Chemical Control of Cirsium Arvense (L.) Scop. and Sonchus Arvensis L. in Relation to Ecology of Saline Lake-shore Vegetation PDF Download
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Author: R. K. Gupta
Publisher:
ISBN:
Category : Canada thistle
Languages : en
Pages : 0
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Book Description
In saline areas bordering Miquelon Lake, a water-fowl refuge, it was possible to maintain tall vegetative cover of Cirsium arvense L. Scop. (Canada thistle) and Sonchus arvensis L. (perennial sow thistle) while preventing their flowering and seed dispersal, by means of small dosages of 4-amino-3,5,6-trichloropicolinic acid (picloram) or of 2,4- dichlorophenoxyacetic acid (2,4-D) applied before the thistles flowered. Picloram sprays at a dosage as small as 0.25 oz/A prevented flowering of Canada thistle treated in early bud stage. For comparable results with perennial sow thistle which was somewhat more resistant to small dosages of picloram this treatment had to be applied just prior to the plants' early bud stage. Results comparable to those noted for picloram were achieved with 8 oz/A of 2,4-D. For complete prevention of flowering of both species of thistles treated at late bud stage, picloram at 1.5 oz/A or 2,4-D at 2 lb/A was necessary. However, these higher dosages also caused extensive damage to the vegetative top growth of the thistles. In other experiments with a dense stand of Canada thistle growing on cultivated fertile clay loam soil the objective was to study techniques of eradication of the thistles. Best results were obtained by mowing the weeds at their flowering stage and spraying their regrowth about a month later with 4 oz/A picloram, followed by a second treatment of regrowth with 2 oz/A picloram, after comparable mowing of the sur viving thistles during the following year. This practice was more effective than those where no mowing was included, involving either spraying thistles at flowering stage or spraying half dosage of herbicide at flowering stage and half in the fall. Both with regard to reduction in numbers of new shoots and of their total mass two years after the first treatment, effects of as little as 2 oz/A of picloram were greater than those resulting from use of 2 lb/A 2,4-D ester in any of the pro cedures noted. At Miquelon Lake where Hordeum jubatum L. (foxtail barley) was a dominant native component of the vegetation of the saline experimental areas, Canada thistle and perennial sow thistle top growth and regrowth were eliminated for at least two years duration of observations by single spray treatments with picloram at 4-6 oz/A. These resulted in an increase in cover of the native grass species associated with a decline or disappearance of some of the low-growing native dicotyledonous species present in some plots. 2-Methoxy-3,6-dichlorobenzoic acid (dicamba) applied at 6 to 24 oz/A and 2,4-D ethyl ester at 24 to 96 oz/A were incapable of complete supress- ion of regrowth from roots of treated thistles. Treatments with as little as 1 oz/A of picloram resulted in 907. reduction in stand of the thistles within a year in plots having foxtail barley and other grasses as com petitors able to fill in the cover. Ground sprayer applications of herbicide produced more uniform results than aerial spraying of narrow strips of this tie-infested land. From the agricultural standpoint complete eradication of the thistles would be the simplest procedure in this area where natural plant success ion is towards salt-tolerant grasses. From a wildlife management view point it is difficult to know, whether merely preventing flowering of thistles or removing them altogether would make any important difference insofar as strips of farmland shore line are concerned.
Author: R. K. Gupta
Publisher:
ISBN:
Category : Canada thistle
Languages : en
Pages : 0
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Book Description
In saline areas bordering Miquelon Lake, a water-fowl refuge, it was possible to maintain tall vegetative cover of Cirsium arvense L. Scop. (Canada thistle) and Sonchus arvensis L. (perennial sow thistle) while preventing their flowering and seed dispersal, by means of small dosages of 4-amino-3,5,6-trichloropicolinic acid (picloram) or of 2,4- dichlorophenoxyacetic acid (2,4-D) applied before the thistles flowered. Picloram sprays at a dosage as small as 0.25 oz/A prevented flowering of Canada thistle treated in early bud stage. For comparable results with perennial sow thistle which was somewhat more resistant to small dosages of picloram this treatment had to be applied just prior to the plants' early bud stage. Results comparable to those noted for picloram were achieved with 8 oz/A of 2,4-D. For complete prevention of flowering of both species of thistles treated at late bud stage, picloram at 1.5 oz/A or 2,4-D at 2 lb/A was necessary. However, these higher dosages also caused extensive damage to the vegetative top growth of the thistles. In other experiments with a dense stand of Canada thistle growing on cultivated fertile clay loam soil the objective was to study techniques of eradication of the thistles. Best results were obtained by mowing the weeds at their flowering stage and spraying their regrowth about a month later with 4 oz/A picloram, followed by a second treatment of regrowth with 2 oz/A picloram, after comparable mowing of the sur viving thistles during the following year. This practice was more effective than those where no mowing was included, involving either spraying thistles at flowering stage or spraying half dosage of herbicide at flowering stage and half in the fall. Both with regard to reduction in numbers of new shoots and of their total mass two years after the first treatment, effects of as little as 2 oz/A of picloram were greater than those resulting from use of 2 lb/A 2,4-D ester in any of the pro cedures noted. At Miquelon Lake where Hordeum jubatum L. (foxtail barley) was a dominant native component of the vegetation of the saline experimental areas, Canada thistle and perennial sow thistle top growth and regrowth were eliminated for at least two years duration of observations by single spray treatments with picloram at 4-6 oz/A. These resulted in an increase in cover of the native grass species associated with a decline or disappearance of some of the low-growing native dicotyledonous species present in some plots. 2-Methoxy-3,6-dichlorobenzoic acid (dicamba) applied at 6 to 24 oz/A and 2,4-D ethyl ester at 24 to 96 oz/A were incapable of complete supress- ion of regrowth from roots of treated thistles. Treatments with as little as 1 oz/A of picloram resulted in 907. reduction in stand of the thistles within a year in plots having foxtail barley and other grasses as com petitors able to fill in the cover. Ground sprayer applications of herbicide produced more uniform results than aerial spraying of narrow strips of this tie-infested land. From the agricultural standpoint complete eradication of the thistles would be the simplest procedure in this area where natural plant success ion is towards salt-tolerant grasses. From a wildlife management view point it is difficult to know, whether merely preventing flowering of thistles or removing them altogether would make any important difference insofar as strips of farmland shore line are concerned.
