@article{roise_williams_barker_morton-aslanis_2022, title={Field and full-scale laboratory testing of prototype wildland fire shelters}, volume={31}, ISSN={["1448-5516"]}, DOI={10.1071/WF21102}, abstractNote={This paper describes a series of tests conducted to evaluate prototype fire shelters designed to provide enhanced thermal protective insulation in wildland fire burn-over events. Full-scale laboratory and field tests are used to compare the thermal performance of the prototypes with a fire shelter construction in current use in the United States. Laboratory tests showed that the prototype fire shelters outperformed the current shelter in providing fire-blocking thermal insulation in tests designed to simulate exposure to the intense flame conditions encountered in wildland fires. Field tests supported laboratory comparisons, but proved to be statistically inconclusive in differentiating shelter performance because of the variability inherent in thermal data obtained in field burns. This study confirmed the value of evaluating prototype shelter designs in laboratory tests capable of reproducibly simulating exposure to turbulent flames encountered in wildland fires.}, number={5}, journal={International Journal of Wildland Fire}, author={Roise, Joseph and Williams, John and Barker, R. and Morton-Aslanis, J.}, year={2022}, month={Apr}, pages={518–528} }
 @article{monti_oliveira_roise_scolforo_gomide_2022, title={Hybrid Method for Fitting Nonlinear Height-Diameter Functions}, volume={13}, ISSN={["1999-4907"]}, url={https://www.mdpi.com/1999-4907/13/11/1783}, DOI={10.3390/f13111783}, abstractNote={Regression analysis is widely applied in many fields of science to estimate important variables. In general, nonlinear regression is a complex optimization problem and presents intrinsic difficulties in estimating reliable parameters. Nonlinear optimization algorithms commonly require a precise initial estimate to return reasonable estimates. In this work, we introduce a new hybrid algorithm based on the association of a genetic algorithm with the Levenberg–Marquardt method (GALM) to adjust biological nonlinear models without knowledge of initial parameter estimates. The proposed hybrid algorithm was applied to 12 nonlinear models widely used in forest sciences and 12 databases under varying conditions considering classic hypsometric relationships to evaluate the robustness of this new approach. The hybrid method involves two stages; the curve approximation process begins with a genetic algorithm with a modified local search approach. The second stage involves the application of the Levenberg–Marquardt algorithm. The final performance of the hybrid method was evaluated using total fitting for all tested models and databases, confirming the reliability of the proposed algorithm in providing stable parameter estimates. The GA was able to predict the initial parameters, which assisted the LM in converging efficiently. The developed GALM method is effective, and its application is recommended for biological nonlinear analyses.}, number={11}, journal={FORESTS}, author={Monti, Cassio Augusto Ussi and Oliveira, Rafael Menali and Roise, Joseph Peter and Scolforo, Henrique Ferraco and Gomide, Lucas Rezende}, year={2022}, month={Nov} }
 @article{mohan_rue_bajaj_galgamuwa_adrah_aghai_broadbent_khadamkar_sasmito_roise_et al._2021, title={Afforestation, reforestation and new challenges from COVID-19: Thirty-three recommendations to support civil society organizations (CSOs)}, volume={287}, ISSN={0301-4797}, url={http://dx.doi.org/10.1016/j.jenvman.2021.112277}, DOI={10.1016/j.jenvman.2021.112277}, abstractNote={Afforestation/reforestation (A/R) programs spearheaded by Civil Society Organizations (CSOs) play a significant role in reaching global climate policy targets and helping low-income nations meet the United Nations (UN) Sustainable Development Goals (SDGs). However, these organizations face unprecedented challenges due to the COVID-19 pandemic. Consequently, these challenges affect their ability to address issues associated with deforestation and forest degradation in a timely manner. We discuss the influence COVID-19 can have on previous, present and future A/R initiatives, in particular, the ones led by International Non-governmental Organizations (INGOs). We provide thirty-three recommendations for exploring underlying deforestation patterns and optimizing forest policy reforms to support forest cover expansion during the pandemic. The recommendations are classified into four groups - i) curbing deforestation and improving A/R, ii) protecting the environment and mitigating climate change, iii) enhancing socio-economic conditions, and iv) amending policy and law enforcement practices.}, journal={Journal of Environmental Management}, publisher={Elsevier BV}, author={Mohan, Midhun and Rue, Hayden A. and Bajaj, Shaurya and Galgamuwa, G.A. Pabodha and Adrah, Esmaeel and Aghai, Matthew Mehdi and Broadbent, Eben North and Khadamkar, Omkar and Sasmito, Sigit D. and Roise, Joseph and et al.}, year={2021}, month={Jun}, pages={112277} }
 @article{scolforo_mctague_burkhart_roise_alvares_stape_2020, title={Site index estimation for clonal eucalypt plantations in Brazil: A modeling approach refined by environmental variables}, volume={466}, ISSN={["1872-7042"]}, DOI={10.1016/j.foreco.2020.118079}, abstractNote={Growth models have been applied to assess the growth potential for areas without previous forest plantation records and to update forest inventory when commercial stands have been planted. However, there is a lack of growth models capable of incorporating environmental variables for updating forest inventories and recomputing site quality throughout Brazil. Consequently, this research aimed to deliver a compatible set of prediction and projection growth equations with parameters refined by environmental variables. The dataset used through this study is composed of remeasurement information of 16 research sites in Brazil. At each site, the same eleven eucalypt clones were planted in single block plots. Extra block plots were also installed in 14 sites to evaluate eucalyptus growth under drier climate scenarios. Four different competing model forms were tested. A common parameter of the best compatible set of growth equations was refined to test the magnitude of the environment effect on the prediction and projections of dominant height/site index in clonal eucalypt stands in Brazil. The compatible set of Chapman-Richards growth equations displayed the most accurate estimates of dominant height for clonal eucalypt plantations in Brazil. The common asymptote parameters between the growth models were refined as a function of annual soil water deficit (SWD), and a gain in accuracy of the projected and predicted dominant height estimates was observed. It is relevant to highlight that the developed set of growth equations possesses the ability to make short-, medium- and long-term predictions and projections with more assuredness about the biological behavior and its soundness. This feature ensures accurate estimation of site-specific growth curves.}, journal={FOREST ECOLOGY AND MANAGEMENT}, author={Scolforo, Henrique Ferraco and McTague, John Paul and Burkhart, Harold and Roise, Joseph and Alvares, Clayton Alcarde and Stape, Jose Luiz}, year={2020}, month={Jun} }
