Register      Login
The Rangeland Journal The Rangeland Journal Society
Journal of the Australian Rangeland Society
Shopping Cart: ( empty )
You are here: Home > Journals > RJ > RJ23047
RESEARCH ARTICLE (Open Access)
Contents Vol 45(4)

Adaptive multi-paddock grazing management reduces diet quality of yearling cattle in shortgrass steppe

Tamarah R. Jorns A , J. Derek Scasta B , Justin D. Derner https://orcid.org/0000-0001-8076-0736 C * , David J. Augustine D , Lauren M. Porensky E , Edward J. Raynor F and the CARM Stakeholder GroupG
+ Author Affiliations
- Author Affiliations

A USDA-ARS Plains Area Rangeland Resources and Systems Research Unit, 58009 WCR, Nunn, CO 80648, USA.

B Department of Ecosystem Science and Management, University of Wyoming, Laramie, WY 82072 USA.

C USDA-ARS Plains Area Rangeland Resources and Systems Research Unit, Cheyenne, WY 82009, USA.

D Ecologist, USDA-ARS Plains Area Rangeland Resources and Systems Research Unit, 1701 Center Avenue, Fort Collins, CO 80526, USA.

E USDA-ARS Plains Area Rangeland Resources and Systems Research Unit, 1701 Center Avenue, Fort Collins, CO 80526, USA.

F Department of Animal Sciences, Colorado State University, Fort Collins, CO 80523, USA.

G Stakeholder contributors are: Rachel Meade (USDA-Natural Resource Conservation Service), Kim Obele and Stephanie Magnuson (USDA-Forest Service), Matt Pollart (Colorado State Land Board), Terri Schulz (The Nature Conservancy), Ted Toombs (Environmental Defense Fund), Seth Gallagher and Angela Dwyer (Bird Conservancy of the Rockies), Casey Matney and Annie Overlin (Colorado State University Extension), and the Crow Valley Livestock Cooperative, Inc. (Steve Anderson, Dana Bowman, Andy Lawrence, Jeff Wahlert, and the late Leonard Ball).

* Correspondence to: Justin.Derner@usda.gov

The Rangeland Journal 45(4) 160-172 https://doi.org/10.1071/RJ23047
Submitted: 15 November 2023  Accepted: 13 January 2024  Published: 6 February 2024

© 2023 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of the Australian Rangeland Society. This is an open access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND)

Abstract

Adaptive multi-paddock (AMP) grazing is hypothesised to improve livestock diet quality by allowing managers to move livestock among paddocks in a manner that tracks phenological variation in forage growth related to variation in plant community composition. We compared yearling steer (Bos taurus) dietary crude protein (CP), digestible organic matter (DOM), and diet composition on a ranch-scale (2600 ha, 10 pairs of 130 ha paddocks) experiment in shortgrass steppe for 6 years (2014–2019) in contrasting grazing treatments: Collaborative Adaptive Rangeland Management (CARM, a type of AMP with a stakeholder group making science-informed management decisions within the grazing season) and season-long, continuous grazing (TRM, traditional rangeland management). These grazing treatments had the same system-level stocking rate annually but differed in stocking density, with CARM being 10-fold higher than TRM because of all steers in the CARM treatment being in a single herd. Mean grazing-season dietary CP was consistently 13–28% higher in TRM than CARM; in contrast, DOM in TRM was similar to CARM or only slightly higher (2.5%). Differences in diet quality between CARM and TRM grazing strategies were largest early in the grazing season, with CP being 14–36% higher for TRM compared to CARM steers during the first 4 weeks; these diet-quality differences between treatments disappeared towards the end of the grazing season. Implementing AMP on the basis of a diverse stakeholder group’s experiential knowledge about plant communities, soils, and ecological sites did alter within-grazing season plant functional group contributions to steer diets. Although we implemented adaptive decision-making within the grazing season, which allowed CARM steers to track the seasonal phenology of C3 versus C4 grasses as steers rotated among paddocks varying in plant community composition, these adaptive movements did not offset the detrimental effects on diet quality associated with grazing in a herd with 10-fold higher stocking density. Managers applying AMP in semiarid rangelands should be cognisant that high stocking density can be associated with lower diet quality early in the growing season, which can compromise livestock gain responses.

