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Canadian Journal of Forest Research 47: 1314-1324.","y":2017,"p":"II","d":"Forest Productivity","s":["Mixed/General"],"ct":12,"u":"https://scholar.google.com/scholar?q=Carter+2017+Effects+of+multiaged+silvicultural+systems+on+reserve+tree+growth+19+years+after","mi":false,"i":["University of Maine"],"a":["Carter","D.*","Seymour","Fraver","Weiskittel"]},{"id":681,"c":"Ridout M, Houbraken J, Newcombe G (2017) Xerotolerance of Penicillium and Phialocephala fungi, dominant taxa of fine lateral roots of woody plants in the intermountain Pacific Northwest, USA. Rhizosphere. 4:94-103. DOI: https://doi.org/10.1016/j.rhisph.2017.09.004.","y":2017,"p":"II","d":"Wood Science","s":["Not specified"],"ct":11,"u":"https://scholar.google.com/scholar?q=Ridout+M+2017+Xerotolerance+of+Penicillium+and+Phialocephala+fungi+dominant+taxa+of+fine+lateral+roots","mi":false,"i":["University of Idaho"],"a":[]},{"id":684,"c":"Hiesel, P.*, Crandall, M. S., Weiskittel, A. R., and Kizh, A. R. 2017. Assessing alternative silvicultural prescriptions for mid-rotation, unthinned, spruce-fir stands in Maine. Forests 8: 370.","y":2017,"p":"II","d":"General Forestry","s":["Spruce"],"ct":8,"u":"https://scholar.google.com/scholar?q=Hiesel+2017+Assessing+alternative+silvicultural+prescriptions+for+mid+rotation+unthinned+spruce+fir+stands+in","mi":false,"i":["University of Maine"],"a":["Hiesel","P.*","Crandall","Weiskittel","Kizh"]},{"id":700,"c":"Laviner, M. A., T. R. Fox, J. E. Raymond. (2017). Soil retention and subsequent uptake of nitrogen 2 years following operation rates of fertilization in loblolly pine.. Proc. 18th Biennial Southern Silviculture Conference.","y":2017,"p":"II","d":"Forest Nutrition","s":["Loblolly Pine"],"ct":6,"u":"https://scholar.google.com/scholar?q=Laviner+2017","mi":false,"i":["Virginia Tech"],"a":["Laviner","Fox"]},{"id":676,"c":"Raymond, J. E., T. R. Fox, B. D. Strahm and J. Zerpa. (2016). Differences in the recovery of four different nitrogen containing fertilizers after two application seasons in pine plantations across the southeastern United States. Forest Ecology and Management. 380 161.","y":2016,"p":"II","d":"Forest Nutrition","s":["Pine (other)"],"ct":105,"u":"https://scholar.google.com/scholar?q=Raymond+2016","mi":false,"i":["Virginia Tech"],"a":["Raymond","Fox","Strahm"]},{"id":653,"c":"Chase CW, Kimsey MJ, Shaw TM, Coleman MD (2016) The response of light, water, and nutrient availability to pre-commercial thinning in dry inland Douglas-fir forests. For Ecol Manage. 363:98-109. DOI: http://dx.doi.org/10.1016/j.foreco.2015.12.014.","y":2016,"p":"II","d":"Forest Nutrition","s":["Douglas-fir"],"ct":102,"u":"https://scholar.google.com/scholar?q=Chase+CW+2016+The+response+of+light+water+and+nutrient+availability+to+pre+commercial+thinning","mi":false,"i":["University of Idaho"],"a":[]},{"id":656,"c":"Parent D, Coleman M (2016) Grand Fir Nutrient Management in the Inland Northwestern USA. Forests. 7:261. DOI: 10.3390/f7110261.","y":2016,"p":"II","d":"Forest Nutrition","s":["Mixed/General"],"ct":85,"u":"https://scholar.google.com/scholar?q=Parent+D+2016+Grand+Fir+Nutrient+Management+in+the+Inland+Northwestern+USA","mi":false,"i":["University of Idaho"],"a":[]},{"id":666,"c":"Babcok, C., Finley, A. O., Cook, B. D., Weiskittel, A., and Woodall, C. W. 2016. Modeling forest biomass and growth: Coupling long-term inventory and LiDAR data. Remote Sensing of Environment 108: 1-12.","y":2016,"p":"II","d":"Remote Sensing","s":["Mixed/General"],"ct":63,"u":"https://scholar.google.com/scholar?q=Babcok+2016+Modeling+forest+biomass+and+growth+Coupling+long+term+inventory+and+LiDAR+data","mi":false,"i":["University of Maine"],"a":["Babcok","Finley","Cook","Weiskittel","Woodall"]},{"id":662,"c":"Bose, A. K.