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Secondary Growth (secondary + growth)
Selected AbstractsHydrological impacts of forest conversion to agriculture in a large river basin in northeast ThailandHYDROLOGICAL PROCESSES, Issue 14 2001J. Wilk Abstract Small-scale experiments have demonstrated that forest clearance leads to an increase in water yield, but it is unclear if this result holds for larger river basins (>1000 km2). No widespread changes in rainfall totals and patterns were found in the 12 100 km2 Nam Pong catchment in northeast Thailand between 1957 and 1995, despite a reduction in the area classified as forest from 80% to 27% in the last three decades. Neither were any detectable changes found in any other water balance terms nor in the dynamics of the recession at the end of the rainy season. When a hydrological model calibrated against data from the period before the deforestation was applied for the last years of the study period (1987,1995), runoff generation was however underestimated by approximately 15%, indicating increased runoff generation after the deforestation. However, this was mainly due to the hydrological response during one single year in the first period, when the Q/P ratio was very low. When excluding this year, neither analysis based on the hydrological model could reveal any significant change of the water balance due to the deforestation. More detailed land-use analysis revealed that shade trees were left on agricultural plots as well as a number of abandoned areas where secondary growth can be expected, which is believed to account for the results. Copyright © 2001 John Wiley & Sons, Ltd. [source] Restoring tropical diversity: beating the time tax on species lossJOURNAL OF APPLIED ECOLOGY, Issue 3 2003Cristina Martínez-Garza Summary 1Fragmentation of tropical forest is accelerating at the same time that already cleared land reverts to secondary growth. Fragments inexorably lose deep-forest species to local extinction while embedded in low-diversity stands of early successional pioneer trees. 2Pasture matrices undergoing passive secondary succession become a ,pioneer desert' from the vantage of remnant immigration, imposing a ,time tax' of loss of deep-forest plants from forest fragments. However, if seeds of deep-forest trees find pastures, or seedlings are planted there, many will prosper. 3Bypassing early domination of pioneer trees in regenerating matrices, or enriching matrices with animal-dispersed forest trees, may stem the loss of species from forest fragments and accelerate succession far from the edges of old forest. 4Synthesis and applications. Planting disperser-limited trees that establish in open ground may bypass 30,70 years of species attrition in isolated remnants by attracting animals that encourage normal processes of seed dispersal into and out of the fragments. Development of criteria for selection of persistent, reasonably rapidly growing, animal-dispersed species that are mixed with planted or naturally arriving pioneers will be an important component of enrichment planting. [source] Mechanical role of the leaf sheath in rattansNEW PHYTOLOGIST, Issue 3 2008S. Isnard Summary ,,Leaf sheaths of rattans are long, tubular and persistent and unlike many self-supporting palms, extend far from the apex of the plant. The mechanical role of the leaf sheath was investigated in eight rattan species of the subfamily Calamoideae. The main objective was to analyse its influence on the mechanical architecture and contribution to the climbing habit. ,,Bending mechanical properties were measured along climbing axes before and after removal of leaf sheaths. Results were related to stem and leaf sheath geometry and mechanical properties. ,,Contribution of the leaf sheath to axial flexural rigidity was high (c. 90%) in the early stages of growth and towards the apex of older climbing axes for all climbing palms tested. Senescence and loss of the leaf sheath strongly influenced axial stiffness. A nonclimbing species, Calamus erectus, showed a different mechanical architecture. ,,Although lacking secondary growth, palms have been able to develop successful climbers with a mechanical architecture broadly analogous to, although developmentally different from, dicotyledonous lianas. The role of the leaf sheath in modulating mechanical properties during ontogeny ought not to be neglected in studies on monocotyledons, as it possibly contributed significantly to the ways in which different growth forms have evolved in the group. [source] Development, dilation and subdivision of cortical layers of gentian (Gentiana