138 resultados para defoliation
Resumo:
A wide range of biotic and abiotic factors, operating over different time perspectives and intensities, cause defoliation and a rapid decrease in the crown size of trees. Scleroderris canker disease [Gremmeniella abietina (Lagerb.) Morelet] has caused widespread crown reduction and tree mortality in Scots pine (Pinus sylvestris L) in forests in Scandinavia during the last three decades. In the 1980's, attempts were made to show, on the basis of the higher foliar N and S concentrations of affected pines in the diseased area, that sulphur and nitrogen deposition predispose trees to G. abietina. Unfortunately, in many studies on defoliated trees, exceptionally high or low needle mineral nutrient concentrations are still often interpreted as one of the causes of tree injury and not, conversely, as the result. In this thesis, three different field experiments, with foliar analysis as the main study method, were conducted in order to asses the possible long-term effects of living crown reduction on the needle nutrient concentrations of Scots pine trees in southern Finland. The crown ratio and length of the living crown were used to estimate the amount of defoliation in the reduced canopies. The material for the partial studies was collected and a total of 968 foliar samples were analysed individually (15-17 elements/sample) on a total of 488 sample trees (140 diseased, 116 pruned and 232 control trees) during the years 1987-1996 in 13 Scots pine stands. All the three experiments of this thesis provided significant evidence that severe, disease-induced defoliation or artificial pruning of the living branches can induce long-lasting nutritional changes in the foliage of the recovering trees under the typical growing conditions for Scots pine. The foliar concentrations of all the 17 mineral nutrients/elements analysed were affected, to a varying degree, by artificial pruning during the following three years. Although Scots pine, as an evergreen conifer, is considered to have low induced chemical responses to defoliation, this study proved experimentally under natural forest conditions that severe artificial pruning or disease-induced defoliation of Scots pine trees may induce biologically significant changes in the concentrations of most of the important macro- and micronutrients, as well as of carbon, in refoliated needles. Concerning the studies in this thesis, I find the results significant in providing new information about the long-term effects of rapid living crown reduction on the foliar nutrient and element status of Scots pine trees. Key words: Foliar analysis, defoliation, needle loss, pruning, nutrients, Pinus sylvestris, Gremmeniella abietina
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A leaf-feeding geometrid, Chiasmia assimilis (Warren), was introduced into northern Queensland from South Africa in 2002 as a biological control agent for the invasive woody weed, prickly acacia, Acacia nilotica subsp. indica (Bentham) Brenan. The insect established in infestations in coastal areas between the townships of Ayr and Bowen where the larvae periodically cause extensive defoliation at some localities during summer and autumn. The impact of this herbivory on a number of plant parameters, including shoot length, basal stem diameter, root length, number of leaves, number of branches, and above and below ground biomass was investigated at one coastal site through an insect exclusion trial using potted seedlings and regular spray applications of a systemic insecticide to exclude the biological control agent. Half the seedlings, both sprayed and unsprayed, were placed beneath the prickly acacia canopy, the other half were placed in full sunlight. Larvae of C. assimilis were found on unsprayed seedlings in both situations. The effects of herbivory, however, were significant only for seedlings grown beneath the canopy. At the end of the five-month trial period, shoot length of these seedlings was reduced by 30%, basal stem diameter by 44%, root length by 15%, number of leaves by 97%, above ground biomass by 87%, and below ground biomass by 77% when compared to sprayed seedlings. Implications are that the insect, where established, may reduce seedling growth beneath existing canopies and in turn may help limit the formation of dense infestations. Crown Copyright (C) 2012 Published by Elsevier Inc. All rights reserved.
Resumo:
Vachellia nilotica ssp. indica (hereafter, V. n. indica) is an important tree weed in Australia. Its dense populations induce undesirable changes in the vast areas of northern Australia. Because chemical and mechanical management options appear unviable for various reasons, biological management of this tree is considered a better option. Among the many trialled arthropods in Australian context, Anomalococcus indicus, a lecanodiaspid native to India, has been identified as a potent-candidate, since in India, its native terrain, it is the most widespread and occurs throughout the year. Severe infestations of A. indicus cause defoliation, wilting and death of branches, and occasionally the tree. Populations of A. indicus have been brought into Australia and are being tested for its host specificity under quarantine conditions. This article reports the physiological damage and stress it inflicts in the shoots of V. n. indica. Younger-nymphal instars of A. indicus feed on cortical-parenchyma cells of young stems, whereas the older instars and adults feed from the phloem of old stems. Two conspicuous responses of V. n. indica arising in response to the feeding action of A. indicus are changes in the cell-wall dynamics and irregular cell divisions. The feeding action of A. indicus elicits a sequence of reactions in the stem tissues of V. n. indica such as differentiation of thick-walled elements in the outer cortical parenchyma, differential thickening of cells with supernumerary layers of either suberin or lignin, proliferations of parenchyma and phloem, wall thickening and obliteration of inner lumen of phloem cells, and the sieve plates plugged with callosic deposits. The responses are the culminations of interaction between the virulence factor (one or more of the salivary proteins?) from A. indicus and the resistance factor in V. n. indica. We have analysed structural changes in the context of their functions, by comparing the feeding action of A. indicus with that of other hemipteroids. From the level of stress it induces, this study confirms that A. indicus has the potential to be an effective biological management of V. n. indica in Australia. © 2014 © 2014 Taylor & Francis and Aboricultural Association.