*, Weiskittel, A., Wagner, R. G., and Kuehne, C. 2016. Assessing the factors influencing natural regeneration patterns in the diverse, multi-cohort, and managed forests of Maine, USA. Journal of Vegetation Science 27: 1140-1150.","y":2016,"p":"II","d":"Forest Genetics","s":["Mixed/General"],"ct":61,"u":"https://scholar.google.com/scholar?q=Bose+2016+Assessing+the+factors+influencing+natural+regeneration+patterns+in+the+diverse+multi+cohort","mi":false,"i":["University of Maine"],"a":["Bose","K.*","Weiskittel","Wagner","Kuehne"]},{"id":672,"c":"Strauss S, Sax JK. 2016. Ending Event-Based Regulation of GMO Crops. Nature Biotechnology. 34(5):474-477.","y":2016,"p":"II","d":"General Forestry","s":["Not specified"],"ct":49,"u":"https://scholar.google.com/scholar?q=Strauss+S+2016+Ending+Event+Based+Regulation+of+GMO+Crops","mi":false,"i":["Oregon State University"],"a":[]},{"id":665,"c":"Kuehne, C.*, Weiskittel, A. R., Wagner, R. G., and Roth, B. E. 2016. Development and evaluation of individual tree- and stand-level approaches for predicting spruce-fir response to commercial thinning in Maine, USA. Forest Ecology and Management 376: 84-95.","y":2016,"p":"II","d":"Economics","s":["Spruce"],"ct":48,"u":"https://scholar.google.com/scholar?q=Kuehne+2016+Development+and+evaluation+of+individual+tree+and+stand+level+approaches+for+predicting","mi":false,"i":["University of Maine"],"a":["Kuehne","C.*","Weiskittel","Wagner","Roth"]},{"id":670,"c":"Staengle, S.*, Weiskittel, A., Dormann, C., and Brueche, F. 2016. Measurement and prediction of bark thickness in Picea abies: Assessment of accuracy, precision, and sample size requirements. Canadian Journal of Forest Research 46: 39-47.","y":2016,"p":"II","d":"Modeling","s":["Spruce"],"ct":44,"u":"https://scholar.google.com/scholar?q=Staengle+2016+Measurement+and+prediction+of+bark+thickness+in+Picea+abies+Assessment+of+accuracy","mi":false,"i":["University of Maine"],"a":["Staengle","S.*","Weiskittel","Dormann","Brueche"]},{"id":660,"c":"Puhlick, J.*, Weiskittel, A. R., Fernandez, I. J., Fraver, S., Kenefic, L. S., Seymour, R. S., Kolka, R. K., Rustad, L. E. and Brissette, J. C.. 2016. Long-term influence of alternative forest management treatments on total ecosystem and wood product carbon storage. Canadian Journal of Forest Research 46: 1404-1412.","y":2016,"p":"II","d":"Carbon & Climate","s":["Mixed/General"],"ct":43,"u":"https://scholar.google.com/scholar?q=Puhlick+2016+Long+term+influence+of+alternative+forest+management+treatments+on+total+ecosystem+and","mi":false,"i":["University of Maine"],"a":["Puhlick","J.*","Weiskittel","Fernandez","Fraver","Kenefic","Seymour","Kolka","Rustad","Brissette"]},{"id":657,"c":"Weiskittel, A. R., Kuehne, C.*, McTague, J. P., and Oppenheimer, M. 2016. Development and evaluation of an individual tree growth and yield model for the mixed species forest of the Adirondacks Region of New York, USA. Forest Ecosystems 3: 26.","y":2016,"p":"II","d":"Economics","s":["Mixed/General"],"ct":41,"u":"https://scholar.google.com/scholar?q=Weiskittel+2016+Development+and+evaluation+of+an+individual+tree+growth+and+yield+model+for","mi":false,"i":["University of Maine"],"a":["Weiskittel","Kuehne","C.