 @inproceedings{phillips_moorman_roise_jordan_2020, title={Using Stand Structure and Composition to Qualify Habitat for Focal Forest Species and Guilds}, author={Phillips, Casey E. and Moorman, Christopher and Roise, Joseph P. and Jordan, Christopher}, year={2020} }
 @article{scolforo_mctauge_burkhart_roise_campoe_stape_2019, title={Eucalyptus growth and yield system: linking individual-tree and stand-level growth models in clonal eucalypt plantations in Brazil}, volume={432}, ISSN={0378-1127}, url={http://dx.doi.org/10.1016/j.foreco.2018.08.045}, DOI={10.1016/j.foreco.2018.08.045}, abstractNote={Linking individual-tree and stand-level growth models is required for estimating future forest stand structure, while maintaining the desired accuracy for forest management decision making. There is a scarcity of studies addressing this issue for clonal Eucalypt stands in Brazil. Thus, this paper aims to develop a compatible individual-tree and stand-level growth and yield system for clonal Eucalypt stands in Brazil. The dataset used in this study is derived from remeasurement information of sixteen TECHS sites. At every site, eleven Eucalypt clones were planted in single block plots, while extra plots under a rainfall exclusion regime were also installed in fourteen sites. Prediction and projection diameter percentile equations were developed, as well as an individual-tree mortality equation and a generalized height-diameter equation. In addition, a detailed explanation of the structural architecture of the developed compatible growth and yield system is provided. Differences when forecasting forest afforestation and updating forest inventories were highlighted in order to provide the proper use of the developed growth and yield system. Finally, the individual-tree equations were validated through the use of the rainfall exclusion regime plots as was the growth and yield system when applied for prediction and projection purposes. The individual-tree level equations provided accurate estimates. The newly developed compatible growth and yield system also displayed unbiased and accurate estimates. The system achieved full compatibility between individual-tree and stand-level estimates and produced accurate stand table estimates. The growth and yield system presented is a powerful analytical tool that can serve to update inventory data in tropical Brazil and also to provide estimates for expected forest afforestation. The system has the capability of providing detailed outputs, which allows forest managers to consider merchandizing the clonal Eucalypt stands into multiple products.}, journal={Forest Ecology and Management}, publisher={Elsevier BV}, author={Scolforo, H. and McTauge, J.P. and Burkhart, H. and Roise, J. and Campoe, O. and Stape, J.}, year={2019}, pages={1–16} }
 @article{scolforo_mctague_burkhart_roise_carneiro_stape_2019, title={Generalized stem taper and tree volume equations applied to eucalyptus of varying genetics in Brazil}, volume={49}, ISSN={["1208-6037"]}, DOI={10.1139/cjfr-2018-0276}, abstractNote={Lack of generalized equations has prevailed in Brazil, because it is assumed that localized or climate-specific equations are needed. This study aimed to develop generalized stem taper and volume equations applicable to 11 eucalyptus clones and evaluate if climate variation impacts the accuracy of the estimates. A total of 693 trees evenly distributed across 11 clones at 21 sites were used for model fittings and predictive validation. The penalized mixed spline (PMS) approach was developed for predicting stem taper and volume along the stem profile. The Schumacher and Hall (1933) equation was used to predict total tree volume, while volume ratio equations were applied to predict merchantable volume. For every fitted equation, an annual climatic variable was included to assess the improvement in model performance. The overall results highlighted that climatic variation does not need to be accounted for in stem taper and volume modeling. All of the equations displayed desirable accuracy, but the generalized PMS equation may be preferred when the forestry enterprise looks to furnish a range of multiple forest products. The generalized total tree volume equation, combined with the ratio equations, is highly recommended when the forestry enterprise produces a single product.}, number={5}, journal={CANADIAN JOURNAL OF FOREST RESEARCH}, author={Scolforo, Henrique Ferraco and McTague, John Paul and Burkhart, Harold and Roise, Joseph and Carneiro, Rafaela Lorenzato and Stape, Jose Luiz}, year={2019}, month={May}, pages={447–462} }
 @article{scolforo_mctague_burkhart_roise_alvares_stape_2019, title={Modeling whole-stand survival in clonal eucalypt stands in Brazil as a function of water availability}, volume={432}, ISSN={["1872-7042"]}, DOI={10.1016/j.foreco.2018.10.044}, abstractNote={Several approaches for modeling whole-stand survival or mortality have been reported in the literature, although this component is often times neglected for clonal eucalypt stands in Brazil. In addition, the traditional form for projecting whole-stand survival appears incomplete for clonal eucalypt stands, since this tree species is highly sensitive to lack of water in the environment. Consequently, this study aimed to define the best approach to estimate whole-stand survival in clonal eucalypt stands and to develop a new approach for modeling whole-stand survival as a function of cumulative soil water deficit. Remeasurement of sixteen research sites composed the database used in this study. At each research site, the same eleven eucalypt clones were planted in single block plots, which results in a total of 176 plots distributed across Brazil. Two traditional approaches (two-step approach and direct estimation) were tested for modeling whole-stand survival. Additionally a new approach that replaces the age term by cumulative soil water deficit (cumulative SWD) was compared to the best selected traditional approach to estimate whole-stand survival in clonal eucalypt stands. The direct projection approach of whole-stand survival displayed better results when compared to the two-step approach. In addition, the replacement of age by cumulative SWD in the direct estimation approach allowed for an increase in the explanatory ability of the developed difference model. The newly developed difference model employing the direct estimation approach constrained by cumulative SWD ensures that the environmental stress effect is reflected on the survival of clonal eucalypt stands over time, and it is more biologically sound for extrapolation purposes.}, journal={FOREST ECOLOGY AND MANAGEMENT}, author={Scolforo, Henrique Ferraco and McTague, John Paul and Burkhart, Harold and Roise, Joseph and Alvares, Clayton Alcarde and Stape, Jose Luiz}, year={2019}, month={Jan}, pages={1002–1012} }
