• Yield and quality of WW-Iron Master and caucasian bluestem regrowth

      White, L. M.; Dewald, C. L. (Society for Range Management, 1996-01-01)
      Old World bluestems (Bothriochloa spp.) have been seeded on over a million hectares of marginal farmland in Oklahoma and Texas, yet we know little about their regrowth yield and quality. The objective was to determine seasonal pattern of forage regrowth yield and quality of leaves and stems of WW-Iron Master (B. ischaemum [L.] Keng) and Caucasian (B. caucasica [Trin.] C.E. Hubb.) bluestem when 4-week regrowth was harvested at weekly intervals from early May through mid-September. Four plots of each bluestem were established in each of the 4 blocks (32 plots total). Harvesting was rotated so that 4-week regrowth of each bluestem was harvested weekly from 1 of the 4 plots in each block during 1988 and 1989 to determine regrowth yield, in vitro dry matter digestibility (IVDMD), and crude protein (CP) of leaves and stems. Forage regrowth of both species peaked in June both years. Regrowth during August averaged 10 and 35% of June regrowth in 1988 and 1989. WW-Iron Master produced 80 and 45 % greater 4-week regrowth than Caucasian in 1988 and 1989. WW-Iron Master produced 75 and 28% greater leaf regrowth than Caucasian in 1988 and 1989 and twice as many stems both years. Leaf and stem IVDMD of WW-Iron Master averaged 2 to 6 percentage units higher than Caucasian. Leaf CP of WW-Iron Master averaged 2 percentage units higher than Caucasian during May and June. However, stem CP of WW-Iron Master averaged 1 percentage unit lower than Caucasian. Grazing management plans need to consider that the majority of bluestem forage production was restricted to a 1 month period in June. This technique of sampling 4-week regrowth every week during the growing season was an effective method for determining the seasonal regrowth pattern.
    • Yield Increases from Nitrogen on Native Range in Southern British Columbia

      Mason, J. L.; Miltimore, J. E. (Society for Range Management, 1969-03-01)
      Response of native range to nitrogen fertilizer has been variable in the province of British Columbia, Canada. Yields have been approximately doubled at many sites reported, but at others virtually no increase has been obtained. It is therefore of interest to report results at 9 additional locations. Average yields from 7 locations over periods from 1 to 4 years from a single fertilizer application were 507 lb/acre without fertilizer, 701 lb from 60 lb/acre N and 880 lb from 240 lb/acre N. Yield increases from 60 lb N averaged from 4 locations declined from 68% in the first year to 35% in the second, 14% in the third, and 6% in the fourth. However, yield increases from 240 lb N remained high with 73% increase the first year, 58% in the second, 92% in the third, and 101% in the fourth year. Cost of the increased yield ranged from $6.40 to $98.00/ton.
    • Yield of Crested Wheatgrass Following Release from Sagebrush Competition by 2,4-D

      Robertson, J. H. (Society for Range Management, 1969-07-01)
      Rate of increase in yield of crested wheatgrass following use of herbicide on associated sagebrush was measured over four years, including the year of treatment. Significant increases in yield, which were probably worthwhile economically, did not begin until the third year after spraying.
    • Yield of Three Range Grasses Grown Alone and in Mixtures with Legumes

      McGinnies, W. J.; Townsend, C. E. (Society for Range Management, 1983-05-01)
      Four legumes and 3 grasses in combination, and the 3 grasses alone were evaluated for forage yield and persistence for 9 years in north-central Colorado. Sicklepod milkvetch (Astragalus falcatus), alfalfa (Medicago sativa), sainfoin (Onobrychis viciifolia) or crownvetch (Coronilla varia) were planted in alternate rows with crested wheatgrass (Agropyron desertorum), Russian wildrye (Elymus junceus), or pubescent wheatgrass (A. trichophorum). Crownvetch failed to become established. Sainfoin, a short-lived species under Colorado range conditions, was gone within 5 years. Alfalfa persisted 7 years; it was killed by a combination of drought and pocket gophers. Sicklepod milkvetch persisted for the entire period. This site was too dry for pubescent wheatgrass and its stand declined rapidly. Crested wheatgrass with sicklepod milkvetch or alfalfa, and Russian wildrye with alfalfa produced the highest total yields. All grass-legume mixtures involving crested wheatgrass and Russian wildrye produced significantly more forage than the grasses grown alone in 30 cm row spacing. Crude protein content was higher for grass-legume mixtures than for the grass alone.
    • Yield response of needle-and-thread and threadleaf sedge to moisture regime and spring and fall defoliation

