SAES-422 Multistate Research Activity Accomplishments Report

Sections

Status: Approved

Basic Information

Participants

Arriaga, Francisco (farriaga@wisc.edu) – University of Wisconsin Madison; Cihacek, Larry (larry.cihacek@ndsu.edu) – North Dakota State University; Dou, Fugen (f-dou@aesrg.tamu.edu) – Texas A&M AgriLife Research; Golabi, Mohammad (mgolabi@triton.uog.edu) – University of Guam; Lal, Rattan (lal.1@osu.edu) – Ohio State University; Noormets, Asko (noormets@tamu.edu) – Texas A&M AgriLife Research; Pierzynski, Gary (pierzynski.3@osu.edu) – USDA-NIFA (project administrator); Ye, Rongzhong (rongzho@clemson.edu) – Clemson University.

NC1178_AnnualReport_EntireProject.pdf

Accomplishments

Impacts

  1. Impacts Results to date identify soil conditions at which crop residue and other carbon amendment techniques translate to improvements in soil carbon content and to soil aggregate formation. These changes are not captured well by traditional soil health metrics. Effective management and subsequent monitoring will help select best conservation management techniques for restoration of agricultural soils. Significance: The carbon sequestration potential in soils through natural processes offers great promise but has been compromised by intensive management practices disturbing soil structure, and stimulating microbial activity and carbon mineralization. The current project explores the magnitude and mechanisms of carbon inputs, stabilization and losses from the soil system, and the extent to which conservation management techniques can reverse the trends of soil C and nutrient loss. Soil carbon is a proxy of many soil health metrics, including nutrient and water holding capacity, and productivity, yet is not well captured by traditional soil health metrics. Progress to date: Substantial body of knowledge has been accrued by this working group on the effects of crop residue management and carbon supplementation on soil C stocks and dynamics, its interactions with nutrient and water cycles, and potential side effects. The project PI-s graduated three PhD-s, and continue the training of four more, as well as undergraduate research assistants. The members made 34 science and outreach presentations and published three technical reports. Xu presented guest lectures in three university courses. The members collectively received cash or in-kind funding from 21 external funding sources equivalent to over $ 3.1M (3 contributions lack an estimate of monetary value).