 @article{scolforo_mctague_burkhart_roise_mccarter_alvares_stape_2019, title={Stand-level growth and yield model system for clonal eucalypt plantations in Brazil that accounts for water availability}, volume={448}, ISSN={["1872-7042"]}, DOI={10.1016/j.foreco.2019.06.006}, abstractNote={Growth and yield (G &Y) model systems aim at forecasting forest productivity. The lack of environmental variables to account for how water availability constrains eucalyptus production in Brazil, however, is argued to be a major drawback of these model systems. Thus, this study aimed to develop a stand-level G & Y model system that accounts for water availability (G & Y with SWD), highlighting its usefulness when applied for clonal eucalypt stands under drier climatic conditions. The dataset is composed of remeasurement information of sixteen research sites that span all climatic regions in Brazil. A total of eleven eucalypt clones were planted in single block plots at each site, and extra replications under the rainfall exclusion system were also installed for these eleven clones in fourteen sites. Linear algebra techniques were used to simultaneously fit a compatible set of prediction and projection basal area equations. A stand-level volume equation was also developed. These equations were validated through the use of an independent dataset composed of the rainfall exclusion plots. Finally, the accuracy and usefulness of a conventional G & Y model system applied to clonal eucalypt stands in Brazil was compared to the new proposed G & Y model system, which accounts for the impact of water availability in eucalyptus productivity. The prediction and projection basal area equations accounting for water availability displayed estimates in the order of 5% more accurate compared to the conventional basal area modeling. Stand-level volume estimates were 40% and 74% less biased through the use of the new G & Y model system. This result highlighted how useful and powerful the newly developed approach is, since the model system was capable to provide accurate estimates through the use of the rainfall exclusion plots. The new G & Y model system is a powerful alternative to estimate forest afforestation yield and is fully capable to accurately update forest inventories. The model system can also be used for projecting how forest growth may be impacted by short-term climate variation.}, journal={FOREST ECOLOGY AND MANAGEMENT}, author={Scolforo, Henrique Ferraco and McTague, John Paul and Burkhart, Harold and Roise, Joseph and McCarter, James and Alvares, Clayton Alcarde and Stape, Jose Luiz}, year={2019}, month={Sep}, pages={22–33} }
 @article{mohan_catts_vaughan_roise_silva_mccarter_jat_wan mohd jaafar_gopan_abdul maulud_2019, title={What Makes a Location into a “Favorable Habitat” under Changing Climate and Environmental Conditions? A Pilot Study Focused on Exploring the Differences between Natural and Non-natural Habitats using Airborne LiDAR}, volume={228}, ISSN={1755-1315}, url={http://dx.doi.org/10.1088/1755-1315/228/1/012018}, DOI={10.1088/1755-1315/228/1/012018}, abstractNote={Recovery plans supported by conservation models are critical for the protection of endangered species. For developing these models, parameters are most commonly extracted via field survey or remote sensing based methods. However, at times, these models get narrowed down to specific habitat features associated with naturally occurring ecosystems, and thereby fail to detect suitable non-natural habitats that the animals have gotten adapted to in recent years - as a survival mechanism to cope up with the dynamic climate and environmental conditions. As a first step to address this issue, we considered the case of Red-cockaded woodpecker (RCW) species and undertook a pilot study to explore the characteristics of non-natural locations that make it favorable for RCW nesting. On exploring the differences in habitat characteristics of natural and non-natural ecosystems - by employing airborne laser scanning data and logistic regression analysis method - we identified new prominent forest attributes and their variations for each habitat types. Based on our findings, we provide fruitful interpretations, recommendations and encourage discussions on less-studied conservation aspects and hope to stretch the horizons of ongoing biodiversity conservation efforts in the wake of global environmental change.}, journal={IOP Conference Series: Earth and Environmental Science}, publisher={IOP Publishing}, author={Mohan, M and Catts, G P and Vaughan, B and Roise, J P and Silva, C A and McCarter, J B and Jat, P. and Wan Mohd Jaafar, W S and Gopan, G and Abdul Maulud, K N}, year={2019}, month={Feb}, pages={012018} }
 @article{scolforo_mctague_burkhart_roise_campoe_stape_2019, title={Yield pattern of eucalypt clones across tropical Brazil: An approach to clonal grouping}, volume={432}, DOI={10.1016/j.foreco.2018.08.051}, abstractNote={The research objective of this paper was to group eleven widely planted eucalypt clones based on their volume yield pattern by assessing how climatic variation impacts their productivity in tropical Brazil. A total of 187 plots evenly distributed across eleven clones and 17 sites (from Paraná to Pará State) were used. Plot measurements were carried out every six months (from 2013 to 2017) to evaluate eucalyptus growth. Since the year of plot establishment differs across the sites, volumes of all the plots and sites were standardized at a common age of 5 years. Clonal grouping analysis was performed based on the common age for volume yields using a new approach, which consisted of three steps: (1) create general groups based on testing of the slope coefficient, which was applied to every clonal-specific regression with volume yield as a function of annual water deficit index (WDI); (2) split each general group using volume yield deviation computations into subgroups of high and low productivity; (3) apply linear mixed effects models for every subgroup in order to confirm the non-existence of statistical difference among the volume yield of the clones. Statistical tests showed satisfactory yield estimates at the common age of 5 years. Clonal grouping revealed the identification of four groups (A: high productivity and non-sensitive to climate variation, B: high productivity and sensitive to climate variation, C: low productivity and sensitive to climate variation, D: low productivity and non-sensitive to climate variation). The volume yield of the Clonal group B was detected to be the most impacted by annual water deficit index variation, followed by clonal groups C, A and D. The findings of the study highlighted the utility of the proposed approach for grouping clones. Group identification and detection of the climatic impact on yield patterns was evaluated as a measure to increase site-specific productivity.