Keywords: adaptive multi-paddock grazing, collaborative adaptive rangeland management, crude protein, digestible organic matter, DNA metabarcoding, semiarid rangeland, stocker cattle, stocking density.

References

Augustine DJ (2010) Spatial versus temporal variation in precipitation in a semiarid ecosystem. Landscape Ecology 25, 913-925.
| Crossref | Google Scholar |

Augustine DJ, Derner JD (2014) Controls over the strength and timing of fire–grazer interactions in a semi-arid rangeland. Journal of Applied Ecology 51, 242-250.
| Crossref | Google Scholar |

Augustine DJ, Derner JD, Milchunas DG (2010) Prescribed fire, grazing, and herbaceous plant production in shortgrass steppe. 63, 317-323.
| Crossref | Google Scholar |

Augustine DJ, Brewer P, Blumenthal DM, Derner JD, Von Fischer JC (2014) Prescribed fire, soil inorganic nitrogen dynamics, and plant responses in a semiarid grassland. Journal of Arid Environments 104, 59-66.
| Crossref | Google Scholar |

Augustine DJ, Derner JD, Fernández-Giménez ME, Porensky LM, Wilmer H, Briske DD (2020) Adaptive, multipaddock rotational grazing management: a ranch-scale assessment of effects on vegetation and livestock performance in semiarid rangeland. Rangeland Ecology and Management 73, 796-810.
| Crossref | Google Scholar |

Augustine DJ, Kearney S, Raynor EJ, Porensky LM, Derner JD (2023) Adaptive, multi-paddock, rotational grazing management alters foraging behavior and spatial grazing distribution of free-ranging cattle. Agriculture, Ecosystems & Environment 352, 108521.
| Crossref | Google Scholar |

Bailey DW, Brown JR (2011) Rotational grazing systems and livestock grazing behavior in shrub-dominated semi-arid and arid rangelands. Rangeland Ecology and Management 64, 1-9.
| Crossref | Google Scholar |

Bailey DW, Gross JE, Laca EA, Rittenhouse LR, Coughenour MB, Swift DM, Sims PL (1996) Mechanisms that result in large herbivore grazing distribution patterns. Journal of Rangeland Management 49, 386-400.
| Crossref | Google Scholar |

Bement RE (1969) A stocking-rate guide for beef production on blue-grama range. Journal of Rangeland Management 22, 83-86.
| Crossref | Google Scholar |

Bork EW, Döbert TF, Grenke JSJ, Carlyle CN, Cahill Jr JF, Boyce MS (2021) Comparative pasture management on Canadian cattle ranches with and without adaptive multipaddock grazing. Rangeland Ecology and Management 78, 5-14.
| Crossref | Google Scholar |

Boyd CS, Svejcar TJ (2009) Managing complex problems in rangeland ecosystems. Rangeland Ecology and Management 62, 491-499.
| Crossref | Google Scholar |

Briske DD, Derner JD, Milchunas DG, Tate KW (2011a) An evidence-based assessment of prescribed grazing practices. In ‘Conservation benefits of rangeland practices: assessment, recommendations, and knowledge gaps’. (Ed. DD Briske) pp. 21–74. (USDA–NRCS: Washington, DC, USA)

Briske DD, Sayre NF, Huntsinger L, Fernández-Giménez ME, Budd B, Derner JD (2011b) Origin, persistence, and resolution of the rotational grazing debate: integrating human dimensions into rangeland research. Rangeland Ecology and Management 64, 325-334.
| Crossref | Google Scholar |