Publications

  1. Abramoff RZ, Georgiou K, Guenet B, Torn MS, Huang Y, Zhang H, Feng W, Jagadamma S, Kaiser K, Kothawala D, Mayes MA, Ciais P (2021) How much carbon can be added to soil by sorption? Biogeochemistry 152: 127-142.
  2. Ademola AA, Rahman S, Cihacek L, Nahar N (2020) Comparison of the reactor performance of alkaline-pretreated corn stover co-digested with dairy manure under solid state. Waste and Biomass Valorization https://doi.org/10.1007/s12549-020-01116-z
  3. Aguilos M, Sun G, Noormets A, Domec JC, McNulty SG, Gavazzi MJ, Prajapati P, Minick K, Mitra B, King JS. 2021. Water use efficiency of managed loblolly pine is stable over the length of the rotation despite varying environmental conditions. Forests 12: 1123. http://doi.org/10.3390/f12081123
  4. Al-Kaisi MM, Lal R (2020) Aligning Science and Policy of Regenerative Agriculture. Soil Science Society of America Journal. https://doi.org/10.1002/saj2.20162
  5. Amorim HCS, Ashworth AJ, Moore PA, Weinhold BJ, Savin MC, Owens PR, Jagadamma S, Carhalho TS, Xu S (2020) Soil quality indices following long-term conservation pasture management practices. Agriculture, Ecosytems & Environment 301: 107060.
  6. Chang K-Y, Riley WJ, Knox SH, Jackson RB, McNicol G, Poulter B, Aurela M, Baldocchi D, Bansal S, Bohrer G, Campbell DI, Cescatti A, Chu H, Delwiche KB, Desai A, Euskirchen E, Friborg T, Goeckede M, Helbig M, Hemes KS, Kang M, Keenan T, King JS, Krauss KW, Lohila A, Mammarella I, Mitra B, Miyata A, Nilsson MB, Noormets A, Oechel W, Papale D, Peichl M, Reba ML, Rinne J, Runkle BRK, Ryu Y, Sachs T, Schäfer KVR, Schmid HP, Shurpali N, Sonnentag O, Tang ACI, Torn MS, Trotta C, Tuittila E-S, Ueyama M, Vargas R, Vesala T, Windham-Myers L, Zhang Z, Zona D (2020) Substantial hysteresis in temperature sensitivity of global wetland methane emissions. Nature Communications: (In press, 2021-3-15)
  7. Chatterjee A, Filipe de Jesus A, Goyal D, Sigdel S, Cihacek LJ, Farmaha B, Jagadamma S, Sharma L, Long DS (2020) Temperature sensitivity of denitrification, volatalization, and nitrogen mineralization of agricultural soils across the United States. Open J. Soil Sci. 10: 298-305. https://doi.org/10.4236/ojss.2020.107016  
  8. Chu H, Luo X, Ouyang Z, Chan WS, Dengel S, Biraud SC, Torn MS, Metzger S, Kumar J, Arain MA, Arkebauer TJ, Baldocchi D, Bernacchi C, Billesbach D, Black TA, Blanken PD, Bohrer G, Bracho R, Brown S, Brunsell NA, Chen J, Chen X, Clark K, Desai AR, Duman T, Durden D, Fares S, Forbrich I, Gamon JA, Gough CM, Griffis T, Helbig M, Hollinger D, Humphreys E, Ikawa H, Iwata H, Ju Y, Knowles JF, Knox SH, Kobayashi H, Kolb T, Law B, Lee X, Litvak M, Liu H, Munger JW, Noormets A, Novick K, Oberbauer SF, Oechel W, Oikawa P, Papuga SA, Pendall E, Prajapati P, Prueger J, Quinton WL, Richardson AD, Russell ES, Scott RL, Starr G, Staebler R, Stoy PC, Stuart-Haëntjens E, Sonnentag O, Sullivan RC, Suyker A, Ueyama M, Vargas R, Wood JD, Zona D (2020) Footprint Representativeness of Eddy-Covariance Flux Measurements Across AmeriFlux Sites. Agricultural and Forest Meteorology: https://doi.org/10.1016/j.agrformet.2021.108350
  9. Das A, Layek J, Idapuganti RG, Basavaraj S, Lal R, Rangappa K, Yadav GS, Babu S, Ngachan S (2020) Conservation Tillage and Residue Management Improves Soil Properties under an Upland Rice–Rapeseed System in the Subtropical Eastern Himalayas. Land Degradation & Development 31, no. 14 (August 30): 1775–1791. https://doi.org/10.1002/ldr.3568
  10. Davis RL, Greene JK, Dou F, Jo YK, Chappell TM (2020) A practical application of unsupervised machine learning for analyzing plant image data collected using unmanned aircraft systems. Agronomy-BASEL https://doi.org/10.3390/agronomy10050633
