being delivered from the channel margins within the buffer strips. Most of the sediment within the zero order channels was stored on the channel bed, and was an order of magnitude greater than the amount of sediment stored behind obstructions. Of the sediment stored behind obstructions, large wood provided the majority of storage sites. The use of the process model to increase and extend the observed discharge record provided some useful insights into the temporal and spatial pattern of erosion, sediment storage and transport, and complimented the statistical analysis of harvesting impacts by extending these processes over a harvesting cycle. The benefit of retaining buffers alongside the zero order channels was demonstrated by a substantial reduction in channel erosion and suspended sediment yield obtained through the inclusion of in-channel large wood obstructions in the cellular landscape and river reach model. Therefore it is important that harvesting practices maintain sufficient volume of standing wood in these buffer strips alongside zero order channels to ensure ongoing recruitment of large wood to the channel network. The management implications of this study are not just relevant for coastal New South Wales, but also for other catchments where their hydroclimatologies may produce similar results.
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Category : Agriculture
Languages : en
Pages : 1228
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Category : Hydrology
Languages : en
Pages : 952
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Author: Food and Agriculture Organization of the United Nations
Publisher: Food & Agriculture Org.
ISBN: 9251348510
Category : Technology & Engineering
Languages : en
Pages : 184
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Many people worldwide lack adequate access to clean water to meet basic needs, and many important economic activities, such as energy production and agriculture, also require water. Climate change is likely to aggravate water stress. As temperatures rise, ecosystems and the human, plant, and animal communities that depend on them will need more water to maintain their health and to thrive. Forests and trees are integral to the global water cycle and therefore vital for water security – they regulate water quantity, quality, and timing and provide protective functions against (for example) soil and coastal erosion, flooding, and avalanches. Forested watersheds provide 75 percent of our freshwater, delivering water to over half the world’s population. The purpose of A Guide to Forest–Water Management is to improve the global information base on the protective functions of forests for soil and water. It reviews emerging techniques and methodologies, provides guidance and recommendations on how to manage forests for their water ecosystem services, and offers insights into the business and economic cases for managing forests for water ecosystem services. Intact native forests and well-managed planted forests can be a relatively cheap approach to water management while generating multiple co-benefits. Water security is a significant global challenge, but this paper argues that water-centered forests can provide nature-based solutions to ensuring global water resilience.
Author:
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Category : Ecology
Languages : en
Pages : 840
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Indexes journal articles in ecology and environmental science. Nearly 700 journals are indexed in full or in part, and the database indexes literature published from 1982 to the present. Coverage includes habitats, food chains, erosion, land reclamation, resource and ecosystems management, modeling, climate, water resources, soil, and pollution.
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Category : Fisheries
Languages : en
Pages : 716
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Author: García Chevesich, Pablo
Publisher: UNESCO Publishing
ISBN: 9231002163
Category : Forest management
Languages : en
Pages : 197
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Trees have been around for more than 370 million years, and today there are about 80 thousand species of them, occupying 3.5 billion hectares worldwide, including 250 million ha of commercial plantations. While forests can provide tremendous environmental, social, and economic benefits to nations, they also affect the hydrologic cycle in different ways. As the demand for water grows and local precipitation patterns change due to global warming, plantation forestry has encountered an increasing number of water-related conflicts worldwide. This document provides a country-by-country summary of the current state of knowledge on the relationship between forest management and water resources. Based on available research publications, the Editor-in-Chief of this document contacted local scientists from countries where the impact of forest management on water resources is an issue, inviting them to submit a chapter.
Author: James M. Vose
Publisher: CRC Press
ISBN: 1466572752
Category : Nature
Languages : en
Pages : 494
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Forest land managers face the challenges of preparing their forests for the impacts of climate change. However, climate change adds a new dimension to the task of developing and testing science-based management options to deal with the effects of stressors on forest ecosystems in the southern United States. The large spatial scale and complex interactions make traditional experimental approaches difficult. Yet, the current progression of climate change science offers new insights from recent syntheses, models, and experiments, providing enough information to start planning now for a future that will likely include an increase in disturbances and rapid changes in forest conditions. Climate Change Adaptation and Mitigation Management Options: A Guide for Natural Resource Managers in Southern Forest Ecosystems provides a comprehensive analysis of forest management options to guide natural resource management in the face of future climate change. Topics include potential climate change impacts on wildfire, insects, diseases, and invasives, and how these in turn might affect the values of southern forests that include timber, fiber, and carbon; water quality and quantity; species and habitats; and recreation. The book also considers southern forest carbon sequestration, vulnerability to biological threats, and migration of native tree populations due to climate change. This book utilizes the most relevant science and brings together science experts and land managers from various disciplines and regions throughout the south to combine science, models, and on-the-ground experience to develop management options. Providing a link between current management actions and future management options that would anticipate a changing climate, the authors hope to ensure a broader range of options for managing southern forests and protecting their values in the future.
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Category : Agriculture
Languages : en
Pages : 2394
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Author:
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ISBN:
Category : Agriculture
Languages : en
Pages : 568
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