      Koehler, A. E.; Whisenhunt, W. D.; Volesky, J. D.; Reece, P. E.; Holman, T. L.; Moser, L. E. (Society for Range Management, 2014-01)
      Little information is available to help managers of cool-season dominated semiarid rangelands determine when to begin and end grazing in the spring and fall. Therefore, we evaluated the effects of clipping spring and fall growth on subsequent-year yield of needle-and-thread (Hesperostipa comata [Trin. & Rupr.] Barkworth) and threadleaf sedge (Carex filifolia Nutt.) (USDA-NRCS 2012) using a randomized complete block, split-plot experimental design with fall moisture regimes (ambient or supplemental water) applied to main plots and defoliation treatments applied to subplots. Two combinations of spring defoliation, one for each fall moisture regime, were composed of a factorial array of three spring clipping dates (early May, late May, mid-June) and three levels of defoliation (0%, 40%, 80%). A third combination of treatments was composed of the supplemental water regime and an array of a single spring clipping date (late May), a single fall clipping date (late September, after regrowth), and three levels of defoliation (0%, 40%, 80%) in the same year. Ambient fall moisture was low, leading to continued senescence of needle-and-thread and threadleaf sedge, whereas the application of 10 cm of supplemental water in mid-August stimulated fall growth. The study was replicated with two sets of main plots at four sites in consecutive years, 2002 and 2003. Yield data were collected in mid-June of the year following treatment. Subsequent-year yield of needle-and-thread was not affected by defoliation under average plant-year precipitation conditions (2003) (P > 0.05); however, it was reduced following heavy (80%) late spring (late May or June) defoliation during a drought year (2002) (P > 0.05). Subsequent-year yield of threadleaf sedge was not affected by defoliation in either year (P > 0.05). Because it is difficult to predict when drought will occur, avoiding heavy late-spring grazing in needle-and-thread-dominated pastures in consecutive years would be prudent. © 2014 The Society for Range Management.
    • Yield Response to Time of Burning in the Kansas Flint Hills

      Owensby, C. E.; Anderson, K. L. (Society for Range Management, 1967-01-01)
      The effect of time of spring burning on herbage yields in pastures grazed throughout the growing season was investigated. Early and mid-spring burning reduced forage yields but late-spring burning caused no reduction. Weed yield was significantly reduced by late-spring burning. Differences in grazing distribution apparently affected treatment responses in ordinary upland and limestone breaks range sites.
    • Yield, Survival, and Carbohydrate Reserve of Hardinggrass in Relation to Herbage Removal

      McKell, C. M.; Whalley, R. D.; Brown, V. (Society for Range Management, 1966-03-01)
      Frequent removal of herbage from hardinggrass plants during the most active period of growth resulted in reduced yields and an increase in plant death. Intensive clipping also appeared to reduce the concentration of carbohydrate reserves in stem bases. Total sugar percent was higher and fructosan percent was lower in intensively clipped plants than in plants clipped only at maturity.
    • Yield, Vigor, and Persistence of Sand Lovegrass (Eragrostis trichodes (Nutt.) Wood) Following Clipping Treatments