  11. de Oliveira Ferreira A, de Moraes SJC, Lal R, Amado TJC, Inagaki TM, Briedis C, Tivet F (2020) Can no‐till restore soil organic carbon to levels under natural vegetation in a subtropical and tropical typic quartzipisamment? Land Degrad. Dev. 2020; 1– 9. https://doi.org/10.1002/ldr.3822
  12. De M, Riopel JA, Cihacek LJ, Lawrenko M, Baldwin-Kordick R, Hall SJ, McDaniel MD (2020) Soil health recovery after grassland restoration. Evidence from a 40-year chronotoposequence. Soil Sci. Soc. Am. J. 84:568-586. https://doi.org/10.1002/saj2.200037
  13. Domec JC, King AW, Carmichael M, Treado Overby A, Wortemann R, Smith WK, Miao G, Noormets A, Johnson D (2021) Aquaporins, and not changes in root structure, provide new insights into physiological responses to drought, flooding, and salinity. Functional Plant Biology 72: 4489–4501. https://academic.oup.com/jxb/advance-article/doi/10.1093/jxb/erab100/6156974
  14. Golabi MH, Galsim FP, Iyekar C (2020) Agronomic value of land application of composted organic waste to porous soil of northern Guam. Malaysian Journal of Soil Sciences https://doi.org/10.2489/jswc.75.2. 27a
  15. Irvin J, Zhou S, McNicol G, Lu F, Liu V, Fluet-Chouinard E, Ouyang Z, Knox SH, Lucas-Moffat A, Trotta C, Papale D, Vitale D, Mammarella I, Avati A, Kondrich A, Ng A, Rey-Sanchez AC, Valach AC, Richardson AD, Kalhori A, Lohila A, Malhotra A, Noormets A, Desai AR, Mitra B, Runkle BR, Helfter C, Sturtevant C, Baldocchi D, Campbell DI, Lai DY, Zona D, Euskirchen E, Ward EJ, Stuart-Haëntjens E, Bohrer G, Jurasinski G, Vourlitis GL, Wong GX, Chu H, Iwata H, Dalmagro HJ, Chen J, Delwiche KB, Hemes KS, Schäfer KV, Merbold L, Aurela M, Nilsson MB, Goeckede M, Helbig M, Heimann M, Peichl M, Ueyama M, Sonnentag O, Alekseychik P, Vargas R, Bansal S, Feron S, Hirano T, Jacotot A, Sakabe A, Varlagin A, Wille C, Szutu DJ, Billesbach DP, Schuur EA, Nemitz E, Tuittila E-S, Parmentier FJ, Koebsch F, Celis G, Dolman H, Verfaillie JG, Goodrich JP, Fuchs K, Kasak K, Ono K, Hörtnagl L, Alberto MCR, Gondwe MJ, Gottschalk P, Oikawa PY, Sullivan RC, Maier R, Shortt R, Gogo S, Friborg T, Morin TH, Sachs T, Oechel WC, Windham-Myers L, Poulter B, Jackson RB (2021) Gap-filling eddy covariance methane fluxes: Comparison of machine learning model predictions and uncertainties at FLUXNET-CH4 Agr Forest Meteorol 308-309: 108528. https://doi.org/10.1016/j.agrformet.2021.108528
  16. Jahromi NB, Lee J, Fulcher A, Walker F, Jagadamma S, Arelli P (2020) Effect of biochar application on quality of flooded sandy soils and corn growth under greenhouse conditions. Agroecosystems, Geosciences & Environment 3(1): e20028.
  17. Lal R (2020) Managing Organic Matter Content for Restoring Health and Ecosystem Services of Soils of India. Journal of the Indian Society of Soil Science 68 (1): 1-15. http://doi.org/10.5958/0974-0228.2020.00001.8
  18. Lal R (2020) Soil Organic Matter and Water Retention. Agronomy Journal 112: 3265– 3277. https://doiorg.proxy.lib.ohio-state.edu/10.1002/agj2.20282
  19. Lal R (2020) Soil organic matter content and crop yield. Soil Water Conserv. 75: 27A-32A.
  20. Li X, Dou F, Guo J, Velarca MV, Chen K, Gentry T, McNear D (2020) Soil microbial community responses to nitrogen application in organic and conventional rice (Oryza sativa) production. Soil Science Society of America Journal, 84, 1885-1997
  21. Li X, Dou F, Watkins K, Wang S, Chen X, Zhou X, McClung A, Storlien J, Hons FM (2020) Seeding rate effects on organic rice growth, yield, and economic return. Agronomy Journal: 5, 1-16. https://doi.org/10.1002/agj2.20304
  22. Lin W, Noormets A, King JS, Marshall J, Akers M, Cucinella J, Fox T, Laviner M, Martin T, McNulty S, Meek C, Samuelson L, Sun G, Vogel J, Will R, Domec J-C. 2021. Spatial variability in tree-ring carbon isotope discrimination in response to local drought across the entire loblolly pine natural range. Tree physiology: (In press 2021-07-21).