}, journal={Forest Ecology and Management}, author={Scolforo and McTague, J.P. and Burkhart, H. and Roise, J. and Campoe, O. and Stape, J.}, year={2019}, pages={30–39} }
 @inproceedings{roise_barker_2018, title={Lab and Field Testing of the New Advance Material Fire Shelter}, author={Roise, J.P. and Barker, R.}, year={2018} }
 @article{scolforo_soares scolforo_thiersch_thiersch_mctague_burkhart_ferraz filho_mello_roise_2017, title={A model of tropical tree diameter growth and its application to identify fast-growing Native tree species}, volume={400}, ISSN={["1872-7042"]}, DOI={10.1016/j.foreco.2017.06.048}, abstractNote={The Atlantic forest biome in Brazil possesses many suitable tree species for cultivation and restoration purposes. This biome was the most rapidly and extensively exploited forest type in Brazil and it displays areas ill-suited for eucalyptus cultivation. Since tropical tree species usually do not form growth rings and long-term growth data are still not available in Brazil, this study addressed a new approach to diameter growth rate estimation. The approach was developed in order to alleviate the shortage of species-specific growth information for the Atlantic forest biome. The two reasons for developing the approach were: (1) the possibility of increased ecological and economic diversification of plantation forests beyond eucalyptus, and (2) the potential to identify suitable tree species for restoration programs in the biome. Either reason requires growth models with sound biological properties. The data used in this study came from 20 native forest fragments and included six tropical tree species. Forest inventory to assess forest growth was first conducted in 2003, while the re-measurement was conducted in 2008. A non-linear exponential model, containing an asymptote parameter as a function of stand density, was fit to estimate tree species diameter growth rate for each of the six tree species in the study. Additionally, based on the exponential model, a formulation of the time required for each tree species to reach a given diameter was developed. The fitted models exhibited high variability among the six tree species, but they performed well with respect to tree growth behavior. Since the model accounted for stand density, it was possible to predict how different stand densities would affect each tree species growth over time. Finally, the tree species Triplaris gardneriana Weddell, Inga vera Willd. and Xylopia brasiliensis Spreng are recommended as potentially fast-growing tree species in the Atlantic forest biome. These tree species exhibited good growth rates regardless the stand density simulated (1600/ha, 2000/ha, and 2400/ha) to reach a dbh of 10 cm (Xylopia brasiliensis Spreng - 16 years, 17 years, and 18 years; Triplaris gardneriana Weddell - 15 years, 17 years, and 21 years; Inga vera Willd. - 25 years, 25.5 years, and 26 years) and showed promising potential for both restoration and production programs. The developed approach reveals a unique diameter growth rate prediction method.}, journal={Forest Ecology and Management}, author={Scolforo, Henrique Ferraco and Soares Scolforo, Jose Roberto and Thiersch, Claudio Roberto and Thiersch, Monica Fabiana and McTague, John Paul and Burkhart, Harold and Ferraz Filho, Antonio Carlos and Mello, Jose Marcio and Roise, Joseph}, year={2017}, pages={578–586} }
 @inproceedings{roise_2017, title={Advanced Material Fire Shelter Testing}, author={Roise, J.P.}, year={2017}, month={Oct} }
 @inproceedings{quintanilla-berjon_roise_catts_montero-munoz_2017, place={Barcelona Spain}, title={Evaluation of Two Fuel Sampling Techniques for Estimating Surface Fuel Loading in Longleaf Ecosystems}, author={Quintanilla-Berjon, Veronica and Roise, J. and Catts, G. and Montero-Munoz, J.}, year={2017} }
 @inproceedings{roise_2017, title={Field Testing Advanced Material Fire Shelters}, author={Roise, J.P.}, year={2017}, month={Nov} }
 @inproceedings{roise_2017, title={Performance Measures of the New Fire Shelter}, author={Roise, J.P.}, year={2017} }
 @inproceedings{roise_2017, title={Preliminary Report on Field and Lab testing of Avanced Material Fire Shelters}, author={Roise, J.P.}, year={2017}, month={Sep} }
 @article{roise_2017, edition={ET}, title={Wood markets play a critical role in wildfire prevention}, journal={Asheville Citizen Times, North Carolina}, author={Roise, J.P.}, year={2017}, month={Feb} }
 @book{roise_2016, title={Introduction to Fire Ecology}, url={https://www.youtube.com/watch?v=5xjVXybavO0}, author={Roise, J.P.}, year={2016}, month={Aug} }
 @inproceedings{hix_mcgowan-stinski_goebel_roise_long_edwards_cheng_2016, title={Linking Science and Natural Resource Management through the JFSP Fire Science Exchange Network}, author={Hix, David M. and McGowan-Stinski, Jack and Goebel, Charles and Roise, Joseph and Long, Alan and Edwards, Gloria and Cheng, Tony}, year={2016} }
 @article{roise_harnish_mohan_scolforo_chung_kanieski_catts_mccarter_posse_shen_2016, title={Valuation and production possibilities on a working forest using multi-objective programming, Woodstock, timber NPV, and carbon storage and sequestration}, volume={31}, ISSN={["1651-1891"]}, DOI={10.1080/02827581.2016.1220617}, abstractNote={ABSTRACT This study analyzes the trade-off between net present value (NPV) of timber resources, and carbon sequestration and storage for a working forest, the Hofmann Forest in North Carolina, USA. Multi-objective optimization is used to determine the production possibility curves showing the relationship between NPV and carbon. We then perform a sensitivity analysis to explore alternative management strategies. For carbon yields we used aboveground pools: branches, leaves, tops and bole as estimated by the Forest Vegetation Simulator (FVS) and LOBDSS using the California Carbon Market Protocols, including product carbon. Timber yields of sawtimber, chip-n-saw and pulpwood were estimated by LOBDSS for planted stands less than 49 years of age, and FVS was used for all natural stands and planted stands 49 years and over. Our results reveal that NPV opportunity costs associated with increasing carbon sequestration at Hofmann Forest are less than the current California carbon market price.}, number={7}, journal={SCANDINAVIAN JOURNAL OF FOREST RESEARCH}, author={Roise, J. P. and Harnish, K. and Mohan, M. and Scolforo, H. and Chung, J. and Kanieski, B. and Catts, G. P. and McCarter, J. B. and Posse, J. and Shen, T.}, year={2016}, pages={674–680} }
