126 resultados para Anacardiaceae
Resumo:
Palynological data of the marine core M 16415-2 show latitudinal shifts of the northern fringe of the tropical rain forest in north-west Africa during the last 700 ka. Savanna and dry open forest expanded southwards and tropical rain forest expanded northwards during dry and humid periods, respectively. Until 220 ka B.P., the tropical rain forest probably kept its zonal character in West Africa during glacials and interglacials. It is only during the last two glacial periods that the rain forest possibly fragmented into refugia. Throughout the Brunhes chron, pollen and spore transport was mainly by trade winds.
Resumo:
The present survey of species diversity of cultivated plants is the first for Syria. Some cultivated species will be added in the future, because due to the civil war in Syria, it was not possible to visit the country in the frame of the present work, as initially planned. Checklists proved to be a useful tool for overviewing the cultivated plants of selected areas and allow a characterization of the state of plant genetic resources of Syria. Syria has experienced several civilizations. Man settled in this productive land since ancient times and used its resources. However, such use has led to changes in vegetation and decline of wildlife through the country, in seashore areas, interior, mountains, and grassland. Plant domestication and growing started more than 10,000 years ago in West Asia. Since then, plentiful of economic plant species were present and used by man and his domesticated animals. Forming a part of the Fertile Crescent, where many of the world’s agricultural plants have evolved, Syria is extremely rich in agrobiodiversity. Wild progenitors of wheat and barley and wild relatives of many fruit trees such as almonds and pistachio as well as forage species are still found in marginal lands and less disturbed areas. These are threatened by a wide range of human activities, notably modern, extensive agriculture, overgrazing, overcutting and urban expansion. Syria is also considered as part of one of the main centres of origin, according to Vavilov, who had collected in Syria in 1926. The first expeditions to crop fields showed the exclusive nature of cultivated plants in Syria with a high number of endemic forms. Furthermore, Syria is a part of a biodiversity hotspot. Several studies have been performed to study agrobiodiversity in different parts of Syria, but usually on wild species. Many collections have been carried out; however, they focussed preferably on cereals and pulses, and particularly on wheat, like Vavilov’s expedition. Only 30 crops make up the major part of the conserved Syrian crop plant material in the genebank, indicating that most of the remaining 7,000 species of cultivated plants and many other valuable genetic resources species have only been included on a limited scale in the genebank collections. Although a small country (185,180 km2), Syria accommodates numerous ecosystems that allow for a large diversity of plant genetic resources for agriculture ranging from cold-requiring to subtropical crops to live and thrive. Only few references are available in this respect. The aim of the present study was to complete a checklist of Syria’s cultivated plants of agriculture and horticulture excluding plants only grown as ornamental or for forestry. Furthermore, plants taken for reforestation have not been included, if they do not have also agricultural or horticultural uses. Therefore, the inclusion of plants into the checklist follows the same principles as “Mansfeld’s Encyclopedia”. Main sources of information were published literature, floras of Syria, Lebanon and the Mediterranean, as well as Syrian printed sources in Arabic and/or English, reports from FAO on agricultural statistics in Syria, and data from ICARDA and Bioversity International. In addition, personal observations gathered during professional work in the General Commission for Scientific Agricultural Research (GCSAR) in Syria (since 1989) and participation in projects were taken into account. These were: (1) A project on “Conservation and Sustainable Use of Dry Land Agrobiodiversity in the Near East” with participation of Jordan, Lebanon, Syria, and the Palestinian Authority, focussing on landraces and wild relatives of barley, wheat, lentil, alliums, feed legumes, and fruit trees (1999–2005). (2) A project for vegetable landraces (1993–1995) in collaboration with the former International Plant Genetic Resources Institute and the UN Development Programme, in which 380 local vegetable accessions were evaluated. For medicinal plants and fruit trees I was in personal contact with departments of GCSAR and the Ministry of Agriculture and Agrarian Reform, as well as with private organizations. The resulting checklist was compared with the catalogues of crop plants of Italy and a checklist of cultivated plants of Iraq. The cultivated plant species are presented in alphabetical order according to their accepted scientific names. Each entry consists of a nomenclatural part, folk names, details of plant uses, the distribution in Syria (by provinces), a textual description, and references to literature. In total, 262 species belonging to 146 genera and 57 families were identified. Within-species (intraspecific) diversity is a significant measure of the biodiversity. Intraspecific diversity for wild plants has been and remains to be well studied, but for crop plants there are only few results. Mansfeld’s method is an actual logical contribution to such studies. Among the families, the following have the highest number of crop species: Leguminosae (34 spp.), Rosaceae (24), Gramineae (18), Labiatae (18), Compositae (14), Cruciferae (14), Cucurbitaceae (11), Rutaceae (10), Malvaceae (9), Alliaceae (7), and Anacardiaceae (7). The establishment of an effective programme for the maintenance of plant genetic resources in Syria started in the mid-1970s. This programme considered ex situ and in situ collection of the genetic resources of various field crops, fruit trees and vegetables. From a plant genetic resources viewpoint, it is clear that the homegarden is an important location for the cultivation of so-called neglected and underutilized species (neglected from a research side and underutilized from a larger economic side). Such species have so far not received much care from ecologists, botanists and agronomists, and they are considerably under-represented in genebanks.