  23. Littrell J, Xu S, Omondi E, Saha D, Lee J, Jagadamma S (2021) Long-term organic management combined with conservation tillage enhanced soil organic carbon accumulation and aggregation. Soil Science Society of America Journal. https://doi.org/10.1002/saj2.20259. (in press)
  24. Lyu M, Noormets A, Ukonmaanaho L, Li Y, Yang Y, Xie J. 2021. Stability of soil organic carbon during forest conversion is more sensitive in deep soil than in topsoil in subtropical forests. Pedobiologia: 150706. https://doi.org/10.1016/j.pedobi.2020.150706
  25. Ma X, Sharifan H, Dou F, Sun W (2020) Simultaneous reduction of arsenic (As) and cadmium (Cd) accumulation in rice by zinc oxide nanoparticles. Chemical Engineering Journal. https://doi.org/10.1016/j.cej.2019.123802
  26. Ma X, Sun K, Dou F, Li X, Wang X, Sun W (2020) Impact of elevated nitrate and perchlorate in irrigation water on the uptake, speciation, and accumulation of arsenic in rice (Oryza sativa). Water, Air, & Soil Pollution, 231, 309. https://doi.org/10.1007/s11270-020-04701-z
  27. Meena RS, Kumar S, Datta R, Lal R, Vijayakumar V, Brtnický M, Sharma M, Yadav G, Jhariya M, Jangir C, Pathan S, Dokulilov T, Pecina V, Marfo TD (2020) Impact of Agrochemicals on Soil Microbiota and Management: A Review. Land, 9: 34. https://doi.org/10.3390/land9020034
  28. Meena RS, Lal R, Yadav GS (2020) Long-term impacts of topsoil depth and amendments on soil physical and hydrological properties of an Alfisol in central Ohio, USA. Geoderma 363 (2020): 114164
  29. Minick K, Mitra B, Li, X, Fischer M, Noormets A, King JS (2021) Microtopography mediates response of soil CO2 and CH4 emissions and δ13C isotopic signature to altered temperature and hydrology in a coastal freshwater forested wetland. Geoderma 402: 115367. https://doi.org/10.1016/j.geoderma.2021.115367
  30. Nawaz A, Farooq M, Ul-Allah S, Gogoi N, Lal R, Siddique KHM (2020) Sustainable Soil Management for Food Security in South Asia. Journal of Soil and Plant Nutrition. https://doi.org/10.1007/s42729-020-00358-z
  31. Noormets A, Bracho R, Ward E, Seiler J, Strahm B, Lin W, McElligott K, Domec J-C, Gonzalez-Benecke C, Jokela EJ, Markewitz D, Meek C, Miao G, McNulty SG, King JS, Samuelson L, Sun G, Teskey R, Vogel J, Will R, Yang J, Martin TA (2021) Heterotrophic respiration and the divergence of productivity and carbon sequestration. Geophysical Research Letters 48, e2020GL092366. https://doi.org/10.1029/2020GL092366
  32. Nouri A, Lee J, Yoder DC, Jagadamma S, Walker FR, Yin X, Arelli P (2020) Management duration controls the synergistic effect of tillage, cover crop, and nitrogen rate on cotton yield and yield stability. Agriculture, Ecosystems and Environment 301: 107007.
  33. Owen RK, et al. (incl. Osterloh) “Evaluating student attitudes and learning at remote collegiate soil judging events”. Natural Sciences Education (Accepted)
  34. Ozlu E, Arriaga FJ (2021) The role of carbon stabilization and minerals on soil aggregation in different ecosystems. Catena https://doi.org/10.1016/j.catena.2021.105303
  35. Parajuli B, Luo M, Ye R, Ducey T, Smith M, Park D (2021) Aggregate distribution and the associated carbon in Norfolk soils under long-term conservation tillage and short-term cover cropping. Communications in Soil Science and Plant Analysis. https://doi.org/10.1080/00103624.2020.1869769
  36. Parajuli B, Ye R, Ducey T, Park D (2021) Contrasting C and N responses to tillage at different soil depths: An observation of a 40-year field experiment. Soil Science Society of America Journal. https://doi.org/10.1002/saj2.20277
  37. Singh S, Jagadamma S, Yoder D, Yin X, Walker F (2020) Agroecosystems management responses to Haney soil health test in the southeastern United States. Soil Science Society of America Journal 84: 1705-1721