asclepiadea) rootNEW PHYTOLOGIST, Issue 1 2003ottníková Summary ,,The structure and development of the cortical layers, especially the endodermis and exodermis, and changes in the cortex caused by the secondary growth of vascular tissues are described in the adventitious roots of gentian (Gentiana asclepiadea). ,,Sections along the whole axis of the soil-grown roots were observed using light microscopy; fluorescence microscopy was used to determine developmental stages of the endodermis and exodermis. ,,Both endodermis and exodermis develop in three stages: Casparian band formation, suberin lamellae deposition and secondary thickening of walls. After the onset of cambial activity (20 mm from apex) cortical cells expand tangentially and subdivision of individual cells starts between 20 mm and 60 mm from apex. Highly differentiated endodermal cells are divided by 0,19 new anticlinal walls, exodermal cells by 0,3 and parenchymatous mid-cortex by 0,1. ,,The additional anticlinal cell walls of the endodermis and exodermis possess neither Casparian bands nor suberin lamellae. Suberin lamellae remain continuous on the surface of extended tangential walls of both layers. There is a correlation between increasing diameter of the secondary vascular tissues and the number of endodermal cells created by subdivision of the original cells. [source] ANAC012, a member of the plant-specific NAC transcription factor family, negatively regulates xylary fiber development in Arabidopsis thalianaTHE PLANT JOURNAL, Issue 6 2007Jae-Heung Ko Summary Vascular plants evolved to have xylem that provides physical support for their growing body and serves as a conduit for water and nutrient transport. In a previous study, we used comparative-transcriptome analyses to select a group of genes that were upregulated in xylem of Arabidopsis plants undergoing secondary growth. Subsequent analyses identified a plant-specific NAC-domain transcription factor gene (ANAC012) as a candidate for genetic regulation of xylem formation. Promoter-GUS analyses showed that ANAC012 expression was preferentially localized in the (pro)cambium region of inflorescence stem and root. Using yeast transactivation analyses, we confirmed the function of ANAC012 as a transcriptional activator, and identified an activation domain in the C terminus. Ectopic overexpression of ANAC012 in Arabidopsis (35S::ANAC012 plants) dramatically suppressed secondary wall deposition in the xylary fiber and slightly increased cell-wall thickness in the xylem vessels. Cellulose compositions of the cell wall were decreased in the inflorescent stems and roots of 35S::ANAC012 plants, probably resulting from defects in xylary fiber formation. Our data suggest that ANAC012 may act as a negative regulator of secondary wall thickening in xylary fibers. [source] Distribution Patterns of Migrant and Resident Birds in Successional Forests of the Yucatan Peninsula, Mexico,BIOTROPICA, Issue 1 2001Andrea L. Smith ABSTRACT Increasing human activity in the Yucatan peninsula has led to declines in older stages of successional forest, threatening regional habitat diversity. To determine potential effects of this habitat loss on the region's avifauna, we examined the relative use of different forest stages by resident and migrant birds during the nonbreeding season. We used the fixed-width transect method to compare the distribution, abundance, and diversity of forest birds in early (five to ten years old), mid (15,25 years), and late (<50 years) successional forests in the state of Campeche, Mexico, in the south-central part of the peninsula. All stages of successional forest had highly similar bird assemblages and did not differ in bird abundance or diversity. Both migrant and resident birds occurred across the successional gradient. The majority of habitat specialists, however, were resident birds restricted to late-successional forest, indicating that early secondary growth may not be suitable for all species. Furthermore, resident birds that typically participate in mixed-species flocks attained their greatest densities in the oldest forest habitat. Rapid recovery of pre-disturbance physiognomic features, in addition to high levels of habitat connectivity in the region, may contribute to similar bird communities across a range of successional stages. The high degree of edge characterizing much of the forest mosaic also may allow birds access to different serai stages. Loss of late-successional forest, however, is likely to adversely affect the subset of resident avifauna that depends on unique features of mature habitat such as snags, large trees, and climatic