Acharya T, Ray AK. Image processing: principles and applications. 2005, New York: Wiley, 425

Aguirre-Bravo C, Reich RM (2006) Spatial statistical modeling and classification of climate for the state of Colorado and adjacent lands of neighboring states. Research Report. Rocky Mountain Research Station, USDA Forest Service, Fort Collins, Colorado. p 123

Allen CD, Macalady AK, Chenchouni H, Bachelet D, McDowell N, Vennetier M, Kitzberger T, Rigling A, Breshears DD, Hogg EH, Gonzalez P, Fensham R, Zhang Z, Castro J, Demidova N, Lim J-H, Allard G, Running SW, Semerci A, Cobb N. A global overview of drought and heat-induced tree mortality reveals emerging climate change risks for forests. For Ecol Manag, 2010, 259(4): 660-684.

Angilletta MJ. Thermal adaptations. A theoretical and empirical synthesis. 2009, Oxford: Oxford Univ. Press

Ayres PG. The interact between environmental stress injury and biotic disease physiology. Annu Rev Phytopathol, 1984, 22: 53-75.

Bale JS, Masters GJ, Hodkinson ID, Awmack C, Bezemer TM, Brown VK, Butterfield J, Buse A, Coulson JC, Farrar J, Good EG, Harrington R, Hartley S, Jones TH, Lindroth RL, Press MC, Symrnioudis I, Watt AD, Whittaker JB. Herbivory in global climate change research: direct effects of rising temperature on insect herbivores. Glob Change Biol, 2002, 8: 1-16.

Bleiker KP, Lindgren BS, Maclauchlan LE. Characteristics of subalpine fir susceptible to attack by western balsam bark beetle (Coleoptera: Scolytidae). Can J For Res, 2003, 33(8): 1538-1543.

Breshears DD, Cobb NS, Rich PM, Price KP, Allen CD, Balice RG, Romme WH, Kastens JH, Floyd ML, Belnap J, Anderson JJ, Myers OB, Meyer CW. Regional vegetation die-off in response to global-change-type drought. Proc Natl Acad Sci USA, 2005, 102(42): 15144-15148.

Ciesla WM, Donaubauer E (1994) Decline and dieback of trees and forests. A global overview. Food and Agriculture Organization of the United Nations, Rome, Italy. FAO Forestry Paper, 120. 90 p

Colorado State Forest Service Colorado statewide forest resource assessment. 2011, Fort Collins: Colorado State Forest Service

Colorado State Forest Service Colorado statewide forest resource assessment. 2013, Fort Collins: Colorado State Forest Service

Danks HV. Arctic insects as indicators of environmental change. Arctic, 1992, 45: 159-166.

ESRI ArcGIS desktop: release 10. 2011, Redlands: Environmental Systems Research Institute

Furniss RL, Carolin VM (1977) Western forest insects. U.S. Dep. Agric. For. Serv. Misc. Publ. No. 1339

Grime JP. Plant strategies and vegetation process. 1979, Chichester: Wiley

Hanson PJ, Weltzin JF. Drought disturbance from climate change: response of United States forests. Sci Total Environ, 2000, 262(3): 205-220.

Harris JL (2003) Forest Insect and Disease Conditions in the Rocky Mountain Region, 2002. USDA For. Serv., Rocky Mountain Region, Renewable Resources. p 28

Harris JL, Frank M, Johnson S (eds) (2001) Forest Insect and Disease Conditions in the Rocky Mountain Region 1997–1999. USDA For. Serv., Rocky Mountain Region, Renewable Resources. p 39

Herold N (2011) Resolution vs. minimum mapping unit: size does matter. Available at http://coast.noaa.gov/geozone/resolution-vs-minimum-mapping-unit-size-does-matter/. Accessed 20 Oct 2014

Hobbs RJ, Higgs E, Harris JA. Novel ecosystems: implications for conservation and restoration. Trends Ecol Evol, 2009, 24(11): 599-605.

Houston DR. Manion PD, Lachance D. A host-stress-pathogen model for forest dieback-decline diseases. Forest Decline Concepts. 1992, St. Paul: American Phytopathological Society Press, 3 25

Huberty A, Denno RF. Plant water stress and its consequences for herbivorous insects: a new synthesis. Ecology, 2004, 85: 1385-1398.

Huettl RF, Mueller-Dombois D. Forest decline in the Atlantic and Pacific Region. 1993, Berlin: Springer

James RL, Goheen DJ. Conifer mortality associated with root disease and insects in Colorado. Plant Dis, 1981, 65(6): 506-507.

Johnson EW, Ross J. Quantifying error in aerial survey data. Aust For, 2008, 71: 216-222.

Jurskis V. Eucalypt decline in Australia, and a general concept of tree decline and dieback. For Ecol Manag, 2005, 215: 1-20.

Lane BB, Goheen DJ. Incidence of root disease in bark beetle-infested eastern Oregon and Washington true firs. Plant Dis Report, 1979, 63(4): 262-266.

Larsson S. Stressful times for the plant stress: insect performance hypothesis. Oikos, 1989, 56(2): 277-283.

Lombardero MJ, Ayres MP, Hofstetter RW, Moser JC, Klepzig KD. Strong indirect interactions of Tarsonemus mites (Acarina, Tarsonemidae) and Dendroctonus frontalis (Coleoptera: Scolytidae). Oikos, 2003, 102: 243-252.