  38. Sun W, Dou F, Li C, Ma X, Ma L (2020) Impacts of engineered metallic nanoparticles (MNPs) on soil health: A critical review. Critical Reviews in Environmental Science and Technology. https://doi.org/10.1080/10643389.2020.1740546
  39. Tadesse T, Hollinger DY, Bayissa YA, Svoboda M, Fuchs B, Zhang B, Demissie G, Wardlow BD, Bohrer G, Clark KL, Desai AR, Gu L, Noormets A, Novick KA, Richardson AD (2020) Forest Drought Response Index (ForDRI): A New Combined Model to Monitor Forest Drought in the Eastern United States. Remote Sensing 12: 00-00. https://doi.org/10.20944/preprints202009.0673.v1
  40. Tilhou NW, Nave RLG, Jagadamma S, Eash N, Mulliniks TJ (2021) Forage species and summer management impacts on soil carbon and nitrogen in winter stockpiled grazing systems. Agrosystems, Geosciences & Environment 4: e20132.
  41. Wang Y, Dou F, Paustian KH, Del Grosso SJ, Storlien JO, Wight JP, Hons FM (2020) Simulating impacts of nitrogen fertilization using DAYCENT to optimize economic returns and environmental services from bioenergy sorghum production. Agronomy Journal, 6, 4861-4878. https://doi.org/10.1002/agj2.2039
  42. Xu Y, Ding X, Lal R, Gao X, Li S, Sun L, Wang Y, Li M, Bai S, Wang J (2020) Effect of soil fertility on the allocation of nitrogen derived from different maize residue parts in the soil-plant system. Geoderma, 379: 114632
  43. Xu S, Jagadamma S, Ashworth AJ, Singh S, Owens PR, Moore Jr PA (2021) Long-term effects of pasture management and fenced riparian buffers on soil organic carbon content and aggregation. Geoderma 382: 114666.
  44. Yadav GS, Lal R, Meena RS (2020) Vehicular Traffic Effects on Hydraulic Properties of a Crosby Silt Loam under a Long-Term No-till Farming in Central Ohio, USA. Soil and Tillage Research, 202:104654 https://doi.org/10.1016/j.still.2020.104654
  45. Yadav GS, Lal R, Moonilall NI, Meena RS (2020) The long-term impact of vehicular traffic on winter and spring methane flux under no-till farming in Central Ohio. Atmospheric Pollution Research 11: 2030-2053, https://doi.org/10.1016/j.apr.2020.07.02
  46. Yadav SS, Guzman JG, Meena RS, Lal R, Yadav GS (2020) Long term crop management effects on soil organic carbon, structure, and water retention in a cropland soil in central Ohio, USA. Plant. Nutr. Soil Sci. 000: 1-8.
  47. Yang L, Noormets A (2021) Standardized flux seasonality metrics: A companion dataset for FLUXNET annual product. Earth System Science Data 13: 1461–1475. https://doi.org/10.5194/essd-13-1461-2021
  48. Ye R, Parajuli B, Szogi A, Sigua G, Ducey T (2021) Soil health assessment after 40 years of conservation and conventional tillage management in southeastern coastal plain soils. Soil Science Society of America Journal. https://doi.org/10.1002/saj2.20246
  49. Yellajosula, G., L. Cihacek, T. Faller, and C. Schauer. 2020. Soil carbon change due to land conversion to grassland in a semi-arid environment. Soil Sys. 4, 43: https://doi.org/10.3390/soilsystems4030043
  50. Zhou G, Cao W, Bai J, Xu C, Zeng N, Gao S, Rees R, & Dou F (2020) Co-incorporation of rice straw and leguminous green manure can increase soil available nitrogen (N) and reduce carbon and N losses: An incubation study. Pedosphere, 30(5), 661-670. https://doi.org/10.1016/S1002-0160(19)60845-3
  51. Zhou G, Gao S, Xu C, Dou F, Shimizu K, Cao W (2020) Rational utilization of leguminous green manure to mitigate methane emissions by influencing methanogenic and methanotrophic communities in a mesocosm experiment. Geoderma. https://doi.org/10.1016/j.geoderma.2019.114071

 

Back
Log Out ?

Are you sure you want to log out?

Press No if you want to continue work. Press Yes to logout current user.

Yes
Report a Bug
Report a Bug

Describe your bug clearly, including the steps you used to create it.