In Vitro Haploid Production in Higher Plants [electronic resource] : Volume 3 — Important Selected Plants /

In Vitro Haploid Production in Higher Plants [electronic resource] : Volume 3 — Important Selected Plants /

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Since the beginning of agricultural production, there has been a continuous effort to grow more and better quality food to feed ever increasing popula­ tions. Both improved cultural practices and improved crop plants have alIowed us to divert more human resources to non-agricultural activities while still increasing agricultural production. Malthusian population predictions continue to alarm agricultural researchers, especially plant breeders, to seek new technologies that will continue to allow us to produce more and better food by fewer people on less land. Both improvement of existing cultivars and development of new high-yielding cultivars are common goals for breeders of alI crops. In vitro haploid production is among the new technologies that show great promise toward the goal of increasing crop yields by making similar germplasm available for many crops that was used to implement one of the greatest plant breeding success stories of this century, i. e. , the development of hybrid maize by crosses of inbred lines. One of the main applications of anther culture has been to produce diploid homozygous pure lines in a single generation, thus saving many generations of backcrossing to reach homozygosity by traditional means or in crops where self-pollination is not possible. Because doubled haploids are equivalent to inbred lines, their value has been appreciated by plant breeders for decades. The search for natural haploids and methods to induce them has been ongoing since the beginning of the 20th century.