Brunson MW, Burritt EA (2009) Behavioral factors in rotational grazing systems. Rangelands 31, 20-25.
| Crossref | Google Scholar |

Cline HJ, Neville BW, Lardy GP, Caton JS (2009) Influence of advancing season on dietary composition, intake, site of digestion, and microbial efficiency in beef steers grazing a native range in western North Dakota. Journal of Animal Science 87, 375-383.
| Crossref | Google Scholar | PubMed |

Craine JM, Towne EG, Miller M, Fierer N (2015) Climatic warming and the future of bison as grazers. Scientific Reports 5, 16738.
| Crossref | Google Scholar | PubMed |

Craine JM, Angerer JP, Elmore A, Fierer N (2016) Continental-scale patterns reveal potential for warming-induced shifts in cattle diet. PLoS One 11, e0161511.
| Crossref | Google Scholar | PubMed |

Davis KP, Augustine DJ, Monroe AP, Derner JD, Aldridge CL (2020) Adaptive rangeland management benefits grassland birds utilizing opposing vegetation structure in the shortgrass steppe. Ecological Applications 30, e02020.
| Crossref | Google Scholar | PubMed |

Davis KP, Augustine DJ, Monroe AP, Aldridge CL (2021) Vegetation characteristics and precipitation jointly influence grassland bird abundance beyond the effects of grazing management. Ornithological Applications 123, 1-15.
| Crossref | Google Scholar |

Denny RP, Barnes DL, Kennan TCD (1977) Trials of multi paddock grazing systems on veld. 1. An explanatory trial of systems involving twelve paddocks and one herd. Rhodesian Journal of Agricultural Research 15, 11-16.
| Google Scholar |

Derner JD, Lauenroth WK, Stapp P, Augustine DJ (2009) Livestock as ecosystem engineers for grassland bird habitat in the western Great Plains of North America. Rangeland Ecology and Management 62, 111-118.
| Crossref | Google Scholar |

Derner JD, Augustine DJ, Briske DD, Wilmer H, Porensky LM, Fernández-Giménez ME, Peck DE, Ritten JP, the CARM Stakeholder Group (2021) Can collaborative adaptive management improve cattle production in multipaddock grazing systems?. Rangeland Ecology and Management 75, 1-8.
| Crossref | Google Scholar |

Duniway MC, Bestelmeyer BT, Tugel A (2010) Soil processes and properties that distinguish ecological sites and states. Rangelands 32, 9-15.
| Crossref | Google Scholar |

Garnick S, Barboza PS, Walker JW (2018) Assessment of animal-based methods used for estimating and monitoring rangeland herbivore diet composition. Rangeland Ecology and Management 71, 449-457.
| Crossref | Google Scholar |

Genin D, Villca Z, Abasto P (1994) Diet selection and utilization by llama and sheep in a high altitude arid rangeland of Bolivia. Journal of Rangeland Management 47, 245-248.
| Crossref | Google Scholar |

Gersie SP, Augustine DJ, Derner JD (2019) Cattle grazing distribution in shortgrass steppe: influences of topography and saline soils. Rangeland Ecology and Management 72, 602-614.
| Crossref | Google Scholar |

Gusha J, Masocha M, Mugabe PH (2017) Impact of grazing system on rangeland condition and grazing capacity in Zimbabwe. The Rangeland Journal 39, 219-225.
| Crossref | Google Scholar |

Hall TJ, McIvor JG, Jones P, Smith DR, Mayer DG (2016) Comparison of stocking methods for beef production in northern Australia: seasonal diet quality and composition. The Rangeland Journal 38, 553-567.
| Crossref | Google Scholar |

Hansen RM, Gold IK (1977) Blacktail prairie dogs, desert cottontails and cattle trophic relations on shortgrass range. Journal of Range Management 30, 210-214.
| Crossref | Google Scholar |

