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Plant Nutrition [electronic resource] : Food security and sustainability of agro-ecosystems through basic and applied research /
The world’s population is expected to reach 8 billion by 2025 and most of this growth in population will occur in developing countries. To feed the world with such a marked increase in population, a great improvement in food production must be achieved particularly in these countries. To meet this challenge, present agricultural productivity must be increased on the cultivated land. However, in many developing countries, particularly in Africa, reduced soil fertility caused by continuous cropping with low nutrient input and the resultant nutrient mining of soils is a major threat both to food production and to ecosystem viability. As a result of declining soil fertility, together with increasing population pressure, expansion of crop production to marginal lands and forested areas contribute to the destruction of natural ecosystems. Food production is not only a quantitative challenge. Improving the nutrient status of plants provides a further valuable means of enhancing food quality and is of extreme benefit to the health of both plants and humans. There are several excellent examples showing that plants with optimum nutrient status are better adapted to biotic and abiotic stress factors. Because of population pressures, many global food systems are not currently providing enough micronutrients to ensure adequate micronutrient intakes in the human diet. This has resulted in an increasing prevalence of micronutrient deficiencies that now afflicts over three billion people worldwide.
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| Main Authors: | , , , , , , , , , , , , , , |
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| Format: | Texto biblioteca |
| Language: | eng |
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Dordrecht : Springer Netherlands,
2001
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| Subjects: | Life sciences., Agriculture., Plant physiology., Soil science., Soil conservation., Life Sciences., Plant Physiology., Soil Science & Conservation., |
| Online Access: | http://dx.doi.org/10.1007/0-306-47624-X |
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biblioteca |
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| topic |
Life sciences. Agriculture. Plant physiology. Soil science. Soil conservation. Life Sciences. Plant Physiology. Agriculture. Soil Science & Conservation. Life sciences. Agriculture. Plant physiology. Soil science. Soil conservation. Life Sciences. Plant Physiology. Agriculture. Soil Science & Conservation. |
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Life sciences. Agriculture. Plant physiology. Soil science. Soil conservation. Life Sciences. Plant Physiology. Agriculture. Soil Science & Conservation. Life sciences. Agriculture. Plant physiology. Soil science. Soil conservation. Life Sciences. Plant Physiology. Agriculture. Soil Science & Conservation. Horst, W. J. editor. Schenk, M. K. editor. Bürkert, A. editor. Claassen, N. editor. Flessa, H. editor. Frommer, W. B. editor. Goldbach, H. editor. Olfs, H. -W. editor. Römheld, V. editor. Sattelmacher, B. editor. Schmidhalter, U. editor. Schubert, S. editor. Wirén, N. v. editor. Wittenmayer, L. editor. SpringerLink (Online service) Plant Nutrition [electronic resource] : Food security and sustainability of agro-ecosystems through basic and applied research / |
| description |
The world’s population is expected to reach 8 billion by 2025 and most of this growth in population will occur in developing countries. To feed the world with such a marked increase in population, a great improvement in food production must be achieved particularly in these countries. To meet this challenge, present agricultural productivity must be increased on the cultivated land. However, in many developing countries, particularly in Africa, reduced soil fertility caused by continuous cropping with low nutrient input and the resultant nutrient mining of soils is a major threat both to food production and to ecosystem viability. As a result of declining soil fertility, together with increasing population pressure, expansion of crop production to marginal lands and forested areas contribute to the destruction of natural ecosystems. Food production is not only a quantitative challenge. Improving the nutrient status of plants provides a further valuable means of enhancing food quality and is of extreme benefit to the health of both plants and humans. There are several excellent examples showing that plants with optimum nutrient status are better adapted to biotic and abiotic stress factors. Because of population pressures, many global food systems are not currently providing enough micronutrients to ensure adequate micronutrient intakes in the human diet. This has resulted in an increasing prevalence of micronutrient deficiencies that now afflicts over three billion people worldwide. |
| format |
Texto |
| topic_facet |
Life sciences. Agriculture. Plant physiology. Soil science. Soil conservation. Life Sciences. Plant Physiology. Agriculture. Soil Science & Conservation. |
| author |
Horst, W. J. editor. Schenk, M. K. editor. Bürkert, A. editor. Claassen, N. editor. Flessa, H. editor. Frommer, W. B. editor. Goldbach, H. editor. Olfs, H. -W. editor. Römheld, V. editor. Sattelmacher, B. editor. Schmidhalter, U. editor. Schubert, S. editor. Wirén, N. v. editor. Wittenmayer, L. editor. SpringerLink (Online service) |
| author_facet |