Resumo:
A cajazeira (Spondias mombin L.) pertence à família Anacardiaceae e ao gênero Spondias (Airy Shaw & Forman, 1967). É uma árvore frutífera tropical lenhosa, caducifólia, de tronco longo e ereto, revestido por casca grossa e rugosa, que esgalha e ramifica na parte terminal, o que confere um porte alto à planta (SOUZA e BLEICHER, 2002). Os frutos cuja exploração é extrativista são perfumados, de sabor agridoce, contêm carotenóides, açúcares, vitaminas A e C. Daí, são muito procurados pelas agroindústrias, para o processamento de polpas, sucos, geléias, néctares e sorvetes de excelente qualidade e alto valor comercial. Para o cultivo comercial da cajazeira, os fatores mais limitantes são o alto porte e a longa fase juvenil das plantas de sementes, as variações em formato de copa, produtividade, tamanho, sabor dos frutos e as características físicas, físico-químicas e químicas dos frutos (SOARES et al. 2006). Assim, o cultivo de plantas clonadas poderá ser uma alternativa para superação desses problemas. Plantas de cajazeira enxertadas, cultivadas no sul da Bahia começaram a produzir no terceiro ano de cultivo, mas tinham alto porte, com altura média de 4,46 m (LEITE; MARTINS; RAMOS, 2003). Em Pacajus-CE, os clones cultivados também tiveram alto porte, troncos monopodiais (haste única) e tendência a formar copas altas, e algumas plantas produziram apenas no primeiro ano de cultivo (SOUZA e BLEICHER, 2002). De acordo com Hartmann et al. (2002), clones enxertados sofrem fortes influências das combinações entre os porta-enxertos e os clones copa, das técnicas de cultivo, das condições edafoclimáticas, ecológicas e das interações entre esses fatores, que afetam diretamente o comportamento fenotípico e produtivo dos clones. O tempo de transição entre XX Congresso Brasileiro de Fruticultura 54th Annual Meeting of the Interamerican Society for Tropical Horticulture 12 a 17 de Outubro de 2008 - Centro de Convenções ? Vitória/ES o crescimento vegetativo e o reprodutivo é de suma importância para a agricultura e o melhoramento de plantas, porque a floração é o primeiro passo da reprodução sexual. Os fatores ambientais (fotoperíodo, temperatura, disponibilidade de água e radiação solar) controlam a transição para a floração. O fato de tais fatores promotores da floração serem percebidos por diferentes partes da planta implica que essas partes interagem e que o destino do meristema apical ? permanecer vegetativo ou se tornar reprodutivo ? é controlado por um arranjo de sinais de longa distância em toda a planta (BERNIER et al., 1993). Neste trabalho, avaliaram-se dez combinações de cinco clones copa e dois porta-enxertos quanto à percentagem de plantas produtivas (PProd) em diferentes idades.
Comportamento vegetativo de clones de cajazeira com sete anos de cultivo na Chapada do Apodi, Ceará.