*","McTague","Oppenheimer"]},{"id":675,"c":"Xu, Y, Cai, N., He, B., Zhang, R., Zhao, W., Mao, J., Duan, A., Li, Y., Woeste, K. 2016. Germination and early seedling growth of Pinus densata Mast. provenances. Journal of Forestry Research 27(2):283-294.","y":2016,"p":"II","d":"Forest Productivity","s":["Pine (other)"],"ct":39,"u":"https://scholar.google.com/scholar?q=Xu+2016+Germination+and+early+seedling+growth+of+Pinus+densata+Mast","mi":false,"i":["Purdue University"],"a":["Cai","Zhang","Zhao","Mao","Duan","Woeste"]},{"id":667,"c":"MacFarlane, D. W. and Weiskittel, A. R. 2016. A new method for capturing stem taper variation for trees of diverse morphological types. Canadian Journal of Forest Research 46: 804-815.","y":2016,"p":"II","d":"General Forestry","s":["Mixed/General"],"ct":35,"u":"https://scholar.google.com/scholar?q=MacFarlane+2016+A+new+method+for+capturing+stem+taper+variation+for+trees+of+diverse","mi":false,"i":["University of Maine"],"a":["MacFarlane","Weiskittel"]},{"id":668,"c":"Puhlick, J. J.*, Fernandez, I. J., and Weiskittel, A. R. 2016. Evaluation of forest management effects on the mineral soil carbon pool of a lowland, mixed-species forest in Maine, USA. Canadian Journal of Soil Science 96: 207-218.","y":2016,"p":"II","d":"Economics","s":["Mixed/General"],"ct":32,"u":"https://scholar.google.com/scholar?q=Puhlick+2016+Evaluation+of+forest+management+effects+on+the+mineral+soil+carbon+pool+of","mi":false,"i":["University of Maine"],"a":["Puhlick","J.*","Fernandez","Weiskittel"]},{"id":671,"c":"Huff E. S.*, Leahy J. E., Hiebeler D., Weiskittel A. R., Noblet C. L. 2015. An agent-based model of private woodland owner management behavior using social interactions, information flow, and peer-to-peer networks. PLoS ONE 10(11): e0142453. doi:10.1371/journal.pone.0142453.","y":2016,"p":"II","d":"Modeling","s":["Not specified"],"ct":32,"u":"https://scholar.google.com/scholar?q=Huff+E.S.%2A+2015+An+agent+based+model+of+private+woodland+owner+management+behavior+using+social","mi":false,"i":["University of Maine"],"a":["S.*"]},{"id":677,"c":"Raymond, J. E., T. R. Fox, B. D. Strahm. (2016). Understanding the fate of applied fertilizer nitrogen in pine plantations of the southeastern USA using stable isotopes.. Forests. 7 270.","y":2016,"p":"II","d":"Forest Nutrition","s":["Pine (other)"],"ct":29,"u":"https://scholar.google.com/scholar?q=Raymond+2016","mi":false,"i":["Virginia Tech"],"a":["Raymond","Fox"]},{"id":678,"c":"James, Jason, Littke, KM, Thiago Bonassi and RB Harrison. 2016. Exchangeable cations in deep forest soils: separating climate and chemical controls on spatial and vertical distribution and cycling. Geoderma, accepted 5/29/2016.","y":2016,"p":"II","d":"Carbon & Climate","s":["Mixed/General"],"ct":29,"u":"https://scholar.google.com/scholar?q=James+2016+Exchangeable+cations+in+deep+forest+soils+separating+climate+and+chemical+controls+on","mi":false,"i":["University of Washington"],"a":["James","Jason","Littke","Bonassi","Harrison"]},{"id":654,"c":"Coyle DR, Aubrey DP, Coleman MD (2016) Growth responses of narrow or broad site adapted tree species to a range of resource availability treatments after a full harvest rotation. For Ecol Manage. 