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Main Authors: Jain, S. Mohan. editor., Sopory, S. K. editor., Veilleux, R. E. editor., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Dordrecht : Springer Netherlands : Imprint: Springer, 1996
Subjects:Life sciences., Ecology., Plant science., Botany., Plant physiology., Life Sciences., Plant Sciences., Plant Physiology.,
Online Access:http://dx.doi.org/10.1007/978-94-017-1858-5
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spelling KOHA-OAI-TEST:2156872018-07-30T23:50:36ZIn Vitro Haploid Production in Higher Plants [electronic resource] : Volume 3 — Important Selected Plants / Jain, S. Mohan. editor. Sopory, S. K. editor. Veilleux, R. E. editor. SpringerLink (Online service) textDordrecht : Springer Netherlands : Imprint: Springer,1996.engSince the beginning of agricultural production, there has been a continuous effort to grow more and better quality food to feed ever increasing popula­ tions. Both improved cultural practices and improved crop plants have alIowed us to divert more human resources to non-agricultural activities while still increasing agricultural production. Malthusian population predictions continue to alarm agricultural researchers, especially plant breeders, to seek new technologies that will continue to allow us to produce more and better food by fewer people on less land. Both improvement of existing cultivars and development of new high-yielding cultivars are common goals for breeders of alI crops. In vitro haploid production is among the new technologies that show great promise toward the goal of increasing crop yields by making similar germplasm available for many crops that was used to implement one of the greatest plant breeding success stories of this century, i. e. , the development of hybrid maize by crosses of inbred lines. One of the main applications of anther culture has been to produce diploid homozygous pure lines in a single generation, thus saving many generations of backcrossing to reach homozygosity by traditional means or in crops where self-pollination is not possible. Because doubled haploids are equivalent to inbred lines, their value has been appreciated by plant breeders for decades. The search for natural haploids and methods to induce them has been ongoing since the beginning of the 20th century.Since the beginning of agricultural production, there has been a continuous effort to grow more and better quality food to feed ever increasing popula­ tions. Both improved cultural practices and improved crop plants have alIowed us to divert more human resources to non-agricultural activities while still increasing agricultural production. Malthusian population predictions continue to alarm agricultural researchers, especially plant breeders, to seek new technologies that will continue to allow us to produce more and better food by fewer people on less land. Both improvement of existing cultivars and development of new high-yielding cultivars are common goals for breeders of alI crops. In vitro haploid production is among the new technologies that show great promise toward the goal of increasing crop yields by making similar germplasm available for many crops that was used to implement one of the greatest plant breeding success stories of this century, i. e. , the development of hybrid maize by crosses of inbred lines. One of the main applications of anther culture has been to produce diploid homozygous pure lines in a single generation, thus saving many generations of backcrossing to reach homozygosity by traditional means or in crops where self-pollination is not possible. Because doubled haploids are equivalent to inbred lines, their value has been appreciated by plant breeders for decades. The search for natural haploids and methods to induce them has been ongoing since the beginning of the 20th century.Life sciences.Ecology.Plant science.Botany.Plant physiology.Life Sciences.Plant Sciences.Plant Physiology.Ecology.Springer eBookshttp://dx.doi.org/10.1007/978-94-017-1858-5URN:ISBN:9789401718585
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Life sciences.
Ecology.
Plant science.
Botany.
Plant physiology.
Life Sciences.
Plant Sciences.
Plant Physiology.
Ecology.
Life sciences.
Ecology.
Plant science.
Botany.
Plant physiology.
Life Sciences.
Plant Sciences.
Plant Physiology.
Ecology.
spellingShingle Life sciences.
Ecology.
Plant science.
Botany.
Plant physiology.
Life Sciences.
Plant Sciences.
Plant Physiology.
Ecology.
Life sciences.
Ecology.
Plant science.
Botany.
Plant physiology.
Life Sciences.
Plant Sciences.
Plant Physiology.
Ecology.
Jain, S. Mohan. editor.
Sopory, S. K. editor.
Veilleux, R. E. editor.
SpringerLink (Online service)
In Vitro Haploid Production in Higher Plants [electronic resource] : Volume 3 — Important Selected Plants /
description Since the beginning of agricultural production, there has been a continuous effort to grow more and better quality food to feed ever increasing popula­ tions. Both improved cultural practices and improved crop plants have alIowed us to divert more human resources to non-agricultural activities while still increasing agricultural production. Malthusian population predictions continue to alarm agricultural researchers, especially plant breeders, to seek new technologies that will continue to allow us to produce more and better food by fewer people on less land. Both improvement of existing cultivars and development of new high-yielding cultivars are common goals for breeders of alI crops. In vitro haploid production is among the new technologies that show great promise toward the goal of increasing crop yields by making similar germplasm available for many crops that was used to implement one of the greatest plant breeding success stories of this century, i. e. , the development of hybrid maize by crosses of inbred lines. One of the main applications of anther culture has been to produce diploid homozygous pure lines in a single generation, thus saving many generations of backcrossing to reach homozygosity by traditional means or in crops where self-pollination is not possible. Because doubled haploids are equivalent to inbred lines, their value has been appreciated by plant breeders for decades. The search for natural haploids and methods to induce them has been ongoing since the beginning of the 20th century.
format Texto
topic_facet Life sciences.
Ecology.
Plant science.
Botany.
Plant physiology.
Life Sciences.
Plant Sciences.
Plant Physiology.
Ecology.
author Jain, S. Mohan. editor.
Sopory, S. K. editor.
Veilleux, R. E. editor.
SpringerLink (Online service)
author_facet Jain, S. Mohan. editor.
Sopory, S. K. editor.
Veilleux, R. E. editor.
SpringerLink (Online service)
author_sort Jain, S. Mohan. editor.
title In Vitro Haploid Production in Higher Plants [electronic resource] : Volume 3 — Important Selected Plants /
title_short In Vitro Haploid Production in Higher Plants [electronic resource] : Volume 3 — Important Selected Plants /
title_full In Vitro Haploid Production in Higher Plants [electronic resource] : Volume 3 — Important Selected Plants /
title_fullStr In Vitro Haploid Production in Higher Plants [electronic resource] : Volume 3 — Important Selected Plants /
title_full_unstemmed In Vitro Haploid Production in Higher Plants [electronic resource] : Volume 3 — Important Selected Plants /
title_sort in vitro haploid production in higher plants [electronic resource] : volume 3 — important selected plants /
publisher Dordrecht : Springer Netherlands : Imprint: Springer,
publishDate 1996
url http://dx.doi.org/10.1007/978-94-017-1858-5
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AT soporyskeditor invitrohaploidproductioninhigherplantselectronicresourcevolume3importantselectedplants
AT veilleuxreeditor invitrohaploidproductioninhigherplantselectronicresourcevolume3importantselectedplants
AT springerlinkonlineservice invitrohaploidproductioninhigherplantselectronicresourcevolume3importantselectedplants
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