Resumo:
The goal of this thesis was to examine the ecophysiological responses of Scots pine (Pinus sylvestris L.), with an emphasis on the oxidative enzyme peroxidase and plant phenolics to environmental stresses like elevated levels of nickel (Ni) and copper (Cu), and herbivory. The effects of Ni and Cu were studied in a gradient survey at a sulphur dioxide contaminated site in the Kola Peninsula, and with experiments in which seedlings were exposed to Ni mist or to Ni and Cu amended into the soil. In addition, experimental Ni exposure was combined with disturbance of the natural lichen cover of the forest ground layer. Pine sawfly attack was simulated in the early season defoliation experiment, in which mature Scots pine were defoliated (100 %) during two successive years in a dry, nutrient-poor Scots pine stand. In addition, the effect of previous defoliation on the growth of sawfly (Diprion pini L.) larvae was studied. Apoplastic peroxidase activity was elevated in the needles of pine in a Ni- , Cu- and SO2- polluted environment, which indicated an increased oxidative stress. Increased foliar peroxidase activity due to Ni contamination was shown in the experiment, in which Ni was added as mist. No such response was found in peroxidase acitivity of the roots exposed to elevated Ni and/or Cu in the soil. Elevated Ni in the soil increased the concentration of foliar condensed tannins, which are able to bind heavy metals in the cells. Addition of low levels of Ni in the soil appeared to benefit pine seedlings, which was seen as promoted shoot growth and better condition of the roots. Wet Ni deposition of 2000 mg m-2 reduced growth and survival of pine seedlings, whereas deposition levels 200 mg m-2 or 20 mg m-2 caused no effects in a 2-y lasting experiment. The lichen mat on the forest floor did not act as an effective buffer against the adverse impacts of heavy metals on pine seedlings. However, some evidence was found indicating that soil microbes profited from the lichen mat. Artificial defoliation increased peroxidase activity in the Scots pine needles. In addition, defoliation decreased nitrogen, diamine putrescine and glucose concentrations in the needles and increased the concentrations of several phenolic compounds, starch and sucrose. Previous artificial defoliation led to poor growth of sawfly larvae reared on the pines, suggesting delayed induced resistance in Scots pine. However, there was no consistent relationship between inducibility (proportional increase in a compound following defoliation) and adverse effects on the growth of pine sawfly larvae. The observed inducible responses in needle phenolics due to previous defoliation thus appear to represent non-specific responses against sawflies.
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Leaf and needle biomasses are key factors in forest health. Insects that feed on needles cause growth losses and tree mortality. Insect outbreaks in Finnish forests have increased rapidly during the last decade and due to climate change the damages are expected to become more serious. There is a need for cost-efficient methods for inventorying these outbreaks. Remote sensing is a promising means for estimating forests and damages. The purpose of this study is to investigate the usability of airborne laser scanning in estimating Scots pine defoliation caused by the common pine sawfly (Diprion pini L.). The study area is situated in Ilomantsi district, eastern Finland. Study materials included high-pulse airborne laser scannings from July and October 2008. Reference data consisted of 90 circular field plots measured in May-June 2009. Defoliation percentage on these field plots was estimated visually. The study was made on plot-level and methods used were linear regression, unsupervised classification, Maximum likelihood method, and stepwise linear regression. Field plots were divided in defoliation classes in two different ways: When divided in two classes the defoliation percentages used were 0–20 % and 20–100 % and when divided in four classes 0–10 %, 10–20 %, 20–30 % and 30–100 %. The results varied depending on method and laser scanning. In the first laser scanning the best results were obtained with stepwise linear regression. The kappa value was 0,47 when using two classes and 0,37 when divided in four classes. In the second laser scanning the best results were obtained with Maximum likelihood. The kappa values were 0,42 and 0,37, correspondingly. The feature that explained defoliation best was vegetation index (pulses reflected from height > 2m / all pulses). There was no significant difference in the results between the two laser scannings so the seasonal change in defoliation could not be detected in this study.
