I INTRODUCTION 1.1 BACKGROUND Soil

I INTRODUCTION 1.1 BACKGROUND Soil is subject to natural weathering and erosion. Natural, or geologic, erosion by water, wind and ice has been occurring at a relatively slow rate since the Earth was formed. Excepting some cases of shore and stream channel erosion, natural erosion occurs slowly, shaping the landscape century by century, maintaining an environmental balance. Construction activities and large earth-moving projects accelerate erosion dramatically, mainly by exposing large areas of soil to rain and running water. If this run off is not properly treated, the result is often serious siltation of nearby watercourses. The consequences are degradation or destruction of fish and wildlife habitat, and water being less useful for fresh water supplies, navigation and recreation. For amore detailed explanation, see Appendix A. Because all Nova Scotia watercourses, including rivers, lakes, ponds, and marshes, are protected by law for public use and enjoyment, the Nova Scotia Department of the Environment recognized the need to prepare an erosion and sedimentation control handbook aspart of its educational program to promote protection of the environment. This handbook is intended to aid in the design and construction of appropriate erosion and siltation control measures toprevent sedimentation of local watercourses. Itshould beused by persons with practical experience and technical training inthis area. As each site and project differs insoil, topographic and climatic conditions, this handbook isnot designed toprovide precise instructions for every construction scenario. la
EROSION OF CAUSES AND PROCESSES PHYSICAL 1.2 or natural Because geologic takes crust Earth's the of erosion place over gradually not isprocess the years, of thousands obvious. readily However, of limits for guidelines provide erosion of norms geologic practical the measuring for basis aand measures control erosion natural the upspeed can activities Man's erosion. soil of acceleration process erosion considerably matter ainsoil of removal the through environment natural the affects this Inevitably, weeks. or days of For site. the around nearby aexample, isthat river clear normally may suddenly rainstorm
aafter soon colour muddy-brown
aturn
aover passes construction byeroded are soil of tonnes asarea, the river. the into washed and rain 1: Figure
afrom river ainto flowing water Sediment-laden rainfall. heavy aduring site construction
isErosion soil climate, factors: four byinfluenced primarily type, erosion Soil vegetation. and topography, from differ can problems the of because place toplace each of variability and factor, the another. with factor one of relationship becan erosion Controlling through accomplished understanding the of nature the relationships. conditions soil and Climate obviously becannot man; bycontrolled however, proper planning of avoidance permit sometimes can onconstruction highly erodible weather adverse under and soils and easier isItconditions. toeffective more vegetative manipulate conditions topographic and cover control erosion through practices detailed more aFor handbook. this inpresented ones the like and processes the ondiscussion of causes erosion, torefer B. Appendix 3a 2: Figure been has vegetation where development housing A rainfall tosoil bare exposing stripped, completely steep long, aonerosion slope.
4a 1.3 EFFECTIVENESS OF EROSION AND SEDIMENTATION CONTROLS Extensive use of mathematical soil loss prediction models throughout North America has resulted inrecognized values assigned torainfall, soil erodibility and topographic factors, for different areas and soils. When multiplied, these factor values provide anestimate of the annual soil loss from asite, and when combined with anerosion control factor, they can predict the relative reduction inthe estimated annual soil loss. Anerosion control factor of 1.0means noerosion controls are used, such aswhen clearing or grubbing asite results in removal of all vegetation and the root zone, leaving the soil without protection against rainfall and runoff. Measures such asthe use of certain types and rates of mulches, and methods of revegetation are assigned factor values less than 1.0. For example, ifanerosion control factor of 0.01 was assigned to the baseline, or completely undisturbed, condition of aconstruction site, and afactor of 1.0was assigned tothe disturbed construction Site condition, thepredicted annual erosion losses would be100 times greater fromthe construction site. However, thepredicted losses could bedecreased toanacceptable level byimplementing common erosion control measures. This example, although more simplified than actual soil loss prediction techniques, nonetheless illustrates the relative merits that erosion and sedimentation controls implemented onconstruction sites could achieve. The factor values have not been rated toNova Scotian conditions.
)
PART 2 EROSION