Resumo:
A cajazeira (Spondias mombin L.) pertence à família Anacardiaceae. É uma espécie selvagem, sendo a exploração de seus frutos extrativista. Pelas descrições de Harlan (1975), a espécie é classificada como encorajada, ou seja, é disseminada, colhida e selecionada sem nenhum plantio de sementes. Mesmo assim, tem considerável importância socioeconômica para as regiões Norte e Nordeste do Brasil. Para o seu cultivo comercial, os fatores mais limitantes são o alto porte e a longa fase juvenil das plantas obtidas de sementes (VILLACHICA, 1996) e a falta de clones recomendados para cultivo (Souza et al, 2006). Os clones enxertados são influenciados por porta-enxertos, clones copa, técnicas de cultivo, condições edafoclimáticas, ecológicas e pelas interações entre esses fatores, que afetam diretamente o comportamento fenotípico e produtivo do clone (HARTMANN et al, 2002). Clones de cajazeira enxertados sobre cajazeira, cultivados no sul da Bahia, apresentaram no terceiro ano de cultivo, alto porte, com altura média de 4,46 m (LEITE; MARTINS; RAMOS, 2003). Em Pacajus-CE, clones de cajazeira enxertados sobre umbuzeiro também tiveram porte alto, troncos monopodias, com haste única e tendência a formar copas altas (SOUZA e BLEICHER, 2002). Para caracterizar o crescimento vegetativo, avaliaram-se a altura de planta e perímetros dos caules do porta-enxerto e do enxerto dos clones de cajazeira enxertados sobre porta- enxertos de pé franco de umbuzeiro e da própria cajazeira.
Resumo:
Poincianella pyramidalis (Fabaceae), Schinopsis brasiliensis (Anacardiaceae) and Sideroxylon obtusifolium (Sapotaceae) are native species of the Caatinga vegetation from Northeastern Brazil and have both biological importance and potential economic uses. Little is known about the water uptake and degradation of storage proteins during seed germination of these species. The aim of this study was to evaluate the imbibition and quantify the amount of storage proteins during seed germination of P. pyramidalis, S. brasiliensis and S. obtusifolium. Two lots of S. obtusifolium seeds with different vigour were used. Four replicates of 20 seeds of P. pyramidalis, S. brasiliensis and S. obtusifolium, were sown onto gerboxes with blotting paper soaked in distilled water and incubated during 72, 200 and 624 hours. Before and after imbibition seeds were weighed and frozen at until the sequential extraction and analysis of the seed storage proteins. Based on our results, we conclude that seed germination of P. pyramidalis, S. brasiliensis and S. obtusifolium has a well-defined triphasic imbibition. All storage proteins content of P. pyramidalis and S. brasiliensis seeds degraded along with the seed imbibition. Likewise, the content of albumins, globulins and glutelins decreased as S. obtusifolium seeds absorbed water
Resumo:
O presente trabalho teve como objetivo avaliar o desenvolvimento vegetativo das plantas do Banco Ativo de Germoplasma do Taperebazeiro da Embrapa Amazônia Oriental, onde se encontram 29 acessos de Spondias mombim procedentes de diversas localidades do Estado do Pará. Foram analisados, no período de cinco anos (2011 a 2015), o crescimento das plantas em altura (m), desenvolvimento do diâmetro do enxerto (cm) e o desenvolvimento do diâmetro do porta-enxerto (cm). Utilizou-se o delineamento inteiramente ao acaso, com 29 tratamentos e cinco repetições. As médias dos acessos foram comparadas pelo método de Scott-Knott. O acesso 14 foi o que apresentou maior desenvolvimento em altura (4,51m), porém sem diferir de outros 13 acessos. Também obteve melhor desempenho quanto ao crescimento transversal (diâmetros do enxerto e porta-enxerto), sem diferir, entretanto, de outros nove acessos. No geral, a relação do desenvolvimento vegetativo dos enxertos com os porta-enxertos foi alta (0,8), indicando boa compatibilidade, apesar de haver diferenças entre os acessos captadas pela análise.