Publications and Patents

Relevant publications and patents.

Highlighting DOI tag may provide a link to the online publication

 

1.        Rios JDL, Poyda A, Reinsch T, Kluß C, Taube F, Loges R. Integrating Crop-Livestock System Practices in Forage and Grain-Based Rotations in Northern Germany: Potentials for Soil Carbon Sequestration. Agronomy 2022, Vol 12, Page 338. 2022;12(2):338. doi:10.3390/AGRONOMY12020338

2.        Thomas PW, Vazquez LB. A novel approach to combine food production with carbon sequestration, biodiversity and conservation goals. Science of The Total Environment. 2022;806:151301. doi:10.1016/J.SCITOTENV.2021.151301

3.        Nevalainen O, Niemitalo O, Fer I, et al. Towards agricultural soil carbon monitoring, reporting, and verification through the Field Observatory Network (FiON). Geoscientific Instrumentation, Methods and Data Systems. 2022;11(1):93-109. doi:10.5194/GI-11-93-2022

4.        Bossio DA, Cook-Patton SC, Ellis PW, et al. The role of soil carbon in natural climate solutions. Nature Sustainability. 2020;3(5):391-398. doi:10.1038/S41893-020-0491-Z

5.        Mattila TJ, Hagelberg E, Söderlund S, Joona J. How farmers approach soil carbon sequestration? Lessons learned from 105 carbon-farming plans. Soil and Tillage Research. 2022;215:105204. doi:10.1016/J.STILL.2021.105204

6.        Duarte de Paula Costa M, Lovelock CE, Waltham NJ, et al. Modelling blue carbon farming opportunities at different spatial scales. Journal of Environmental Management. 2022;301:113813. doi:10.1016/J.JENVMAN.2021.113813

7.        Soil carbon sequestration for climate change mitigation: Mineralization kinetics of organic inputs as an overlooked limitation - Berthelin - 2022 - European Journal of Soil Science - Wiley Online Library. Accessed March 8, 2022. https://bsssjournals.onlinelibrary.wiley.com/doi/abs/10.1111/ejss.13221

8.        Zhu F, Lin X, Guan S, Dou S. Deep incorporation of corn straw benefits soil organic carbon and microbial community composition in a black soil of Northeast China. Soil Use and Management. Published online February 26, 2022. doi:10.1111/SUM.12793

9.        Beillouin D, Cardinael R, Berre D, et al. A global overview of studies about land management, land-use change, and climate change effects on soil organic carbon. Global Change Biology. 2022;28(4):1690-1702. doi:10.1111/GCB.15998

10.      Gunina A, Kuzyakov Y. From energy to (soil organic) matter. Global Change Biology. Published online 2022. doi:10.1111/GCB.16071

11.      Berthelin J, Laba M, Gilles Lemaire |, et al. Soil carbon sequestration for climate change mitigation: Mineralization kinetics of organic inputs as an overlooked limitation. European Journal of Soil Science. 2022;73(1):e13221. doi:10.1111/EJSS.13221

12.      Chen C, Jiang Y, Sun B, Zhou H, Hallett PD. Organic manure and lime change water vapour sorption of a red soil by altering water repellency and specific surface area. European Journal of Soil Science. Published online February 13, 2022. doi:10.1111/EJSS.13223

13.      Fukumasu J, Jarvis N, Koestel J, Kätterer T, Larsbo M. Relations between soil organic carbon content and the pore size distribution for an arable topsoil with large variations in soil properties. European Journal of Soil Science. 2022;73(1). doi:10.1111/EJSS.13212

14.      Biffi S, Chapman PJ, Grayson RP, Ziv G. Soil carbon sequestration potential of planting hedgerows in agricultural landscapes. Journal of Environmental Management. 2022;307:114484. doi:10.1016/J.JENVMAN.2022.114484

 15.      Mandal A, Majumder A, Dhaliwal SS, et al. Impact of agricultural management practices on soil carbon sequestration and its monitoring through simulation models and remote sensing techniques: A review. https://doi.org/101080/1064338920201811590. 2020;52(1):1-49. doi:10.1080/10643389.2020.1811590

 16.      Henderson B;, Lankoski J;, Flynn ;, et al. Soil carbon sequestration by agriculture. Published online January 24, 2022. doi:10.1787/63EF3841-EN

 17.      Agriculture | Free Full-Text | Organic Manure Increases Carbon Sequestration Far beyond the “4 per 1000 Initiative” Goal on a Sandy Soil in the Thyrow Long-Term Field Experiment DIV.2. Accessed March 8, 2022. https://www.mdpi.com/2077-0472/12/2/170

 18.      Zavattaro L, Alfonso Gómez J, Roß CL, Baumecker M, Ellmer F, Kautz T. Organic Manure Increases Carbon Sequestration Far beyond the “4 per 1000 Initiative” Goal on a Sandy Soil in the Thyrow Long-Term Field Experiment DIV.2. Agriculture 2022, Vol 12, Page 170. 2022;12(2):170. doi:10.3390/AGRICULTURE12020170

 19.      Bhattacharyya SS, Ros GH, Furtak K, Iqbal HMN, Parra-Saldívar R. Soil carbon sequestration – An interplay between soil microbial community and soil organic matter dynamics. Science of The Total Environment. 2022;815:152928. doi:10.1016/J.SCITOTENV.2022.152928

 20.      Beka S, Burgess PJ, Corstanje R, Stoate C. Spatial modelling approach and accounting method affects soil carbon estimates and derived farm-scale carbon payments. Science of The Total Environment. 2022;827:154164. doi:10.1016/J.SCITOTENV.2022.154164

 21.      Lessmann M, Ros GH, Young MD, de Vries W. Global variation in soil carbon sequestration potential through improved cropland management. Global Change Biology. 2022;28(3):1162-1177. doi:10.1111/GCB.15954

 22.      Krauss M, Wiesmeier M, Don A, et al. Reduced tillage in organic farming affects soil organic carbon stocks in temperate Europe. Soil and Tillage Research. 2022;216:105262. doi:10.1016/J.STILL.2021.105262

 23.      Ryhti K, Kulmala L, Pumpanen J, et al. Partitioning of forest floor CO2 emissions reveals the belowground interactions between different plant groups in a Scots pine stand in southern Finland. Agricultural and Forest Meteorology. 2021;297:108266. doi:10.1016/J.AGRFORMET.2020.108266

 24.      Janulevičius A, Juostas A, Čipliene A. Estimation of carbon-oxide emissions of tractors during operation and correlation with the not-to-exceed zone. Biosystems Engineering. 2016;147:117-129. doi:10.1016/J.BIOSYSTEMSENG.2016.04.009

 

System of Systems Flux Monitoring Patents Applied to this Project

 

1. Marino BDV. 2011. System of systems for monitoring greenhouse gas fluxes. European Patent Convention patent #2391881.

2. Marino BDV. 2012. System of systems for monitoring greenhouse gas fluxes. Hong Kong patent #1165004.

3. Marino BDV. 2013. System of systems for monitoring greenhouse gas fluxes. United States of America patent #8595020.

4. Marino BDV. 2014a. System of systems for monitoring greenhouse gas fluxes. Japan patent #5587344.

5. Marino BDV. 2014b. System of systems for monitoring greenhouse gas fluxes. Mexico patent #319180.

6. Marino BDV. 2014c. System of systems for monitoring greenhouse gas fluxes. Mexico patent #326190.

7. Marino BDV. 2015b. System of systems for monitoring greenhouse gas fluxes. United States of America patent #9152994.