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This paper elucidates nutrient dynamics in oak forests previouslyinvestigated for dry matter dynamics. The nutrient concentrationsin different life forms were of the order: herb > shrub >tree, whereas the standing state of nutrients were of the order:tree > shrub > herb. Soil, litter and vegetation, respectively,accounted for 32·498·0 %; 0·33·5%, and 10·266·6 % of the total nutrientsin the system. Considerable reductions (8·541·7%)in concentrations of nutrients in leaves occurred during senescence.The uptake of nutrients by vegetation, and also by differentcomponents with and without adjustment for internal recycling,has been calculated separately. Annual transfer of litter (above+ below ground) to the soil by vegetation was 115·9187N, 7·515·6 P, 122·7195·1Ca, 36·148·8 K and 2·885·16Na kg ha1 yr1. Turnover rate and turnover timefor different nutrients ranged between 0·660·84yr1 and 1·191·56 yr1, respectively.Compartment models for nutrient dynamics have been developedto represent the distribution of nutrient contents and net annualfluxes within the system. Quercus leucotrichophora forest, Q.floribunda forest, Q. lanuginosa forest, Nutrient concentration, standing state, uptake, internal cycling, turnover 相似文献
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Jatropha tanjorensis , an interspecific hybrid between Jatropha curcas and Jatropha gossypifolia , is reported to be a sterile hybrid, which has drastically limited its natural propagation. To determine the probability of existing sterility, floral biology was carried out in 30 trees of six accessions during 2007–2008. The results were explored in terms of morphological and anatomical details of floral abnormality. Although unisex flowers are a characteristic feature of the genus, unusual bisexual flowers with pseudostamens or staminodes were also present. Petalody of the stamen was frequently observed in most of the floral samples. Anther lobes were flat, cordate, fibrous, and some had one or more callus-like structures and contained a few sterile pollen grains. In polypistillody, pistils were irregular in shape and position or were fused with the staminodes. Frequently occurring forms of these floral abnormalities as well as unusual hermaphrodity were highly responsible for the sterility of J. tanjorensis . 相似文献
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The present study deals with structure and functioning of threeareas of Himalayan oak forest. Low- and mid-altitude oaks, namelyQuercus leucotrichophora, and Quercus floribunda, form predominantevergreen forests in Central and Western Himalaya. The totaltree basal cover ranged between 33·89 m2 ha1 (Q.floribunda site) to 36·83 m2 ha1 (Q. leucotrichophorasite). The density ranged between 570 and 760 individuals ha1.Allometric equations relating biomass of different tree componentsto GBH (girth at breast height) were significant with the exceptionof leaf biomass in Q. leucotrichophora and Rhododendron arboreum.Total vegetation biomass (29·40467·0 tha1) was distributed as 377·1 t ha1 intrees, 5·40 t ha1 in shrubs and 1·23 tha1 in herbs. Total forest floor biomass ranged between4·6 and 6·2 t ha1. Of the total annuallitter fall (4·74·8 t ha1), 77·5% was contributed by leaf litter, 17·8 % by wood litterand 4·7 % by miscellaneous litter. Turnover rate of treelitter varied from 0·66 to 0·70. Net primary productionof total vegetation ranged between 15·9 and 20·6t ha1 yr1, of which the contribution of trees,shrubs and herbs was 81·2 %, 8·6 % and 10·2%, respectively. A compartment model of dry matter on the basisof mean data across sites was developed to show dry matter storageand flow of dry matter within the system. Quercus leucotrichophora forest, Q. floribunda forest, Q. lanuginosa forest, biomass, litter fall, net primary production, compartmental transfer 相似文献
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Fine root production and mortality in central Himalayan evergreenforests consisting of Quercus leucotrichophora (banj oak) andPinus roxburghii (chir pine) were measured. Fine root productionand mortality decreased with increasing soil depth. Annual fineroot production was higher in the broadleafed forest than inthe coniferous forest, across months and seasons (1.3 and 1.5-timesmore living and dead root biomass, respectively in banj oakthan in chir pine). Live fine root production was 2508 kg ha-1year-1inchir pine forest and 3631 kg ha-1year-1in banj oak forest. Deadfine roots accumulated at a rate of 1197 and 1525 kg ha-1year-1inchir pine and in banj oak forest, respectively. In both forests,the greatest fine root production was recorded in the rainyseason followed by summer and winter seasons. Both soil androot nitrogen concentration decreased with increasing soil depth.Nitrogen uptake was higher in banj oak forest (12.1 kg ha-1year-1)than chir pine forest (7.2 kg ha-1year-1).Copyright 1999 Annalsof Botany Company Fine root production, fine roots, necromass, banj oak, chir pine, Quercus leucotrichophora , Pinus roxburghii . 相似文献
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