 @article{gharis_roise_mccarter_2015, title={A compromise programming model for developing the cost of including carbon pools and flux into forest management}, volume={232}, ISSN={["1572-9338"]}, DOI={10.1007/s10479-013-1519-9}, number={1}, journal={ANNALS OF OPERATIONS RESEARCH}, author={Gharis, L. and Roise, J. and McCarter, J.}, year={2015}, month={Sep}, pages={115–133} }
 @inproceedings{roise_2015, title={Implementation of Wildland Fire Science in the United States}, author={Roise, J.P.}, year={2015}, month={Oct} }
 @inproceedings{roise_mohan_chung_catts_posse_shen_harnish_scolforo_kanieski da silva_mccarter_2015, place={Uppsala Sweden}, title={Multiple Objective Tradeoff Analysis between Timber NPV and Carbon Storage and Sequestration}, author={Roise, Joseph and Mohan, M. and Chung, Woodam and Catts, Glenn and Posse, Juan P. and Shen and Harnish, Kevin and Scolforo, Henrique and Kanieski da Silva, Bruno and McCarter, James}, year={2015}, month={Aug} }
 @inproceedings{hopkins_roise_2015, title={Optimization of Logging Residue Drying for Energy Products}, url={https://www.skogforsk.se/cd_20190114162235/contentassets/d77a684b898a446b9bacdf086acae8ae/joseph-roise3-ssafr-2015.pdf}, author={Hopkins, Chris and Roise, Joseph}, year={2015}, month={Aug} }
 @book{roise_2014, title={2014 Rx Fire at Summer Camp}, url={https://www.youtube.com/watch?v=YKiKqeaKDM8}, author={Roise, J.P.}, year={2014} }
 @article{gharis_roise_mccarter_2014, title={A multiple objective model for including carbon in forests, in wood products, and through product substitution}, journal={Annals of Operations Research}, author={Gharis, L. and Roise, Joseph and McCarter}, year={2014}, pages={1–19} }
 @misc{roise_2014, title={Sustainable Forest Ecosystems: The Theory of Forest-Human Interactions or Socio-Ecology}, author={Roise, Joseph}, year={2014}, month={May} }
 @book{roise_catts_hazel_a. hobbs a._hopkins_2013, title={Balancing biomass harvesting and drying tactics with delivered payment practice}, journal={Technical Report- Not held in TRLN member libraries}, institution={Greenville, S.C.: US Endowment for Forestry and Community}, author={Roise, J. P. and Catts, G. and Hazel, D. and A. Hobbs A. and Hopkins, C.}, year={2013} }
 @book{roise_browne_hertl_2012, title={Raleigh Durham International Airport Wildlife Hazard Management Plan}, institution={Approved by FAA, study commissioned by RDU}, author={Roise, J.P. and Browne, M. and Hertl, P.}, year={2012} }
 @inproceedings{catts_roise_hannum_2011, title={Toward the development of a commercial system to effectively harvest small- diameter woody biomass for energy production, habitat management and wildfire risk reduction}, author={Catts, G. and Roise, Joseph and Hannum, L.}, year={2011}, month={Mar} }
 @inproceedings{roise_hannum_catts_2009, title={Machine system for harvesting small diameter woody biomass and reducing hazardous fuels: A developmental report}, DOI={10.13031/2013.28860}, abstractNote={This is a report on field testing and refinement of the first generation FECON Bio-Harvester, designed to swath harvest small diameter woody biomass of mixed species and size classes. The machine system consisted of a unique harvesting head, a FECON FTX440, a silage dump wagon and roll-on-roll-off bins. The cutting system consists of a rotating drum with cutting tools, followed by an auger and a material fan which blew the harvested biomass into the silage dump wagon. The harvesting head is PTO driven. The machine system was tests in natural forest understory, between rows of pine plantations and in a Pocosin ecosystem. The sites had 6 to 20 green tons per acre of small diameter woody biomass. Below are the resulting harvesting productivity and cost.}, booktitle={2009 Bioenergy Engineering Conference}, author={Roise, Joseph and Hannum, L. C. and Catts, G. P.}, year={2009} }
 @book{roise_browne_hertl_berner_2009, title={Raleigh Durham Airport Wildlife Hazard Assessment}, institution={Approved by FAA, study commissioned by RDU}, author={Roise, J.P. and Browne, M. and Hertl, P. and Berner, A.}, year={2009} }
 @inproceedings{roise_catts_hannum_2008, title={Can small diameter woody biomass be harvested at a profit? Answer: Yes, but we are not there yet}, author={Roise, J.P. and Catts, G. and Hannum, L.}, year={2008}, month={May} }
 @inproceedings{roise_catts_2008, title={Converting forest understory biomass into a valuable renewable energy resource}, author={Roise, J.P. and Catts, G.}, year={2008}, month={Oct} }
 @inproceedings{roise_2008, title={Converting forest understory biomass, which is currently a public safety hazard into a valuable renewable energy resource}, author={Roise, J.P.}, year={2008}, month={Oct} }
 @inproceedings{roise_hannum_2008, title={Harvesting Small Diameter Woody Biomass}, author={Roise, J.P. and Hannum, L.}, year={2008}, month={Nov} }
 @inproceedings{roise_hannum_2008, title={Machine System for harvesting small-diameter woody biomass}, author={Roise, J.P. and Hannum, L.}, year={2008}, month={Jun} }
 @inproceedings{roise_hannun_2008, title={Machine Trials for Harvesting Small Diameter Woody Biomass}, author={Roise, J.P. and Hannun, L.}, year={2008}, month={Feb} }
 @article{mctague_o'loughlin_roise_robison_2008, title={The SOHARC Model System for Growth and Yield of Southern Hardwoods}, volume={32}, number={4}, journal={Southern Journal of Applied Forestry}, author={McTague, J.P. and O'Loughlin, D. and Roise, J.P. and Robison, D.J.}, year={2008} }
 @book{roise_2005, series={Working Paper Series}, title={Beating Competition and Maximizing Expected Value in B. C.’s Stumpage Market}, url={http://www.sfu.ca/mpp/04research/papers_cppr.html}, institution={Centre for Public Policy Research}, author={Roise, J.P.}, year={2005}, month={Jun}, collection={Working Paper Series} }
 @book{roise_2005, series={Working Paper Series}, title={Observations on the new stumpage Market Pricing System in British Columbia}, url={http://www.sfu.ca/mpp/04research/papers_cppr.html}, institution={Centre for Public Policy Research}, author={Roise, J.P.}, year={2005}, month={Jun}, collection={Working Paper Series} }