362:107-119. DOI: http://dx.doi.org/10.1016/j.foreco.2015.11.047.","y":2016,"p":"II","d":"Forest Operations","s":["Mixed/General"],"ct":25,"u":"https://scholar.google.com/scholar?q=Coyle+DR+2016+Growth+responses+of+narrow+or+broad+site+adapted+tree+species+to+a","mi":false,"i":["University of Idaho"],"a":[]},{"id":664,"c":"Nelson, A. S.*, Wagner, R. G., Day, M. E., Fernandez, I. J., Weiskittel, A. R., and Saunders, M. R. 2016. Light absorption and light-use efficiency of juvenile white spruce trees in natural stands and plantations. Forest Ecology and Management 376: 158-165.","y":2016,"p":"II","d":"Silviculture","s":["Spruce"],"ct":24,"u":"https://scholar.google.com/scholar?q=Nelson+2016+Light+absorption+and+light+use+efficiency+of+juvenile+white+spruce+trees+in","mi":true,"i":["University of Maine","Purdue University"],"a":["Nelson","S.*","Wagner","Day","Fernandez","Weiskittel","Saunders"]},{"id":659,"c":"Hayashi, R.*, Weiskittel, A. R. and Kershaw, J. A. 2016. Influence of prediction cell size on LiDAR-derived area-based estimates of total volume in mixed-species and multi-cohort forests in northeastern North America. Canadian Journal of Remote Sensing 42: 473-488.","y":2016,"p":"II","d":"Remote Sensing","s":["Mixed/General"],"ct":21,"u":"https://scholar.google.com/scholar?q=Hayashi+2016+Influence+of+prediction+cell+size+on+LiDAR+derived+area+based+estimates+of","mi":false,"i":["University of Maine"],"a":["Hayashi","R.*","Weiskittel","Kershaw"]},{"id":658,"c":"McTague, J. P. and Weiskittel, A. R. 2016. Individual-tree competition indices and improved compatibility with stand-level estimates of stem density and long-term production. Forests 7: 238.","y":2016,"p":"II","d":"Wood Science","s":["Mixed/General"],"ct":19,"u":"https://scholar.google.com/scholar?q=McTague+2016+Individual+tree+competition+indices+and+improved+compatibility+with+stand+level+estimates+of","mi":false,"i":["University of Maine"],"a":["McTague","Weiskittel"]},{"id":661,"c":"Westfall, J. A., McRoberts, R. E., Radtke, P. J., and Weiskittel, A. R. 2016. Effects of uncertainty in upper-stem diameter information on tree volume estimates. European Journal of Forest Research 135: 937-947.","y":2016,"p":"II","d":"Forest Productivity","s":["Mixed/General"],"ct":19,"u":"https://scholar.google.com/scholar?q=Westfall+2016+Effects+of+uncertainty+in+upper+stem+diameter+information+on+tree+volume+estimates","mi":true,"i":["University of Maine","Virginia Tech"],"a":["Westfall","McRoberts","Radtke","Weiskittel"]},{"id":655,"c":"Page-Dumroese DS, Coleman M, Thomas SC (2016) Opportunities and uses of biochar on forest sites in North America. In: Bruckman VJ, Varol EA, Uzun BB, Liu J (eds) Biochar: a regional supply chain approach in view of climate change mitigation. Cambridge University Press, pp 315-335.","y":2016,"p":"II","d":"Carbon & Climate","s":["Mixed/General"],"ct":18,"u":"https://scholar.google.com/scholar?q=Page-Dumroese+DS+2016+Opportunities+and+uses+of+biochar+on+forest+sites+in+North+America","mi":false,"i":["University of Idaho"],"a":[]},{"id":674,"c":"Hu, Y., Woeste, K. E., Dang, M., Zhou, T., Feng, X., Zhao, G., Liu, Z., Li, Z., and Zhao, P. 2016. The complete chloroplast genome of common walnut (Juglans regia). Mitogenome DNA: Resources DOI: 10.108023802359.2015.1137804.","y":2016,"p":"II","d":"General Forestry","s":["Not specified"],"ct":17,"u":"https://scholar.google.com/scholar?q=Hu+2016+The+complete+chloroplast+genome+of+common+walnut","mi":false,"i":["Purdue University"],"a":["Woeste","Dang","Zhou","Feng","Zhao","Liu","Zhao"]},{"id":652,"c":"Ridout M, Newcombe G (2016) Disease suppression in winter wheat from novel symbiosis with forest fungi. Fungal Ecology. 