Horst, W. J. editor. Schenk, M. K. editor. Bürkert, A. editor. Claassen, N. editor. Flessa, H. editor. Frommer, W. B. editor. Goldbach, H. editor. Olfs, H. -W. editor. Römheld, V. editor. Sattelmacher, B. editor. Schmidhalter, U. editor. Schubert, S. editor. Wirén, N. v. editor. Wittenmayer, L. editor. SpringerLink (Online service) |
| author_sort |
Horst, W. J. editor. |
| title |
Plant Nutrition [electronic resource] : Food security and sustainability of agro-ecosystems through basic and applied research / |
| title_short |
Plant Nutrition [electronic resource] : Food security and sustainability of agro-ecosystems through basic and applied research / |
| title_full |
Plant Nutrition [electronic resource] : Food security and sustainability of agro-ecosystems through basic and applied research / |
| title_fullStr |
Plant Nutrition [electronic resource] : Food security and sustainability of agro-ecosystems through basic and applied research / |
| title_full_unstemmed |
Plant Nutrition [electronic resource] : Food security and sustainability of agro-ecosystems through basic and applied research / |
| title_sort |
plant nutrition [electronic resource] : food security and sustainability of agro-ecosystems through basic and applied research / |
| publisher |
Dordrecht : Springer Netherlands, |
| publishDate |
2001 |
| url |
http://dx.doi.org/10.1007/0-306-47624-X |
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KOHA-OAI-TEST:2239872018-07-31T00:03:16ZPlant Nutrition [electronic resource] : Food security and sustainability of agro-ecosystems through basic and applied research / Horst, W. J. editor. Schenk, M. K. editor. Bürkert, A. editor. Claassen, N. editor. Flessa, H. editor. Frommer, W. B. editor. Goldbach, H. editor. Olfs, H. -W. editor. Römheld, V. editor. Sattelmacher, B. editor. Schmidhalter, U. editor. Schubert, S. editor. Wirén, N. v. editor. Wittenmayer, L. editor. SpringerLink (Online service) textDordrecht : Springer Netherlands,2001.engThe world’s population is expected to reach 8 billion by 2025 and most of this growth in population will occur in developing countries. To feed the world with such a marked increase in population, a great improvement in food production must be achieved particularly in these countries. To meet this challenge, present agricultural productivity must be increased on the cultivated land. However, in many developing countries, particularly in Africa, reduced soil fertility caused by continuous cropping with low nutrient input and the resultant nutrient mining of soils is a major threat both to food production and to ecosystem viability. As a result of declining soil fertility, together with increasing population pressure, expansion of crop production to marginal lands and forested areas contribute to the destruction of natural ecosystems. Food production is not only a quantitative challenge. Improving the nutrient status of plants provides a further valuable means of enhancing food quality and is of extreme benefit to the health of both plants and humans. There are several excellent examples showing that plants with optimum nutrient status are better adapted to biotic and abiotic stress factors. Because of population pressures, many global food systems are not currently providing enough micronutrients to ensure adequate micronutrient intakes in the human diet. This has resulted in an increasing prevalence of micronutrient deficiencies that now afflicts over three billion people worldwide.Plenary papers -- Genetics and molecular biology of plant nutrition -- Nutrient functions -- Nutrient uptake and translocation: Ion channels and ion pumps -- The role of the apoplast in plant mineral nutrition -- Mineral Nutrition: Plant quality and plant health -- Salinity and plant-soil-water relations -- Mineral element toxicity and resistance -- Nutrient acquisition: Mechanisms and modelling -- Soil organisms / plant interactions -- Fertiliser use with regard to optimum yield and environment -- Nutrient dynamics in natural and agricultural ecosystems — processes and modelling -- Plant nutrition and sustainable development.The world’s population is expected to reach 8 billion by 2025 and most of this growth in population will occur in developing countries. To feed the world with such a marked increase in population, a great improvement in food production must be achieved particularly in these countries. To meet this challenge, present agricultural productivity must be increased on the cultivated land. However, in many developing countries, particularly in Africa, reduced soil fertility caused by continuous cropping with low nutrient input and the resultant nutrient mining of soils is a major threat both to food production and to ecosystem viability. As a result of declining soil fertility, together with increasing population pressure, expansion of crop production to marginal lands and forested areas contribute to the destruction of natural ecosystems. Food production is not only a quantitative challenge. Improving the nutrient status of plants provides a further valuable means of enhancing food quality and is of extreme benefit to the health of both plants and humans. There are several excellent examples showing that plants with optimum nutrient status are better adapted to biotic and abiotic stress factors. Because of population pressures, many global food systems are not currently providing enough micronutrients to ensure adequate micronutrient intakes in the human diet. This has resulted in an increasing prevalence of micronutrient deficiencies that now afflicts over three billion people worldwide.Life sciences.Agriculture.Plant physiology.Soil science.Soil conservation.Life Sciences.Plant Physiology.Agriculture.Soil Science & Conservation.Springer eBookshttp://dx.doi.org/10.1007/0-306-47624-XURN:ISBN:9780306476242 |