Sensitivity of frequency and canopy cover to changes in vegetation

Mirreh, Mohamed Mohamud

January 1981

No description available.

Rangelands -- Research -- Arizona.

Rangelands -- Arizona.

Santa Rita Experimental Range (Ariz.)

RELATIONSHIP OF THE BOTANICAL COMPOSITION OF STEER DIET TO DIGESTIBILITY AND FORAGE INTAKE ON A DESERT GRASSLAND

Galt, Henry Deloss, 1929-

January 1972

No description available.

Cattle -- Feeding and feeds.

Cattle -- Arizona.

Santa Rita Experimental Range (Ariz.)

Dispersal in a small mammal population

Vaughan, Pamela Jane, 1947-

January 1972

No description available.

Rodents -- Behavior.

Rodents -- Arizona.

Santa Rita Experimental Range (Ariz.)

Predicting semidesert range perennial grass production from recent precipitation and grazing levels

Rivers, William James,

January 1977

Thesis (M.S. - Renewable Natural Resources)--University of Arizona. / Includes bibliographical references.

GROWTH RESPONSE OF SIDEOATS GRAMA TO SEASONAL HERBAGE REMOVAL AND COMPETITION FROM ADJACENT VEGETATION

Andrade, Ivo Francisco de

January 1979

No description available.

Side-oats grama.

Grasses -- Arizona -- Growth.

Santa Rita Experimental Range (Ariz.)

Chemical control of the annual weeds on southern Arizona rangeland

Al-Mashdany, Showket Abdalah, 1950-

January 1978

No description available.

Grasslands -- Arizona.

Grasses -- Arizona.

Weeds -- Control -- Arizona.

Santa Rita Experimental Range (Ariz.)

Response of selected wildlife to mesquite removal in desert grassland

Germano, David Joseph

January 1978

No description available.

Grasslands -- Arizona.

Grassland ecology -- Arizona.

Mesquite.

Wildlife habitat improvement -- Arizona.

Santa Rita Experimental Range (Ariz.)

DYNAMICS OF ABOVEGROUND NET PRIMARY PRODUCTION IN A DESERT GRASSLAND OF ARIZONA

Haile, Astatke

January 1981

Studies were conducted on the dynamics of live, standing recent dead, and standing old dead herbage for a desert grassland site in the southwestern United States. Data were collected at eleven sample dates from August 24, 1979 to October 18, 1980. Coefficients of variation for biomass data for most species exceeded 400% with only the most abundant species sampled with coefficients of variation less than 100%. Coefficients of variation generally were less than 80% for the perennial grasses as a group. The mean rate of transfer of biomass from live herbage to standing recent dead herbage was 0.21% per day for 203 days when expressed as a percentage of the peak live herbage. A rate of transfer of 0.53% per day of live herbage to standing dead for 109 days for perennial grasses in the desert grassland was found during early vegetative growth. A high proportion of leaves to culms was present during this period as compared to the summer growing season. Heavy precipitation in the early part of September accelerated growth of live herbage, and also accounted for losses of standing recent dead and standing old dead herbage to the surface litter component. The loss of dry leaves from standing grass culms due to rainfall impact contributes to an underestimate of net primary production. Standing old dead biomass accumulated following the depression in September. Transformation of the recent dead herbage to an appearance of old dead late in the summer also contributed to underestimating of current year production based on peak crop method due to the identification of recent dead herbage as the old dead component. Summation of growth increments by sample periods provided the highest estimate of aboveground net primary productivity when compared to estimates based on peak standing crop, summation of species peaks, and summation of significant growth increments by sample periods. Estimates of net productivity were 186% of the estimate at peak standing crop. Estimates of net production based on significant growth increments by sample periods yield the lowest value for net production, because poor precision of samples restricted data to few significant values. Based on the peak periods for standing biomass of lifeform groups, a minimum of four sample dates are recommended to estimate aboveground net primary production for semidesert grassland in southeastern Arizona. These sample dates include: (1) late April to sample spring peaks by perennial grasses, annual forbs and annual grasses; (2) late June to capture the spring trough; (3) late September to sample peak crops of perennial forbs, and half-shrubs; and (4) mid to late October to sample the fall peak for perennial grasses. Net production estimates by the peak crop method for perennial grasses varied from 18.7 g/m² in 1979 to 86.1 g/m² in 1980. This variability was attributed to the differences in the amount of rainfall in 1979 and 1980. This factor, therefore, largely influenced the repeatability of biomass estimates from one year to another. The large amount of time (approximately 644 man-hours) needed to sample and separate live and dead components by species for 20 quadrats at each harvest date, together with the year-to-year variability and the need for a minimum of four sample dates to effectively sample the desert grassland community, makes biomass data impractical for general use as a data base in land-use planning. However, this effort should be looked at from the standpoint of research studies describing the dynamics of range systems based on temporal characteristics and transfer functions to provide data which can help design management strategies for these range ecosystems.

Desert ecology -- Arizona.

Santa Rita Experimental Range (Ariz.)

Deterministic model of soil moisture to predict forage yield on semiarid rangelands

Gilbert, Denis Peter.

January 1980

Thesis (M.S. - Renewable Natural Resources)--University of Arizona. / Includes bibliographical references.

Pattern of utilization and response of Lehmann lovegrass (Eragrostis lehmanniana Nees) grazed by cattle.

Santos do Nascimento, Hoston Tomas.

January 1988

A fifteen month experiment was conducted to study the pattern of utilization of Lehmann lovegrass by cows during different seasons at three stocking rates on four patch types (grazed, open; grazed, under-mesquite; mowed, artificial; and ungrazed control) at the Santa Rita Experimental Range. The purpose of the research was to determine the influence of standing biomass, proportion of green material and nutrient content of patch types on the relative time cattle grazed patch types. Cattle biting rate on patch types was also measured. Height of leaves and flowers, dry biomass (kg/ha and %), green biomass (kg/ha) and total biomass were greater on ungrazed patches. Proportion of green was greater in grazed than ungrazed patches. Protein, phosphorus, Calcium and IVDMD were higher in green and complete samples of grazed than ungrazed patches. Cattle concentrated grazing upon upland, open grazed patches and under-mesquite canopy. These selected areas were higher in proportion of green biomass and nutrient value and lower in total standing crop and total green biomass than ungrazed areas. Nutrient density, rather than biomass appeared to govern cattle grazing.

Love grass.

Santa Rita Experimental Range (Ariz.)