 @article{roise_gainey_shear_2004, title={An approach to optimal wetland mitigation using mathematical programming and geographic information system based wetland function estimation}, volume={12}, ISBN={0923-4861}, DOI={10.1007/s11273-004-2437-z}, number={5}, journal={Wetlands Ecology and Management}, author={Roise, Joseph and Gainey, K. W. and Shear, T. H.}, year={2004}, pages={321} }
 @book{roise_2004, place={Winchester, KY}, title={Land and Resource Management Plan for the  Daniel Boone National Forest}, url={https://www.fs.usda.gov/Internet/FSE_DOCUMENTS/fsbdev3_032532.pdf}, number={R8-MB 117A}, institution={USDA Forest Service Southern Region}, author={Roise, Joseph P.}, year={2004} }
 @article{roise_shear_bianco_2004, title={Sensitivity analysis of transportation corridor location in wetland areas: A multiobjective programming and GIS approach}, volume={12}, ISBN={0923-4861}, ISSN={0923-4861 1572-9834}, url={http://dx.doi.org/10.1007/s11273-005-3949-x}, DOI={10.1007/s11273-005-3949-x}, number={5}, journal={Wetlands Ecology and Management}, publisher={Springer Science and Business Media LLC}, author={Roise, J. P. and Shear, T. H. and Bianco, J. V.}, year={2004}, month={Oct}, pages={519–529} }
 @inbook{roise_2002, title={Appendix B: Croatan National Forest - Land and Resource Management Plan. USDA Forest Service Southern Region 1994}, booktitle={Revised Land and Resource Management Plan for the Croatan National Forest}, publisher={United States Department of Agriculture, Forest Service, Southern Region}, author={Roise, Joseph P.}, year={2002} }
 @inproceedings{roise_bianco_2000, title={Generation of optimal transportation corridors through wetlands}, author={Roise, J.P. and Bianco, J.V.}, year={2000}, month={May} }
 @inbook{roise_cubbage_abt_siry_2000, title={Regulation of Timber Yields For Sustainable Management of Industrial Forest Plantations – Theory and practice}, DOI={10.1007/978-94-010-9819-9_7}, abstractNote={The integration of forest plantations, sustained yield regulation of industrial wood fiber, and market responses of private forest landowners determine sustainable forest management for timber. The world has approximately 3.4 billion ha of forests; 230 million ha of all types of forest plantations; and 40 million ha of industrial wood plantations. A sample of private and public forestry analysts in the world indicated that they use a variety of timber harvest regulation approaches. These include Model I and Model II model formulations; Simplex and heuristic model solution approaches; sustained yield harvest constraints; and ecological constraints. An analysis of the forest plantation area and timber supply situation in the U.S. South indicated that intensive forest management can balance softwood timber inventories and timber harvests, at slightly increased real timber prices. The data on forest plantations and growth rates, as well as our survey of harvest regulation, indicate that the forest products industry and other forest owners have the means to achieve and modeling capabilities to measure and implement sustainable timber management. If this potential is realized, increased productivity in managed forests will lessen timber harvesting pressures and enhance the protection of natural forests.}, booktitle={Sustainable Forest Management}, publisher={Kluwer Academic Publishers}, author={Roise, J.P. and Cubbage, F.W. and Abt, R.C. and Siry, J.P.}, editor={Gadow, K.V. and Pukkala, T. and Tomé, M.Editors}, year={2000}, pages={217–256} }
 @article{roise_whittow_deal_1999, title={Equations for Predicting Weight Loss of Stored Pulpwood in the Upper Southeastern States}, volume={49}, number={1}, journal={Forest Products Journal}, author={Roise, J.P. and Whittow, P. and Deal, E.}, year={1999}, pages={77–81} }
 @article{roise_whitlow_deal_1999, title={Equations for predicting weight loss in stored pulpwood for North Carolina and Virginia}, volume={49}, number={1}, journal={Forest Products Journal}, author={Roise, J. P. and Whitlow, P. E. and Deal, E. L.}, year={1999}, pages={77–81} }
 @book{deal_roise_1999, title={North Carolina Wood Based Residue Inventory}, institution={Energy Division, N.C. Department of Commerce}, author={Deal, E. and Roise, J.P.}, year={1999} }
 @inproceedings{roise_1998, title={A Tactical Level Approach to Lumber Manufacturing Decisions: use of a Computer-Aided Sawing Pattern Design Program}, author={Roise, J.P.}, year={1998}, month={Oct} }
 @article{hassan_roise_1998, title={Soil bulk density, soil strength, and regeneration of a bottomland hardwood site one year after harvest}, volume={41}, DOI={10.13031/2013.17273}, abstractNote={The first year soil physical properties and regeneration measurements following harvest indicate ample 
regeneration on all treatments including the landing areas. Comparisons included three machine systems (three skidders) 
and a helicopter-yarded control that were field tested for harvesting a bottomland hardwood site under adverse 
conditions. The results also demonstrate a significantly greater number of tree stem count following the winter than the 
summer harvest. Results of the statistical analysis of soil bulk density indicate that the soil had partially recovered from 
machine traffic one year after harvest.}, number={5}, journal={Transactions of the ASAE}, author={Hassan, A. E. and Roise, Joseph}, year={1998}, pages={1501–1508} }
 @inproceedings{gainey_roise_1998, title={Wetlands Mitigation Optimization Model Using NC Crews}, author={Gainey, K.W. and Roise, J.P.}, year={1998}, month={Sep} }
 @inproceedings{roise_gainey_1997, place={St. Paul, MN}, title={Analysis of Road Locations in Wetlands and Mitigation Bank Development}, url={https://www.nrs.fs.fed.us/pubs/gtr/other/gtr-nc205/pdffiles/p72.PDF}, DOI={10.2737/NC-GTR-205}, abstractNote={This international symposium included presentations by representatives from government, academic, and private institutions. Topics covered management objectives; information systems: modeling, optimization, simulation and decision support techniques; spatial methods; timber supply; and economic and operational analyses.}, number={NC-205NC-205}, publisher={United States Department of Agriculture, Forest Service, North Central Forest Experiment Station}, author={Roise, J.P. and Gainey, K.}, editor={Vasievich, J. Michael and Fried, Jeremy S. and Leefers, Larry A.Editors}, year={1997}, month={May} }
 @inproceedings{roise_1997, title={Computer-Aided Design of Sawing Patterns: Evaluating Profit Before the First Log is Cut}, author={Roise, J.P.}, year={1997}, month={Jun} }
 @inproceedings{hughell_roise_1997, title={Simulated Adaptive Management for Timber and Wildlife Under Uncertainty}, url={https://www.nrs.fs.fed.us/pubs/gtr/other/gtr-nc205/pdffiles/p56.pdf}, number={NC-205}, publisher={USDA Forest Service, Gen}, author={Hughell, D. and Roise, J.P.}, year={1997}, month={May} }