20:40-48. DOI: http://dx.doi.org/10.1016/j.funeco.2015.10.005.","y":2016,"p":"II","d":"General Forestry","s":["Mixed/General"],"ct":16,"u":"https://scholar.google.com/scholar?q=Ridout+M+2016+Disease+suppression+in+winter+wheat+from+novel+symbiosis+with+forest+fungi","mi":false,"i":["University of Idaho"],"a":[]},{"id":679,"c":"Littke, KM, RB Harrison and D Zabowski. 2016. Determining the Effects of Biogeoclimatic Properties on Different Site Index Systems of Douglas-fir in the Coastal Pacific Northwest. Forest Science, accepted 4/1/2016.","y":2016,"p":"II","d":"Soil Science","s":["Douglas-fir"],"ct":15,"u":"https://scholar.google.com/scholar?q=Littke+2016+Determining+the+Effects+of+Biogeoclimatic+Properties+on+Different+Site+Index+Systems+of","mi":false,"i":["University of Washington"],"a":["Littke","Harrison","Zabowski"]},{"id":663,"c":"Puhlick. J. J*, Weiskittel, A. R., Fraver, S., Russell, M. B., and Kenefic, L. K. 2016. Assessing the role of natural disturbance and forest management on dead wood dynamics in mixed-species stands of central Maine, USA. Canadian Journal of Forest Research 46: 1-11.","y":2016,"p":"II","d":"Wood Science","s":["Mixed/General"],"ct":14,"u":"https://scholar.google.com/scholar?q=Puhlick.+J.J%2A+2016+Assessing+the+role+of+natural+disturbance+and+forest+management+on+dead+wood","mi":false,"i":["University of Maine"],"a":["Weiskittel","Fraver","Russell","Kenefic"]},{"id":669,"c":"Puhlick, J. J.*, Fraver, S., Fernandez, I. J., Weiskittel, A. R, Kenefic, L. 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Douglas-fir - are the effect of tree and site data visibly rendered in the annual ring width pattern at breast height? For. Prod. Journal, accepted 2016.","y":2016,"p":"II","d":"Modeling","s":["Douglas-fir"],"ct":2,"u":"https://scholar.google.com/scholar?q=Hoibo+2016+Models+of+knot+characteristics+in+young+coastal+U","mi":false,"i":["University of Washington"],"a":["Hoibo","Turnblom"]},{"id":610,"c":"BUSBY, P. E., RIDOUT, M., and NEWCOMBE, G. 2015. Fungal endophytes and their role in plant disease. Plant Molecular Biology 90: (doi:1 0.\u200b1007/\u200bs11103-015-0412-0).","y":2015,"p":"II","d":"General Forestry","s":["Not specified"],"ct":513,"u":"https://scholar.google.com/scholar?q=BUSBY+2015+Fungal+endophytes+and+their+role+in+plant+disease","mi":false,"i":["University of Idaho"],"a":["BUSBY","RIDOUT","NEWCOMBE"]},{"id":615,"c":"Silver, E. J.*, Leahy, J. E., Kitteridge, D., and Weiskittel, A. R. 2015. An evidence-based review of timber harvesting behavior among private woodland owners. Journal of Forestry 113: 490-499.","y":2015,"p":"II","d":"Forest Operations","s":["Mixed/General"],"ct":166,"u":"https://scholar.google.com/scholar?q=Silver+2015+An+evidence+based+review+of+timber+harvesting+behavior+among+private+woodland+owners","mi":false,"i":["University of Maine"],"a":["Silver","J.