Hawkins H (2017) A global assessment of Holistic Planned GrazingTM compared with season-long, continuous grazing: meta-analysis findings. African Journal of Range & Forage Science 34, 65-75.
| Crossref | Google Scholar |

Hawkins HJ, Venter ZS, Cramer MD (2022) A holistic view of holistic management: what do farm-scale, carbon, and social studies tell us? Agriculture, Ecosystems, & Environment 323, 107702.
| Crossref | Google Scholar |

Hyder DN, Bement RE, Remmenga EE, Hervery DF (1975) ‘Ecological responses of native plants and guidelines for management of shortgrass range.’ USDA Technical Bulletin 1503. (US Government Printing Office: Washington, DC, USA)

Jung HG, Rice RW, Koong LJ (1985) Comparison of heifer weight gains and forage quality for continuous and short-duration grazing systems. Journal of Rangeland Management 38, 144-148.
| Crossref | Google Scholar |

Kartzinel TR, Pringle RM (2020) Multiple dimensions of dietary diversity in large mammalian herbivores. Journal of Animal Ecology 89, 1482-1496.
| Crossref | Google Scholar | PubMed |

Kartzinel TR, Chen PA, Coverdale TC, Erickson DL, Kress WJ, Kuzmina ML, Rubenstein DI, Wang W, Pringle RM (2015) DNA metabarcoding illuminates dietary niche partitioning by African large herbivores. Proceedings of the National Academy of Sciences of the United States of America 112, 8019-8024.
| Crossref | Google Scholar | PubMed |

Kowalczyk R, Taberlet P, Coissac E, Valentini A, Miquel C, Kamiński T, Wójcik JM (2011) Influence of management practices on large herbivore diet: case of European bison in Bialowieża Primeal Forest (Poland). Forest Ecology and Management 261, 821-828.
| Crossref | Google Scholar |

Kuznetsova A, Brockhoff PB, Christensen RHB (2017) lmerTest package: tests in linear mixed effects models. Journal of Statistical Software 82, 1-26.
| Crossref | Google Scholar |

Lê S, Josse J, Husson F (2008) FactoMineR: an r package for multivariate analysis. Journal of Statistical Software 25, 1-18.
| Crossref | Google Scholar |

Lyons RK, Stuth JW (1992) Fecal NIRS equations for predicting diet quality of free-ranging cattle. Journal of Rangeland Management 45, 238-244.
| Crossref | Google Scholar |

McCollum FT, III, Gillen RL (1998) Grazing management affects nutrient intake by steers grazing tallgrass prairie. Journal of Rangeland Management 51, 69-72.
| Crossref | Google Scholar |

McCollum FT, III, Gillen RL, Brummer JE (1994) Cattle diet quality under short duration grazing on tallgrass prairie. Journal of Rangeland Management 47, 489-493.
| Crossref | Google Scholar |

Milchunas DG, Mosier AR, Morgan JA, LeCain DR, King JY, Nelson JA (2005) Elevated CO2 and defoliation effects on a shortgrass steppe: forage quality versus quantity for ruminants. Agriculture, Ecosystems & Environment 111, 166-184.
| Crossref | Google Scholar |

O’Reagain PJ, Turner JR (1992) An evaluation of the empirical basis for grazing management recommendations for rangeland in southern. Journal of the Grassland Society of Southern Africa 9, 38-49.
| Crossref | Google Scholar |

Park J, Ale S, Teague WR, Jeong J (2017) Evaluating the ranch and watershed scale impacts of using traditional and adaptive multi-paddock grazing on runoff, sediment and nutrient losses in North Texas, USA. Agriculture, Ecosystems & Environment 24, 32-44.
| Crossref | Google Scholar |

Popp JD, McCaughey WP, Cohen RDH (1997) Grazing system and stocking rate effects on the productivity, botanical composition and soil surface characteristics of alfalfa-grass pastures. Canadian Journal of Animal Science 77, 669-676.
| Crossref | Google Scholar |

