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Challenges and Successes in Identifying the Transfer and Transformation of Phosphorus from Soils to Open Waters and Sediments

The anthropogenic loading of phosphorus (P) to water bodies continues to increase worldwide, in many cases leading to increased eutrophication and harmful algal blooms. Determining the sources of P and the biogeochemical processes responsible for this increase is often difficult because of the compl...

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Bibliographic Details
Main Author: Ross, Donald S.
Other Authors: Young, Eric O., Jaisi, Deb P
Format: eBook
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021
Subjects:
Microanalysis
Dissolved Oxygen
Snowmelt
Riparian Buffers
Exclusions
Water Quality
Eutrophication
Overland Flow
N/a
Sorption
Soil Fertility
Fe-al-hydroxide Mixtures
Weathering
Algae Bloom
Transformation
Accessibility
Soil P
Tile Drainage
Total Phosphorus
Soil Test Phosphorus
Chemical P Extraction
Hydropedology
Speciation
Legacy Phosphorus
Malic Acid
X-ray Absorption Near-edge Structure (xanes) Spectroscopy
Agriculture
Soil Stratification
Desorption
Research & Information: General / Bicssc
Anoxic
Biogeochemistry
Phosphorus Mobilization
Iron Speciation
Phosphorus
Best Management Practices
Phosphorus Cycling
Equilibrium Phosphorus Concentration
Surface Runoff
Vertical And Horizontal P Distribution
Streamflow
Critical Source Areas
Legacy Sediments
Phosphorus Kinetics
Liquid Manure
Erosion
Dissolved Reactive Phosphorus
Climate Change
Runoff Water
Corn Silage
Sediment
Strategic Grazing
Histidine
Nutrient Management
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
Description
Summary:The anthropogenic loading of phosphorus (P) to water bodies continues to increase worldwide, in many cases leading to increased eutrophication and harmful algal blooms. Determining the sources of P and the biogeochemical processes responsible for this increase is often difficult because of the complexity of the inputs and pathways, which vary both in spatial and temporal scales. In order to effectively develop strategies to improve water quality, it is essential to develop a comprehensive understanding of the relationship of P pools with biological uptake and cycling under varied soil and water conditions. In this ebook, eight chapters cover the various aspects of basic-applied research on mineral-P interaction and how these reactions impact P mobilization, bioavailability, transfer, and speciation of P in different soil matrices using advanced analytical methods. Some of these methods include the application of XANES and field-based research related to stream bank legacy nutrients; natural and anthropogenic eutrophication and its relationship to climate change; and the evaluation of the impact of P due to (i) grazing systems, (ii) weathering and vegetation, and iii) soil and manure management practices. In addition, two review chapters take a holistic approach to cover an expansive area of P transformation processes along the cropland-riparian-stream continuum and the assessment of legacy P. Together, these contributions improve our current understanding of the reactions and processes that impact P concentration, speciation, cycling, loss, and transfer from agroecosystems.
Item Description:Creative Commons (cc), https://creativecommons.org/licenses/by/4.0/
Physical Description:1 electronic resource (224 p.)
ISBN:9783036524320
9783036524337
books978-3-0365-2433-7

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