Manion PD. Tree disease concepts. 1991, Englewood Cliffs: Prentice-Hall

Marchetti SB, Worrall JJ, Eager T. Secondary insects and diseases contribute to sudden aspen decline in southwestern Colorado, USA. Can J For Res, 2011, 41: 2315-2325.

Mattson WJ, Addy ND. Phytophagous insects as regulators of forest primary production. Science, 1975, 190(4214): 515-522.

Mattson WJ, Haack RA. The role of drought in outbreaks of plant-eating insects. Bioscience, 1987, 37: 110-118.

McMillin JD, Allen KK, Long DF, Harris JL, Negrón JF. Effects of western balsam bark beetle on spruce-fir forests of north-central Wyoming. West J Appl For, 2003, 184: 259-266.

Molnar AC. Pathogenic fungi associated with a bark beetle on alpine fir. Can J Bot, 1965, 43(5): 563-570.

Negrón JF, Popp JB. The flight periodicity, attack patterns, and life history of Dryocoetes confusus Swaine (Coleoptera: Curculionidae: Scolytinae), the western balsam bark beetle, in north central Colorado. West North Am Nat, 2009, 69(4): 447-458.

Parish P, Antos JA, Fortin MJ. Stand development in an old-growth subalpine forest in southern interior British Columbia. Can J For Res, 1999, 29: 1347-1356.

Pongpattananurak N, Reich RM, Khosla R, Aguirre-Bravo C, Kalkan MA. Modeling the spatial distribution of soil attributes at a regional level: a case study in the State of Jalisco, Mexico. Soil Sci Soc Am J, 2012, 76: 199-209.

Price PW. The plant vigor hypothesis and herbivore attack. Oikos, 1991, 62(2): 244-251.

Reich RM, Aguirre-Bravo C, Bravo VA. New approach for modeling climatic data with applications in modeling tree species distributions in the States of Jalisco and Colima, Mexico. J Arid Environ, 2008, 72: 1343-1357.

Reich RM, Aguirre-Bravo C, Mendoza-Briseño MA. An innovative approach to inventory and monitoring of natural resources in the Mexican State of Jalisco. J Environ Monit Assess, 2008, 146: 383-396.

Reich RM, Aguirre-Bravo C, Chazaro-Basañeza M. Patterns of tree species richness in Jalsico, Mexico: relation to topography, climate and forest structure. Plant Ecol, 2010, 210: 67-84.

Reich RM, Aguirre-Bravo C, Bravo VA, Mendoza-Briseño M. Empirical evaluation of confidence and prediction intervals for spatial models of forest structure in Jalisco, Mexico. J For Res, 2011, 22: 159-166.

Reich RM, Lundquist JE, Bravo VA. Characterizing spatial distributions of insect pests across Alaskan forested landscape: a case study using aspen leaf miner (Phyllocnistis populiella Chambers). J Sustain For, 2013, 32: 527-548.

Reich RM, Lundquist JE, Acciavati R. Influence of climatic conditions and elevation on the spatial distribution and abundance of Trypodendron ambroisa beetles (Coleoptera: Curculionidae: Scolytinae) in Alaska. For Sci, 2014, 60(2): 308-316.

Rennenberg H, Loreto F, Polle A, Brilli F, Fares S, Beniwal RS, Gessler A. Physiological responses of forest trees to heat and drought. Plant Biol, 2006, 8: 556-571.

Rhoades DF. Denno RF, McClure MS. Herbivore population dynamics and plant chemistry. Variable plants and herbivores in natural and managed systems. 1983, New York: Academic Press, 155 220

Schweiger O, Settele J, Kudrna O, Klotz S, Kühn I. Climate change can cause spatial mismatch of trophically interacting species. Ecology, 2008, 89(12): 3472-3479.

Sinclair WA. Comparison of recent declines of white ash, oaks and sugar maple in the northeastern woodlands. Cornell Plant, 1965, 20: 62-67.

Sinclair WA, Hudler GW. Tree declines: four concepts of causality. J Arboric, 1988, 14: 29-35.

Six DL, Bentz BJ. Temperature determines symbiont abundance in a multipartitate bark beetle-fungus ectosymbiosis. Microb Ecol, 2007, 54: 112-118.

Stock AJ (1991) The western balsam bark beetle, Dryocoetes confusus Swaine: impact and semiochemical-based management. Doctoral dissertation, Department of Biological Sciences, Simon Fraser University, British Columbia

Sturrock RN, Frankel SJ, Brown AV, Hennon PE, Kliejunas JT, Lewis KJ, Worrall JJ, Woods AJ. Climate change and forest diseases. Plant Pathol, 2011, 60: 133-149.

Upton G, Fingleton B. Spatial Data Analysis by Example. Volume 1: Point Pattern and Quantitative Data. 1985, New York: Wiley

Wade TG, Wickham JD, Nash MS, Neale AC, Riitters KH, Jones KB. A comparison of vector and raster GIS methods for calculating landscape metrics used in environmental assessments. Photogramm Eng Remote Sens, 2003, 69: 1399-1405.

Wargo PM. Armillaria mellea colonizes roots of oak injected with ethanol. Phytopathology, 1981, 71 5 565.

Weed AS, Ayres MP, Hicke JA. Consequences of climate change for biotic disturbances in North American forests. Ecol Monogr, 2013, 83: 441-470.

White TCR. The inadequate environment: nitrogen and the abundance of animals. 1993, New York: Springer-Verlag