Conditioning bunchgrass on elk winter range

Westenskow, Kathy Jo

20 June 1991

Research was conducted near the Starkey Experimental Forest and Range in northeastern Oregon. Effects of defoliating bluebunch wheatgrass (Agropyron spicatum (Pursh) Scribn. and Smith) to increase the quality of regrowth available on elk (Cervus elaphus nelsoni) winter range were studied from 1988 through 1990. Clipping treatments were implemented to condition the forage regrowth. Treatments were no defoliation, spring defoliation (7.6 cm stubble height) in June, and fall defoliation (7.6 cm stubble height) in September. Percent calcium, phosphorus, in vitro dry matter digestibility (IVDMD), and available forage (kg/ha DM) of regrowth present on control, spring defoliated, and fall defoliated plots were determined in November and April of both years. Conditioned forage that was again defoliated in the winter was also analyzed for nutrient quality and available forage. Spring conditioning did not affect (p > 0.05) the forage in percent calcium, phosphorus, or available forage, and only slightly increased the IVDMD, when compared to the control in November. In November, the control and spring conditioned forages were deficient in meeting elk requirements for phosphorus, and contained wide calcium to phosphorus ratios. The forages were below 50% IVDMD, and digestible energy levels were below animal requirements in year 1, indicating that spring conditioning did not have an effect on the quality of winter range forage. Defoliation in the vegetative phenology stage allowed the regrowth to complete the growing season similarly as undefoliated plants. Fall conditioning significantly increased the percent phosphorus and IVDMD, while decreasing the available forage compared to the control and spring conditioned forage in November. Fall conditioned forage exceeded elk requirements in both calcium and phosphorus. The calcium to phosphorus ratio was near the optimum absorption range. Digestibility was high, and digestible energy levels were above animal requirements for both years. Fall conditioning however, may create a severe deficit of forage if regrowth is not achieved. In April, there were no differences among treatments in percent calcium, phosphorus, or available forage. Forage from all treatments exceeded elk requirements in calcium and phosphorus, and the calcium to phosphorus ratio would allow optimum absorption of both minerals. Digestibility was high for forage from all treatments. This indicated that the previous years defoliation did not effect forage quality the following spring. Conditioned forage that was again defoliated in the winter was not different in percent calcium or phosphorus when compared to the control in April. Depending on the year and conditioning treatment, there were statistically significant differences in IVDMD and available forage between the control and the winter defoliated samples in April. Conditioned forage that was not defoliated in the winter (April (U)) and winter defoliated samples (April (W)) were comparable in forage quality and available forage in April, though statistical differences were calculated for the spring conditioned samples in year 1, and fall conditioned samples in year 2. / Graduation date: 1992

Wheatgrass -- Oregon

Elk -- Oregon -- Food

Quality of bluebunch wheatgrass (Agropyron spicatum) as a winter range forage for Rocky Mountain Elk (Cervus elaphus nelsoni) in the Blue Mountains of Oregon

Bryant, Larry Duane

07 May 1993

This research was conducted on three study areas on elk winter ranges in Northeast Oregon. One was on the Starkey Experimental Forest and Range and the others were in the same vicinity. Plant appendages, spring and fall defoliation and fall growth of bluebunch wheatgrass were evaluated in terms of quality of nutrient content during September through April of 1986-87 and 1987-88. Four treatments were applied. Plants were clipped to a 2.5 cm and 7.6 cm stubble height in the spring before the boot stage of phenological development; plants were clipped to a 7.6 cm stubble height in the fall after plant maturity in September; plants were not clipped during the year. Percent crude protein, dry matter digestibility (DMD), acid detergent fiber (ADF), and lignin were evaluated monthly. Samples from the four treatments were also analyzed from October to April to determine monthly changes in nutrient contents. Production of growth from all treatments was measured in October and March each year. Leaf material had higher percent crude protein and DMD, with lower percent ADF and lignin than the inflorescence and culm. The third leaf (the youngest plant material) had the highest nutrient value of all appendages. The culm and inflorescence values were not statistically different. Growth following spring defoliation treatments produced higher percent crude protein and DMD (P<.05), with a lower percent ADF and lignin than non-treated plants in both years. This was particularly pronounced during 1986 when precipitation in late summer initiated fall growth. Growth following spring defoliation and bluebunch wheatgrass not defoliated did not produce crude protein or DMD values sufficient to meet minimum dietary maintenance requirements for elk. Fall precipitation adequate to promote fall growth occurred only in 1986. Growth after fall defoliation had the highest percent crude protein and DMD with the lowest ADF and lignin values of all vegetation sampled. However, without 3-5 cm of late summer/early fall rains, fall growth does not occur. This happened in 1987. When growth does occur in fall the quality of the growth exceeds the minimum dietary maintenance requirements for elk. Freezing and thawing of fall growth plant material had minimal effect on forage quality. There were differences (P<.05) between the monthly values for percent crude protein and ADF starting in October and ending in April. However, the percent DMD and lignin from October to April were not different (P<.05). / Graduation date: 1993

Rocky Mountain elk -- Oregon -- Food

Forage plants -- Oregon

Bluebunch wheatgrass