Porensky LM, Augustine DJ, Derner JD, Wilmer H, Lipke MN, Fernandez-Gimenez ME, Briske DD, CARM Stakeholder Group (2021) Collaborative adaptive rangeland management, multipaddock rotational grazing, and the story of the regrazed grass plant. Rangeland Ecology & Management 78, 127-141.
| Crossref | Google Scholar |

PRISM Climate Group Oregon State University (2023) Available at https://prism.oregonstate.edu/explorer/ [accessed 25 September 2023]

Quéméré E, Hibert F, Miquel C, Lhuillier E, Rasolondraibe E, Champeau J, Rabarivola C, Nusbaumer L, Chatelain C, Gautier L, Ranirison P, Crouau-Roy B, Taberlet P, Chikhi L (2013) A DNA metabarcoding study of a primate dietary diversity and plasticity across its entire fragmented range. PLoS One 8, e58971.
| Crossref | Google Scholar | PubMed |

Raynor EJ, Derner JD, Soder KJ, Augustine DJ (2021b) Noseband sensor validation and behavioural indicators for assessing beef cattle grazing on extensive paddocks. Applied Animal Behavior Science 242, 105402.
| Crossref | Google Scholar |

Raynor EJ, Gersie SP, Stephenson MB, Clark PE, Spiegal SA, Boughton RK, Bailey DW, Cibils A, Smith BW, Derner JD, Estell RE, Nielson RM, Augustine DJ (2021a) Cattle grazing distribution patterns related to topography across diverse rangeland ecosystems of North America. Rangeland Ecology and Management 75, 91-103.
| Crossref | Google Scholar |

R Core Team (2023) ‘R: A Language and Environment for Statistical Computing.’ (R Foundation for Statistical Computing, Vienna, Austria) Available at https://www.R-project.org/ [accessed 1 May 2023]

Reppert JN (1960) Forage preference and grazing habits of cattle at the eastern Colorado range station. Journal of Rangeland Management 13, 58-65.
| Crossref | Google Scholar |

Reynolds AQ, Derner JD, Augustine DJ, Porensky LM, Wilmer H, Jorns T, Briske DD, Scasta JD, Fernández-Giménez ME (2019) Ecological sites: can they be managed to promote livestock production. Rangelands 41, 239-243.
| Crossref | Google Scholar |

Rind MI, Phillips CJC (1999) The effects of group size on the ingestive and social behaviour of grazing dairy cows. Animal Science 68, 589-596.
| Crossref | Google Scholar |

Roche LM, Cutts BB, Derner JD, Lubell MN, Tate KW (2015) On-ranch grazing strategies: context for the rotational grazing dilemma. Rangeland Ecology and Management 68, 248-256.
| Crossref | Google Scholar |

Rowntree JE, Stanley PL, Maciel ICF, Thorbecke M, Rosenzweig ST, Hancock DW, Guzman A, Raven MR (2020) Ecosystem impacts and productive capacity of multi-species pastured livestock system. Frontiers in Sustainable Food Systems 4, 232.
| Crossref | Google Scholar |

Sanders KD, Dahl BE, Scott G (1980) Bite-count vs fecal analysis for range animal diets. Journal of Range Management 33, 146-149.
| Crossref | Google Scholar |

Scasta J (2017) Seasonal forage dynamics of three grasses with different origins and photosynthetic pathways in a rural North American cold steppe. Livestock Research for Rural Development 29, 1-15.
| Google Scholar |

Scasta JD, Jorns T, Derner JD, Lake S, Augustine DJ, Windh JL, Smith TL (2019) Validation of DNA metabarcoding of fecal samples using cattle fed known rations. Animal Feed Science Technology 255, 114219.
| Crossref | Google Scholar |