Author: National Library of Canada
Publisher:
ISBN:
Category : Dissertations, Academic
Languages : en
Pages : 340
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Book Description
Author:
Publisher: Government Printing Office
ISBN: 9780160729966
Category : Gardening
Languages : en
Pages : 310
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Book Description
NOTE: NO FURTHER DISCOUNT FOR THIS PRODUCT -- Significantly reduced price -- Overstock List Price Describes invasive, non-native plants moving into Alaska.
Author: James H. Miller
Publisher: DIANE Publishing
ISBN: 1437987451
Category : Science
Languages : en
Pages : 136
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Book Description
Invasions of non-native plants into forests of the Southern United States continue to go unchecked and only partially un-monitored. These infestations increasingly erode forest productivity, hindering forest use and management activities, and degrading diversity and wildlife habitat. Often called non-native, exotic, non-indigenous, alien, or noxious weeds, they occur as trees, shrubs, vines, grasses, ferns, and forbs. This guide provides information on accurate identification of the 56 non-native plants and groups that are currently invading the forests of the 13 Southern States. In additin, it lists other non-native plants of growing concern. Illustrations. This is a print on demand edition of an important, hard-to-find publication.
Author: Paul R. Adamus
Publisher:
ISBN:
Category : Biodiversity conservation
Languages : en
Pages : 224
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Book Description
Author: Håkan Rydin
Publisher: Svenska Vaxtgeografiska Sallskapet
ISBN: 9789172104846
Category : Botany
Languages : en
Pages : 238
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Book Description
"This book is intended to be an introductory text, not a comprehensive treatment of the Swedish vegetation. [The editors] hope that students, teachers, nature conservationists and ecologists will find it a useful introduction as well as a source book"--p. 4.
Author: Thomas C. Winter
Publisher: Geological Survey (USGS)
ISBN:
Category : Nature
Languages : en
Pages : 128
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Book Description
Author: M. H. Julien
Publisher: Oxford University Press, USA
ISBN:
Category : Gardening
Languages : en
Pages : 244
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Book Description
Each entry details the target weed, control agent, year of first release, country of origin of agent, status and degree of control, research organisation involved, and key references. The catalogue format has been modified slightly from earlier editions to improve ease of use. The book provides an invaluable means of keeping track of the world situation, and is a handy reference for professionals, research workers and students interested in the biological control of weeds.
Author: Orin Alva Stevens
Publisher:
ISBN:
Category : Thistles
Languages : en
Pages : 24
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Book Description
Author: Eric Hultén
Publisher: Stanford University Press
ISBN: 9780804706438
Category : Nature
Languages : en
Pages : 1050
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Book Description
This monumental work by the world's preeminent authority on Arctic floras--the first comprehensive, up-to-date botanic manual for this region--is the product of the author's more than forty years of study of circumpolar floras. The book describes and illustrates all flowering plants and vascular cryptograms known to occur in Alaska, the Yukon, the Mackenzie District, and the eastern extremity of Siberia. Some 1,974 taxa, belonging to 1,559 species, occur in this region; all are described. For 1,735 of these, the book provides detailed description, nomenclature, plant drawing, and range maps. In each case, one map gives distribution in the Alaskan region; a second, on circumpolar projection, gives worldwide range. This volume is the first major flora to assemble such comprehensive range data and to provide such maps. An analytic key to all species described is provided for each genus, and there is an artificial key to families. An Introduction describes the past and present climatic, geologic, and ecologic character of the regions covered, the history of botanical collection in these regions, and the book's treatment of botanical and taxonomic details; and lists the plants of neighboring regions likely to occur. Glossary, plant authors' list, bibliography, and indexes are provided. The superb drawings were prepared by Dagny Tande-Lid, and eight pages of illustration in color are included.