      Moser, L. E.; Perry, L. J. (Society for Range Management, 1983-03-01)
      Individual sand lovegrass [Eragrostis trichodes (Nutt.) Wood.] plants on a choppy sands range site in Nebraska's Sandhills were clipped with 7 different harvest regimes for 3 years to determine critical defoliation times. After 3 years unclipped plants had the greatest survival rate and plants harvested only once a year on June 10 or July 10 survived better than those with other harvest regimes. Top and root yields, new tiller counts, and total non-structural carbohydrate (TNC) levels were all reduced severely with multiple harvests within one year. Sand lovegrass plants cannot tolerate close defoliation at anytime of the year although a single June defoliation appeared to be less detrimental than August defoliation. Sand lovegrass is difficult to manage when it makes up a small component of a pasture. Sand lovegrass will probably persist and yield best in a rotational grazing program where it is defoliated only once a year and some leaf area remains at the close of the grazing period. Plants are normally short lived so they should be managed to allow seed production periodically. A grazing management program necessary to maintain small amounts of sand lovegrass in a mixture may not be practical.
    • Yields and Consumption in a Southern Illinois Bluegrass-Broomsedge Pasture

      Voigt, J. W. (Society for Range Management, 1953-07-01)
    • Yields of Dissolved Solids from Aspen-Grassland and Spruce-Fir Watersheds in Southwestern Alberta

      Singh, T. (Society for Range Management, 1976-09-01)
      Water quality samples representing various flow conditions were collected from the main creeks of Streeter and Marmot experimental watersheds in southwestern Alberta. Total dissolved solids were determined gravimetrically after evaporating aliquots of filtered samples. An excellent correlation between stream discharge and yield of dissolved solids was found in the two watersheds. The regression models thus established were used to estimate the yields of total dissolved solids from the streamflow data on a daily, monthly, and annual basis. The highest yield occurred in the month of June and the lowest during the low-flow months of winter. The yield of total dissolved solids transported annually amounted to 27 metric tons per square kilometer for aspen-grassland vegetation, compared to 69 metric tons per square kilometer for spruce-fir forest.
    • Yields, Nutrient Quality, and Palatability to Sheep of Fourteen Grass Accessions for Potential Use on Sagebrush-Grass Range in Southeastern Idaho

      Murray, R. B. (Society for Range Management, 1984-07-01)
      Fourteen grass accessions were evaluated in terms of yields, nutrient quality, and palatability to sheep at the U.S. Sheep Experiment Station in southeastern Idaho. The interspecific hybrid (Agropyron cristatum × A. desertorum) produced the greatest amount of total biomass (which includes leaves, stems, and heads), but Russian wildryes (Psathrostachys juncea), tall fescue (Festuca arundinacea), and the RS- hybrid (Elytrigia repens × E. spicata) produced a greater proportion of leaf material. Crude protein contents declined with advance in plant maturity in all accessions, except Russian wildryes (Bozoisky-Select and RWR-V13) in which crude protein contents declined only slightly between June 30 and September 15. All accessions contained adequate Ca, Mg, and Mn levels in the forage throughout the spring, summer and fall. Phosphorus and Zn levels were inadequate for sheep during late summer and fall. Sulfur content was below recommended levels for sheep. Potassium levels dropped below recommended rates in some accessions on September 15, and certain accessions indicated a proneness towards inducing grass tetany in early spring based on K: (Ca + Mg) ratios. Copper levels were adequate for sheep on June 30, but 10 of 14 accessions were below recommended levels on September 15. When preference is considered without interference from seedstalks, all accessions were preferred similarly by sheep. However, preference decreased as numbers of seedstalks increased. Burning in mid-March removed dead standing seedstalks and litter providing more accessible forage, but tended to aggravate the problem by increasing the number of new seedstalks. Heavy use in the spring may reduce flowering, and produce a greater proportion of vegetative stems. An index based on leaf yields, crude protein content, and sheep preference was used to rank species. This index ranked the Russian wildrye (Bozoisky-Select) first followed by RWR-V13 second.
    • YO Ranch in Texas 100 Years Old

      Schreiner, Charles (Society for Range Management, 1984-04-01)
    • You Can't Turn 'Em Loose—Or Can You?

      Jones, Dale A.; Paddock, Raymond (Society for Range Management, 1966-03-01)
    • Young Montana Rangemen Shine in Competition

      Lacey, John; Strobel, Harold (Society for Range Management, 1985-08-01)
    • Youth Forum Competes in Orlando

      Wright, Jan (Society for Range Management, 1986-08-01)
    • Youth Forum: Controlling Leafy Spurge

      Beckman, Ben (Society for Range Management, 2006-08-01)