Seasonal Changes in Herbage Weight in an Annual Grass Community

Ratliff, Raymond D.; Heady, Harold F.

doi:10.2307/3894914

Cited by 16 publications

(13 citation statements)

References 4 publications

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“…Sampling periods should, therefore, correspond to the growth period(s) of specific phenological groups containing these key management species. Less precise sampling schemes necessarily confound maximum herbage production with normal, seasonal changes in herbage accumulation and/ or weathering (Ratliff and Heady 1962). Similarly, proper livestock stocking rates within pastures should be based on forage available during the period of grazing rather than on peak forage production, which may occur either before or after period(s) of livestock grazing.…”

Section: Discussionmentioning

confidence: 99%

Phenological Patterns and Adaptations in an Artemisia/Agropyron Plant Community

Pitt¹,

Wikeem²

1990

Journal of Range Management

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Section: Discussionmentioning

confidence: 99%

Phenological Patterns and Adaptations in an Artemisia/Agropyron Plant Community

Pitt¹,

Wikeem²

1990

Journal of Range Management

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“…percent composition also positively correlated with freezing temperatures during the early fall period marked by September, October, and November (Tables 3 and 4). Ratliff and Heady (1962) indicated that Bromus mollis initiated growth sooner than other species in the annual type. The change from beneficial to detrimental influences of freezing temperatures occurs some time during November.…”

Section: Although Warm Winter Temperatures Encouraged the Survival Ofmentioning

confidence: 99%

“…Ratliff and Heady (1962) studied the effect of phenological development of annual species and observed that some species began their most rapid period of growth earlier than others, and some lost weight earlier than others. Ratliff and Heady (1962) studied the effect of phenological development of annual species and observed that some species began their most rapid period of growth earlier than others, and some lost weight earlier than others.…”

Section: Introductionmentioning

confidence: 99%

“…Weather patterns also influence relative botanical composition of the annual type within each growing season. Ratliff and Heady (1962) studied the effect of phenological development of annual species and observed that some species began their most rapid period of growth earlier than others, and some lost weight earlier than others. The sequence of maturity was consistent and predictable from one year to the next.…”

Section: Introductionmentioning

confidence: 99%

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Responses of Annual Vegetation to Temperature and Rainfall Patterns in Northern California

Pitt¹,

Heady²

1978

Ecology

215

198

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JSTOR is a not-for-profit service that helps scholars, researchers, and students discover, use, and build upon a wide range of content in a trusted digital archive. We use information technology and tools to increase productivity and facilitate new forms of scholarship. For more information about JSTOR, please contact support@jstor.org.. Ecological Society of America is collaborating with JSTOR to digitize, preserve and extend access to Ecology.Abstract. Weather patterns significantly influence annual vegetation, both within and between years. The impact of these weather patterns on standing crop, cover, and botanical composition were investigated during the years 1955-1973 inclusive. Standing crop increased as the growing season progressed from March to June, while cover declined. Erodium spp. Carduus pycnocephalus, Geranium spp. and Hypochoeris glabra all declined between these 2 calendar dates.Other annual species increased in botanical composition as the growing season progressed. Weather patterns primarily influenced total standing crop during the initial period of plant growth. Following germination, temperatures were typically warm and conducive to plant growth; drought at this time suppressed total standing crop. Consistent precipitation following fall germination, and again during the period of rapid plant growth in spring, contributes to a "grass year" in the annual type. The sequence of freezing temperatures in relation to phenology of developing grass seedlings determines the relative proportion of annual grass species from one year to the next. Botanical composition of Trifolium spp. and Medicago hispida depends upon mild autumn weather, particularly when such fall weather favors none of the annual grass species. Botanical composition of Erodium spp. positively correlated with weather patterns associated with dry fall conditions. Multiple regressions of standing crop on weather patterns produced useful guidelines for manipulating animal units to achieve complete utilization of available forage, particularly when these equations were implemented in seasonal stages.

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“…The influence of temperature and rainfall patterns on the floristic composition and biomass of mediterranean pastures is well known (e.g. Ratliff & Heady 1962;Hooper & Heady 1970;Murphy 1970;Duncan & Woodmansee 1975). Talbot, Biswell & Hormay (1939) differentiated grass, filarée and clover years, which are closely correlated with precipitation.…”

Section: Introductionmentioning

confidence: 99%

Mediterranean pasture dynamics: the role of germination

Espigares

Peco

1993

J Vegetation Science

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Abstract. Meteorological patterns have a decisive influence on the inter‐annual dynamics of therophyte pastures under Mediterranean climatic conditions. The germination behaviour of annual pasture species was studied by subjecting two collections of seeds taken from plants and soil‐seed banks to two phytotron‐simulated weather patterns: early and late autumn rains. Species from these pastures were arranged along a gradient of sensitivity to temperature on the arrival of the first persistent rain. This sensitivity was manifested in both the total germination success of the species and the germination time profile. The different germination patterns of the species can provide competitive advantages depending on the autumn weather conditions.

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Seasonal Changes in Herbage Weight in an Annual Grass Community

Cited by 16 publications

References 4 publications

Phenological Patterns and Adaptations in an Artemisia/Agropyron Plant Community

Phenological Patterns and Adaptations in an Artemisia/Agropyron Plant Community

Responses of Annual Vegetation to Temperature and Rainfall Patterns in Northern California

Mediterranean pasture dynamics: the role of germination

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