 @article{roise_hayden_1997, title={The Pipeline Problem: Scheduling Project Plans}, volume={7}, number={2}, journal={Analysis Notes}, author={Roise, J.P. and Hayden, L.}, year={1997}, pages={16–21} }
 @inproceedings{roise_hayden_1997, title={The Pipeline problem: A Tactical Level Approach Linking Forest Level Planning to Project Planning}, url={https://www.nrs.fs.fed.us/pubs/gtr/other/gtr-nc205/pdffiles/P73.pdf}, number={NC-205}, publisher={USDA Forest Service, Gen}, author={Roise, J.P. and Hayden, Lawrence}, year={1997}, month={May} }
 @book{roise_jerger_1996, place={Little Rock, Arkansas}, title={COW - Cost of Wood Products, A software program for use in Secondary Wood Products Manufacturing}, institution={Winrock International}, author={Roise, J.P. and Jerger, E.}, year={1996} }
 @book{roise_jerger_1996, place={Little Rock, Arkansas}, title={COW Users Manual}, publisher={Winrock International}, author={Roise, J.P. and Jerger, E.}, year={1996} }
 @misc{hayden_roise_1996, title={Schedule of Entry by analysis Area for the Nantahala/Pisgah National Forests, National Forests in North Carolina}, author={Hayden, L. and Roise, J.P.}, year={1996} }
 @book{hassan_roise_1996, place={St. Joseph, MI}, title={Soil Recovery and Regeneration of a Wetland Site One-Year After Harvest}, number={965002}, institution={ASAE}, author={Hassan, A.E. and Roise, J.P.}, year={1996} }
 @inproceedings{hughell_roise_1996, title={Spatially explicit multi-objecitve analysis for timber and wildlife}, author={Hughell, D.A. and Roise, J.P.}, year={1996} }
 @book{roise_hunt_1995, place={Raleigh, North Carolina}, title={CASP Users Manual}, publisher={Strategic Management Resources}, author={Roise, J.P. and Hunt, G.D.}, year={1995} }
 @book{roise_1995, title={Computer Aided Sawing Pattern Design Program - CASP}, institution={J.P. Roise and Coastal Lumber Company}, author={Roise, J.P.}, year={1995} }
 @article{chung_roise_1995, title={Performance Analysis of Neural Network on Determining the Optimal Stand Management Regimes}, volume={84}, number={1}, journal={Journal of Korean Forestry Society}, author={Chung, J.S. and Roise, J.P.}, year={1995}, pages={63} }
 @inbook{roise_1994, title={Appendix B: Logging cost estimates for evenage and unevenage management prescriptions}, booktitle={Land and Resource Management Plan Amendment 5 . Nantahala and Pisgah National Forests}, publisher={U.S.D.A. Forest Service Southern Region}, author={Roise, Joseph P.}, year={1994} }
 @inproceedings{roise_chung_1993, place={Valdivia, Chile}, title={Analysis of Stand Level Management Using Neural Networks}, booktitle={Proceedings of the 1993 International Symposium on Systems Analysis in Forest Resources}, author={Roise, J.P. and Chung, J.}, year={1993} }
 @inproceedings{roise_1993, title={Forest Management Planning, Ecology and Economics: A Management Science Perspective}, booktitle={Advancement in Forest Inventory and Forest Management Sciences. Proceedings of IUFRO, Seoul Conference}, author={Roise, J.P.}, year={1993}, pages={83–100} }
 @inproceedings{roise_smith_1992, title={Aggregation of Yields in Forest Planning}, booktitle={Proceedings of an ECE/FAO/ILO Seminar}, author={Roise, Joseph P. and Smith, W.D.}, year={1992}, month={Sep}, pages={50–56} }
 @article{hassan_thomaz_roise_1992, title={Evaluation of Manual Sorting in Three Pine Nurseries}, volume={35}, DOI={10.13031/2013.28825}, abstractNote={Mechanization of nursery operation extends from seedbed preparation to seedling lifting. However, sorting and grading are still labor intensive. Three nurseries in the Southeast with varying degrees of sophistication in sorting and grading of pine seedlings were investigated. Samples of plantable and rejected seedlings were collected and analyzed to determine the nursery shed performance. A vision system was utilized for seedling measurements and the results were analyzed using ANOVA analysis. The nursery with no sorting capabilities was the most efficient, indicating that cultural practices might be an alternative to sorting. The percentage of rejects in the plantable samples was low for the nurseries with manual labor indicating the high training for sorting, however, the percentage of plantables in the reject samples was high, indicating possible waste of good nursery seedlings.}, number={6}, journal={Transactions of the ASAE}, author={Hassan, A.E. and Thomaz, A.S. and Roise, J.P.}, year={1992}, pages={1981} }
 @article{siderelis_roise_1991, title={An Optimal Apportionment Strategy for Park Operations}, volume={9}, number={2}, journal={Journal of Park and Recreation Admin}, author={Siderelis, C. and Roise, J.P.}, year={1991}, pages={48–58} }
 @article{roise_chung_lancia_1991, title={Red Cockaded Woodpecker and Pine Straw Production: An Economic Analysis}, volume={15}, number={2}, journal={Southern Journal of Applied Forestry}, author={Roise, J.P. and Chung, J. and Lancia, R.}, year={1991}, pages={88–92} }
 @article{mengel_roise_1990, title={A Diameter Class Matrix Model for Natural Coastal Plain Bottomland Hardwood Stands in the Southeast}, volume={14}, number={4}, journal={Southern Journal of Applied Forestry}, author={Mengel, D.L. and Roise, J.P.}, year={1990} }
 @article{roise_1990, title={Multicriteria nonlinear programming for optimal spatial allocation of stands}, volume={36}, number={3}, journal={Forest Science}, author={Roise, J. P.}, year={1990}, pages={487} }
 @article{roise_chung_lancia_lennartz_1990, title={Red-Cockaded Woodpecker Habitat and Timber Management: Production Possibilities}, volume={14}, ISSN={0148-4419 1938-3754}, url={http://dx.doi.org/10.1093/sjaf/14.1.6}, DOI={10.1093/sjaf/14.1.6}, abstractNote={In order to mitigate the impact of longer rotations for the red-cockaded woodpecker on timber production, a multi-objective linear programming model was used. Various streams of habitat in relation to timber management were examined. Large areas immediately set aside for habitat may, in fact, lead to long term declines as a result of poor initial stand conditions. Timber production, harvesting and various silvicultural activities will have a short term impact but lead to long-term sustainable habitat condition for this species.}, number={1}, journal={Southern Journal of Applied Forestry}, publisher={Oxford University Press (OUP)}, author={Roise, Joseph and Chung, Joosang and Lancia, Richard and Lennartz, Mike}, year={1990}, month={Feb}, pages={6–12} }
 @article{lancia_roise_adams_1989, title={Opportunity cost of Red Cockaded Woodpecker Habitat}, volume={13}, number={2}, journal={Southern Journal of Applied Forestry}, author={Lancia, R. and Roise, J.P. and Adams, D.}, year={1989}, pages={81–85} }