Scasta JD, Jorns T, Derner JD, Stam B, McClaren M, Calkins C, Stewart W (2020) Technical note: toxic plants in sheep diets grazing extensive landscapes: insights from fecal DNA metabarcoding. Livestock Science 236, 104002.
| Crossref | Google Scholar |

Shoop MC, Clark RC, Laycock WA, Hansen RM (1985) Cattle diets on shortgrass ranges with different amounts of fourwing saltbush. Journal of Range Management 38, 443-449.
| Crossref | Google Scholar |

Shrestha R, Wegge P (2006) Determining the composition of herbivore diets in the trans-Himalayan rangelands: a comparison of field methods. Rangeland Ecology and Management 59, 512-518.
| Crossref | Google Scholar |

Soininen EM, Ravolainen VT, Bråthen KA, Yoccoz NG, Gielly L, Ims RA (2013) Arctic small rodents have diverse diets and flexible food selection. PLOS ONE 8, e68128.
| Crossref | Google Scholar | PubMed |

SSURGO (2022) Available at https://www.nrcs.usda.gov/resources/data-and-reports/description-of-gridded-soil-survey-geographic-gssurgo-database [accessed 25 October 2022]

Teague R, Barnes M (2017) Grazing management the regenerates ecosystem function and grazingland livelihoods. African Journal of Range & Forage Science 34, 77-86.
| Crossref | Google Scholar |

Teague R, Dowhower SL, Baker SA, Haile N, DeLaune PB, Conover DM (2011) Grazing management impacts on vegetation, soil biota and soil chemical, physical and hydrological properties in tall grass prairie. Agriculture, Ecosystems, & Environment 141, 310-322.
| Crossref | Google Scholar |

Teague R, Provenza F, Kreuter U, Steffens T, Barnes M (2013) Multi-paddock grazing on rangelands: why the perceptual dichotomy between research results and rancher experience. Journal of Environmental Management 128, 699-717.
| Crossref | Google Scholar | PubMed |

USDA (2007a) Ecological site description for Loamy Plains (R067BY002CO). Available at https://edit.jornada.nmsu.edu/catalogs/esd/067B/R067BY002CO [accessed 25 October 2022]

USDA (2007b) Ecological site description for Sandy Plains (R067BY024CO). Available at https://edit.jornada.nmsu.edu/catalogs/esd/067B/R067BY024CO [accessed 25 October 2022]

USDA (2007c) Ecological site description for Salt Flat (R067BY033CO). Available at https://edit.jornada.nmsu.edu/catalogs/esd/067B/R067BY033CO [accessed 25 October 2022]

Valentini A, Pompanon F, Taberlet P (2009) DNA barcoding for ecologists. Trends in Ecology & Evolution 24, 110-117.
| Crossref | Google Scholar | PubMed |

Van Dyne GMV, Torell DT (1964) Development and use of the esophageal fistula: a review. Journal of Rangeland Management 17, 7-19.
| Crossref | Google Scholar |

Vavra M, Rice RW, Hansen RM, Sims PL (1977) Food habits of cattle on shortgrass range in northcentral Colorado. Journal of Range Management 30, 261-263.
| Crossref | Google Scholar |

Walker JW, Heitschmidt RK, Moraes EAD, Kothmann MM, Dowhower SL (1989) Quality and botanical composition of cattle diets under rotational and continuous grazing treatments. Journal of Rangeland Management 42, 239-242.
| Crossref | Google Scholar |

Wilmer H, Derner JD, Fernández-Giménez ME, Briske DD, Augustine DJ, Porensky LM (2018) Collaborative adaptive rangeland management fosters management–science partnerships. Rangeland Ecology and Management 71, 646-657.
| Crossref | Google Scholar |

Wilmer H, Schulz T, Fernández-Giménez ME, Derner JD, Porensky LM, Augustine DJ, Ritten J, Dwyer A, Meade R (2022) Social learning lessons from collaborative adaptive rangeland management. Rangelands 44, 316-326.
| Crossref | Google Scholar |