buffering. Conservation efforts in Campeche should focus on the specialized requirements of the most habitat-restricted species while preserving the current landscape mosaic characteristic of the small-scale shifting cultivation system. RESUMES El aumento de la actividad humana en el uso del suelo en la Peninsula de Yucatán, ha resultado en la disminución de la regeneración de la selva a etapas más maduras de sucesión, amenazando la diversidad regional de habitats. Para determinar los efectos de esta pérdida sobre la avifauna de la región, estudiamos el uso de diferentes etapas de sucesión de la selva por aves residentes y migratorias durante la temporada no reproductiva. Usamos el método de transecto linear de anchura fija para comparar la distributión, abundancia y diversidad de aves en vegetaclón sucesional (acahuales) de diferentes edades, incluyendo acahual joven (cinco a diez años de edad), acahual de edad media (15-25 afios) y selva (>50 afios) en el sur del estado de Campeche, Mexico. Diferentes etapas de sucesión de la selva tuvieron composition de aves muy similares y no variaron en la abundancia y la diversidad. Tanto las especies migrantes como residentes, estuvieron presentes a travél del gradiente sucesional. Sin embargo, la mayoría de los especialistas fueron aves residentes restingidas a etapas más viejas de sucesión de selva, indicando que la vegetatión sucesional temprana no es favorable para todas las especies. En adicion, las aves residentes que tipicamente participan en bandadas mixtas tuvieron sus densidades más altas en la selva de mayor edad de sucesión. La rápida recuperatión de la selva a sus caracteristicas de estado primario, en adición al alto grado de conectividad de habitat en la región, puede permitir a muchas especies nativas encontrarse en diferentes etapas de vegetatión sucesional. El alto grado de efecto de borde que caracteriza la mayor pane del mosaico de bosque tambíen puede permitir a las aves el acceso a los diferentes tipos de vegetación sucesional. Sin embargo, la pérdida de selva en etapa más madura de sucesión, probablemente rendrá un efecto más adverso sobre el grupo de aves residentes que depende de características únicas de selva madura, tales como árboles secos, árboles grandes y amortiguamiento climático. Los esfuerzos de conservatión deberían enfocarse sobre las especies sensibles con requerimientos especializados de hábitat, preservando selva nativa a la vez que las características actuates de mosaico del paisaje, manteniendo las actividades de roza-tumba y quema a pequena escala. [source] Radial secondary growth and formation of successive cambia and their products in Ipomoea hederifolia L. (Convolvulaceae)BOTANICAL JOURNAL OF THE LINNEAN SOCIETY, Issue 1 2008KISHORE S. RAJPUT Ipomoea hederifolia stems increase in thickness using a combination of different types of cambial variant, such as the discontinuous concentric rings of cambia, the development of included phloem, the reverse orientation of discontinuous cambial segments, the internal phloem, the formation of secondary xylem and phloem from the internal cambium, and differentiation of cork in the pith. After primary growth, the first ring of cambium arises between the external primary phloem and primary xylem, producing secondary phloem centrifugally and secondary xylem centripetally. The stem becomes lobed, flat, undulating, or irregular in shape as a result of the formation of both discontinuous and continuous concentric rings of cambia. As the formation of secondary xylem is greater in one region than in another, this results in the formation of a grooved stem. Successive cambia formed after the first ring are of two distinct functional types: (1) functionally normal successive cambia that divide to form secondary xylem centripetally and secondary phloem centrifugally, like other dicotyledons that show successive rings, and (2) abnormal cambia with reverse orientation. The former type of successive rings originates from the parenchyma cells located outside the phloem produced by previous cambium. The latter type of cambium develops from the conjunctive tissue located at the base of the secondary xylem formed by functionally normal cambia. This cambium is functionally inverted, producing secondary xylem centrifugally and secondary phloem centripetally. In later secondary growth, xylem parenchyma situated deep inside the secondary xylem undergoes de-differentiation, and re-differentiates into included phloem islands in secondary xylem. © 2008 The Linnean Society of London, Botanical Journal of the Linnean Society, 2008, 158, 30,40. [source] | ||||||||||