 @inproceedings{roise_van sant_1989, title={Relating Yellow Poplar peeler log values to manufactured veneer shadow prices}, booktitle={Proceedings of Forestry Microcomputer Software Symposium}, author={Roise, J.P. and Van Sant, R.}, year={1989}, month={Sep} }
 @inproceedings{siderelis_roise_1988, title={Maintenance Management Systems}, author={Siderelis, C. and Roise, J.}, year={1988}, month={Oct} }
 @inproceedings{roise_chung_ledoux_1988, title={Optimal Stocking of Species by Diameter Class for Even Aged Mid to Late Rotation Appalachian Hardwoods}, number={RM 161}, booktitle={The 1988 Symposium on Systems Analysis in Forest Resources}, author={Roise, J.P. and Chung, J. and LeDoux, C.B.}, year={1988} }
 @book{gupta_roise_1988, title={Queuing Simulation of Skidding Using XCELL+}, number={RM-GTR-161}, author={Gupta, R. and Roise, J.P.}, year={1988} }
 @inproceedings{roise_hafley_smith_1988, title={Stand Level Sensitivity Analysis on the Effect of Markets on Optimal Management Regimes}, number={RM-161}, booktitle={The 1988 Symposium on Systems Analysis in Forest Resources}, publisher={USDA Forest Service / The Department of Forestry and Resource Management, University of California, Berkeley}, author={Roise, J.P. and Hafley, W. and Smith, W.}, editor={Kent, B.M. and Davis, L.S.Editors}, year={1988}, month={Jun}, pages={145–153} }
 @inproceedings{roise_siderelis_1987, title={Maintenance Operations Management: Optimal Apportionment Strategy and Budget Accounting System}, author={Roise, J.P. and Siderelis, Crystos}, year={1987} }
 @article{roise_1986, title={A nonlinear Programming Approach to Stand Level Optimization}, volume={32}, number={3}, journal={Forest Science}, author={Roise, Joseph P.}, year={1986}, pages={735–748} }
 @article{roise_1986, title={An Approach for Optimizing Residual Diameter Class Distributions When Thinning Even-aged Stands}, volume={32}, number={4}, journal={Forest Sci}, author={Roise, Joseph P.}, year={1986} }
 @inproceedings{roise_1986, title={Interactive Mathematical Programming: Users Manual}, publisher={West Va}, author={Roise, J.P.}, year={1986}, month={Jun} }
 @inproceedings{roise_1986, title={Nonlinear Programming Applications in Forest Industry: Examples in Kiln Drying, Forest Management and Wildlife Management}, author={Roise, J.P.}, year={1986}, month={Apr} }
 @inproceedings{roise_1986, title={Stand Level Optimization on Microcomputers}, booktitle={Proceedings of Forestry Microcomputer Software Symposium}, author={Roise, J.P.}, year={1986}, month={Jun} }
 @inproceedings{roise_welker_1986, title={The North Carolina State University Experience with FORPLAN}, booktitle={FORPLAN: An Evaluation of a Forest Planning Tool: Proceedings of a Symposium}, author={Roise, J.P. and Welker, J.}, year={1986}, month={Nov}, pages={73–82} }
 @inproceedings{roise_1985, place={Athens, Georgia}, title={Diameter Class Optimization in Even Aged Stands}, booktitle={Proceedings of S.A.F. Systems Analysis Symposium}, author={Roise, J.P.}, editor={Field, Richard C. and Dress, Peter E.Editors}, year={1985}, month={Dec} }
 @article{bare_briggs_roise_schreuder_1984, title={A Survey of Systems Analysis Models in Forestry and the Forest Products Industry}, volume={18}, DOI={10.1016/0377-2217(84)90255-8}, abstractNote={This review describes the current state of the art of management science applications in forest land management and the forest products industry. The evolution of applications of management science to forestry problems is traced from the late 1950's to the present. While management science is extensively utilized in both the public and private sectors, many institutional and technical barriers exist to hinder an even wider acceptance. Reasons for this and possible ways to ameliorate these problems are presented.}, number={1}, journal={European Journal of Operational Research}, author={Bare, B.B. and Briggs, D.G. and Roise, J.P. and Schreuder, G.F.}, year={1984}, pages={1–18} }
 @phdthesis{roise_1984, place={Seattle, Washington}, title={A nonlinear programming approach to stand level optimization}, school={University of Washington}, author={Roise, J.P.}, year={1984} }
 @inproceedings{schreuder_bare_briggs_roise_1984, place={Copenhagen, Denmark}, title={Optimizing the Size and Standard of Road Systems for Forest Harvesting Using Dynamic Programming}, author={Schreuder, G.F. and Bare, B.B. and Briggs, D.G. and Roise, J.P.}, year={1984}, month={Jun} }
 @inbook{schreuder_roise_1983, place={University of Washington}, title={Chapter 8, Use of Dewatered Sludge as an Amendment for Forest Growth}, booktitle={Economic Optimization of Sludge Application in Douglas-fir with Dynamic Programming}, publisher={Institute of Forest Resources}, author={Schreuder, G. and Roise, J.P.}, editor={Henry, C. and Cole, D.Editors}, year={1983} }
 @article{roise_betters_kent_1981, title={An Approach to Functionalizing Key Environmental Factors: Forage Production in Rocky Mountain Aspen Stands}, volume={14}, DOI={10.1016/0304-3800(81)90018-1}, abstractNote={Abstract An approach is discussed for developing production functions which exhibit logical interrelationships between growth factors in a biological system. Functional relationships are hypothesized for growth factors involving available moisture and energy. These growth factors are, in turn, related to site variables which influence their availability. Both linear and non-linear regression techniques are used to identify key site variables and appropriate functional forms. These models involving growth factors are then synthesized into one equation to estimate forage production. The production equation illustrates the implied relationship between topographic variables such as elevation and aspect, soil variables such as water holding capacity, and timber stand density on the moisture and energy growth factors.}, journal={Ecological Modeling}, author={Roise, J.P. and Betters, D.R. and Kent, B.M.}, year={1981}, pages={133–146} }
 @article{roise_betters_1981, title={An Aspect Transformation with Regard to Elevation for Site Productivity Models}, volume={27}, number={3}, journal={Forest Science}, author={Roise, J.P. and Betters, D.R.}, year={1981}, pages={483–486} }
 @inbook{schreuder_roise_tillman_1981, place={University of Washington}, title={Chapter 18, Municipal Sludge Application to Pacific Northwest Forest Lands}, volume={41}, booktitle={Economics of Sludge Disposal in Forests}, publisher={Institute of Forest Resources}, author={Schreuder, G. and Roise, J.P. and Tillman, D.}, editor={Bledsoe, C.S.Editor}, year={1981} }
 @phdthesis{roise_1980, title={Aspen Timber and Forage Production}, school={Colorado State University}, author={Roise, J.P.}, year={1980} }