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Books on the topic 'Caterpillars and tree damage'

Author: Grafiati
Published: 4 June 2021
Last updated: 15 February 2022

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1

Biddle, Giles. Tree root damage to buildings. Wantage: Willowmead Publishing, 1998.

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2

Lionni, Leo. The alphabet tree. New York: Knopf, 2004.

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3

Stokes, Bryce J. Wood damage from mechanical felling. New Orleans, La: Southern Forest Experiment Station, 1990.

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4

Cosgrove, Stephen. The dream tree. New York: Price Stern Sloan, 2002.

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5

Great Britain. Department of the Environment. and Construction Research Communications Ltd, eds. Damage to buildings caused by trees. London: Construction Research Communications, 1996.

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6

Knappenberger, Chip. Frequency of weather related tree damage in Virginia. Columbia, SC: Southeast Regional Climate Center, South Carolina Water Resources Commission, 1993.

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7

Kelly-syrota, Jennifer. Post-ice storm tree damage in four eastern Ontario woodlots. Ottawa: National Library of Canada, 2000.

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8

Afreh-Nuamah, Kwame. Insect pests of tree crops in Ghana: Identification, damage and control measures. [Accra: s.n.], 1999.

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9

Crookston, Nicholas L. Foliage dynamics and tree damage components of the western spruce budworm modeling system. Ogden, UT (324 25th Street, Ogden 84401): U.S. Dept. of Agriculture, Forest Service, Intermountain Research Station, 1991.

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10

Thomson, M. Economic analysis of plantation damage caused by wildlife along the south-western side of Mount Kenya. Nairobi: KIFCON, 1993.

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11

Hagle, Susan K. An assessment of chloride-associated, and other roadside tree damage, on the Selway Road, Nez Perce National Forest. Missoula, MT: U.S. Dept. of Agriculture, Forest Service, Northern Region, 2002.

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12

Lionni, Leo. The Alphabet Tree. Pantheon Books, 1985.

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13

Lionni, Leo. The Alphabet Tree. Tandem Library, 1999.

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14

Lionni, Leo. The Alphabet Tree (Dragonfly Books). Dragonfly Books, 1990.

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15

Cosgrove, Stephen. The Dream Tree. Rebound by Sagebrush, 1999.

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16

Tree Root Damage to Buildings: Causes, Diagnosis and Remedy. Willowmead Publishing Ltd, 1998.

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17

Schmidt, Olaf. Wood and Tree Fungi: Biology, Damage, Protection, and Use. Springer, 2010.

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18

Wood and Tree Fungi: Biology, Damage, Protection, and Use. Springer, 2006.

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19

National Flood Proofing Committee (U.S.), ed. Flood proofing: How to evaluate your options : decision tree. [Fort Belvoir, Va.?]: US Army Corps of Engineers, National Flood Proofing Committee, 1995.

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20

United States. Forest Service. Southern Region., ed. The Yazoo-Little Tallahatchie Flood Prevention Project: A history of the Forest Service's role. Atlanta, Ga: U.S. Dept. of Agriculture, Forest Service, Southern Region, 1988.

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21

Biddle, P. G. Tree Root Damage to Buildings: Patterns of Soil Drying in Proximity to Trees on Clay Soils. Willowmead Publishing Ltd, 1998.

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22

Tree Root Damage to Buildings: Causes, Diagnosis and Remedy / Patterns of Soil Drying in Proximity to Trees on Clay Soils. Willowmead Publishing Ltd, 1998.

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23

Dayle, Bennett, and United States. Forest Service. Southwestern Region, eds. Surveys to measure tree damage caused by a western spruce budworm outbreak on the Carson National Forest, 1984 and 1991. [Albuquerque, N.M.?]: U.S. Dept. of Agriculture, Forest Service, Southwestern Region, 1995.

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24

Horsfall, Mary. Australian Garden Rescue. CSIRO Publishing, 2014. http://dx.doi.org/10.1071/9781486300013.

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Whether you have a garden suffering from lack of attention, damaged from weather events or suffering pest attacks, Australian Garden Rescue will guide you through practical solutions, helpful tips and preventative tactics to minimise future harm. Best-selling author Mary Horsfall explores how our harsh climate can impact gardens, including the effects of bushfires, floods, frost, storms and heatwaves. She also addresses various pests from possums, snails and caterpillars to fungal problems and weeds. With an emphasis on environmentally friendly strategies and simple advice, this highly illustrated guide will provide tactics for gardeners repairing recent damage or tackling prolonged neglect. Regardless of your garden’s size or location, this book should be part of your gardening toolkit.
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25

Fletcher, Roland, Brendan M. Buckley, Christophe Pottier, and Shi-Yu Simon Wang. Fourteenth to Sixteenth Centuries AD. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199329199.003.0010.

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Angkor, the capital of the Khmer Empire in Southeast Asia, was the most extensive low-density agrarian-based urban complex in the world. The demise of this great city between the late 13th and the start of the 17th centuries AD has been a topic of ongoing debate, with explanations that range from the burden of excessive construction work to disease, geo-political change, and the development of new trade routes. In the 1970s Bernard-Phillipe Groslier argued for the adverse effects of land clearance and deteriorating rice yields. What can now be added to this ensemble of explanations is the role of the massive inertia of Angkor’s immense water management system, political dependence on a meticulously organized risk management system for ensuring rice production, and the impact of extreme climate anomalies from the 14th to the 16th centuries that brought intense, high-magnitude monsoons interspersed with decades-long drought. Evidence of this severe climatic instability is found in a seven-and-a-half century tree-ring record from tropical southern Vietnam. The climatic instability at the time of Angkor’s demise coincides with the abrupt transition from wetter, La Niña-like conditions over Indochina during the Medieval Warm Period to the more drought-dominated climate of the Little Ice Age, when El Niño appears to have dominated and the ITCZ migrated nearly five degrees southward. As this transition neared, Angkor was hit by the double impact of high-magnitude rains and crippling droughts, the former causing damage to water management infrastructure and the latter decreasing agricultural productivity. The Khmer state at Angkor was built on a human-engineered, artificial wetland fed by small rivers. The management of water was a massive undertaking, and the state potentially possessed the capacity to ride out drought, as it had done for the first half of the 13th century. Indeed, Angkor demonstrated just how powerful a water management system would be required and, conversely, how formidable a threat drought can be. The irony, then, is that extreme flooding destroyed Angkor’s water management capacity and removed a system that was designed to protect its population from climate anomalies.
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