*","Leahy","Kitteridge","Weiskittel"]},{"id":618,"c":"Weiskittel, A. R., MacFarlane, D. W., Radtke, P. J., Affleck, D. L. R., Temesgen, H., Westfall, J. A., Woodall, C. W., and Coulston, J. W. 2015. A call to improve methods for estimating tree biomass for regional and national assessments. Journal of Forestry 113: 414-424.","y":2015,"p":"II","d":"Forest Productivity","s":["Mixed/General"],"ct":136,"u":"https://scholar.google.com/scholar?q=Weiskittel+2015+A+call+to+improve+methods+for+estimating+tree+biomass+for+regional+and","mi":true,"i":["University of Maine","Virginia Tech","Oregon State University"],"a":["Weiskittel","MacFarlane","Radtke","Affleck","Temesgen","Westfall","Woodall","Coulston"]},{"id":623,"c":"Nelson, A. S.*, Weiskittel, A. R., Saunders, M. R., and Wagner, R. G. 2014. Development and validation of small-diameter aboveground biomass equations for naturally-regenerated and planted tree species in eastern Maine. Biomass & Bioenergy 68: 215-227.","y":2015,"p":"II","d":"Forest Productivity","s":["Mixed/General"],"ct":136,"u":"https://scholar.google.com/scholar?q=Nelson+2014+Development+and+validation+of+small+diameter+aboveground+biomass+equations+for+naturally+regenerated","mi":true,"i":["University of Maine","Purdue University"],"a":["Nelson","S.*","Weiskittel","Saunders","Wagner"]},{"id":630,"c":"Howe GT, Horvath DP, Dharmawardhana P, Priest HD, Mockler TC, Strauss SH. 2015. Extensive Transcriptome Changes During Natural Onset and Release of Vegetative Bud Dormancy in Populus. Front. Plant Sci..","y":2015,"p":"II","d":"General Forestry","s":["Poplar"],"ct":120,"u":"https://scholar.google.com/scholar?q=Howe+GT+2015+Extensive+Transcriptome+Changes+During+Natural+Onset+and+Release+of+Vegetative+Bud+Dormancy","mi":false,"i":["Oregon State University"],"a":[]},{"id":604,"c":"Zhao, D., M. Kane, D. Markewitz, R. Teskey, and M. Clutter. 2015. 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Phosphorus nutrition of forest plantations: the role of inorganic and organic P. Chapter 13 In: Buneman, E., A. Oberson, and E. Frossard (eds). Phosphorus in action \u2013 biological processes in soil phosphorus cycling. Springer.","y":2010,"p":"I","d":"Forest Nutrition","s":["Mixed/General"],"ct":61,"u":"https://scholar.google.com/scholar?q=Fox+2010+Phosphorus+nutrition+of+forest+plantations+the+role+of+inorganic+and+organic+P","mi":true,"i":["Virginia Tech","North Carolina State University"],"a":["Fox","Miller","Rubilar","Stape","Albaugh"]},{"id":193,"c":"Marsden C, G. Maire, J. L. Stape, D. Seen, O. Roupsard, Y. Nouvellon. 2010. Relating MODIS vegetation index time-series with structure, light absorption and stem production of fast-growing Eucalyptus plantations in Brazil. Forest Ecology and Management 259(9): 1741-1753.","y":2010,"p":"I","d":"Silviculture","s":["Eucalyptus (other)"],"ct":59,"u":"https://scholar.google.com/scholar?q=Marsden+C+2010+Relating+MODIS+vegetation+index+time+series+with+structure+light+absorption+and+stem","mi":false,"i":["North Carolina State University"],"a":["Maire","Stape","Seen","Roupsard","Nouvellon"]},{"id":223,"c":"Liu, X. and Pijut, P. M. 2010. Agrobacterium-mediated transformation of mature Prunus serotina (black cherry) and regeneration of transgenic shoots. Plant Cell Tissue and Organ Culture 101:49-57.","y":2010,"p":"I","d":"Forest Genetics","s":["Not specified"],"ct":58,"u":"https://scholar.google.com/scholar?q=Liu+2010+Agrobacterium+mediated+transformation+of+mature+Prunus+serotina+and+regeneration+of+transgenic+shoots","mi":false,"i":["Purdue University"],"a":["Liu","Pijut"]},{"id":138,"c":"Gonzalez-Benecke, C. A., and T. A. Martin. 2010. 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