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在北京东灵山地区对辽东栎的天然更新进行研究。辽东栎的结实具有大年现象(masting),大年现象十分复杂,在种群水平、个体之间都存在差异。 动物对辽东栎的天然更新有重要的影响。捕食和传播辽东栎坚果的脊椎动物至少包括小型啮齿目动物中的岩松鼠、花鼠、大仓鼠、社鼠、大林姬鼠和棕背鼠平,鸟类中的松鸦。岩松鼠、花鼠和大仓鼠有发达的颊囊,能够将坚果暂时放在颊囊中进行传播,岩松鼠有分散埋藏坚果的习性;松鸦能够将坚果放在素囊中进行长距离传播。成熟坚果在森林地表的消失非常快,少部分被脊椎动物就地消耗,大部分被传播到巢穴中或分散埋藏。成熟坚果的丢失存在时空差异。无脊椎动物中的昆虫对辽东栎去叶有重要影响。去叶与昆虫幼虫的密度以及长度显著相关。幼树去叶在辽东栎种群大树密度最高的地点最高,而在密度最低的地点最低。大树去叶在辽东栎种群总胸径面积最大的地点最大。 辽东栎实生苗在野外十分匮乏,可能是由于东灵山地区小型啮齿目动物缺乏天敌,使它们的活动十分强烈。它们有异常强大的捕食和搬运辽东栎坚果的能力,使能够逃逸捕食的坚果数量很少。现阶段辽东栎的更新几乎完全靠萌生苗进行,大树的生长大多弯曲不直。实生幼苗在小的林窗中的生长比在树冠下的生长好。综合考虑实生个体和萌生个体,50 龄林中种群大小结构稳定,能够长时间生存发展下去;30 龄林种群中个体间的竞争激烈,种群处于衰退状态。 研究结果建议:对辽东栎林的天然更新,应该采取综合治理的方法,充分考虑各种生物和非生物因素的影响,处理好生物因素的非生物因素的关系;人为进行适当干扰,例如在森林中创建适当大小的林窗,以更好地促进辽东栎的天然更新。
Resumo:
克隆植物具有多种不同于非克隆植物的生长和繁殖策略。本研究首先综述了这些生长与繁殖策略之中,与我们的实验研究相关的尤其是对于去叶干扰适应策略的四个方面,包括克隆整合、克隆分株大小与密度之权衡( tradeoff)过程、碳水化合物贮备与利用、营养繁殖和芽种群(bud population)调节等。预测克隆植物选择什么样的对策以及某种对策发生作用的条件及程度如何,对克隆植物生态学研究者来说,将是富有挑战意味的课题。 羊草(Leymus chinensis (Trin,) Tzvel.)是禾本科的一种多年生根茎型克隆植物,常常处于由放牧或刈割造成的去叶干扰( defoliation)的胁迫下。在我们的第一个实验(2002年)中,考察了去叶干扰和根茎切割( rhizome severing)是否影响根茎本身和分株地上部分的生长、以及营养繁殖芽的数量特征。同时我们检验如下的假设:直接受到去叶干扰的分株除了会受益于可能的补偿作用之外,还会受益于克隆整合作用,即与之保持根茎联系的未受去叶处理的分株将转移碳水化合物或养分给受去叶干扰的分株,使之得以尽快恢复光合组织。实验结果显示:单次去叶干扰影响根茎生长和芽的产生,而对地上部分的生长影响甚微。只有重度去叶干扰才显著影响营养繁殖芽的产生,而轻度去叶干扰作用不明显。所以,当去叶强度不大时,补偿作用机制将弥补植物由于去叶干扰而受到的损失。我们的实验并未检测到克隆整合的发生,可能的原因是本实验持续的时间不足够长或者是由于根茎中的碳水化合物贮备在去叶干扰发生后发挥了作用,缓解了去叶干扰对羊草分株生长及芽生产的所造成的冲击。 在第二个实验(200 3年)中,为了考查相继数次的去叶干扰是否能够启动羊草分株间的克隆整合,以及启动克隆整合所需达到的去叶干扰的频次,我们将实验样方设计为两部分:核心区( Core section)和外围区(Periphery section)。不同频次的去叶处理(0去叶,作为对照; 1次去叶;3次去叶;5次去叶)仅施加于实验样方的核心区。结果表明,经历3次和5次去叶处理的样方外围区的生物量及水溶性碳水化合物( wsc)含量均明显少于经历1次去叶处理及0去叶处理的样方外围区,这意味着克隆整合在3次去叶和5次去叶两种处理中发生了,而在其它两种处理中没有发生。此外,分株的大小一数目之权衡可能在基株(genet)水平上发生,因此,一个克隆植物基株,当部分分株受到去叶干扰后,将增加其分株数目,但优先增加未受到去叶干扰部分的分株数目。我们将羊草的这种行为视为克隆基株试图逃避干扰的“逃逸行为”( escaping behavior)。 同时在实验中,我们监测了实验样方核心区分株的wsc浓度,目的是查明羊草枝条与根茎中wsc浓度随时间的变化格局及其对去叶干扰的响应,意在发现羊草枝条地上、地下部分和根茎中wsc浓度的时间变化之间的联系。在生长旺季,对照处理(即O去叶处理)的wsc浓度显著降低,这是由于植物在此时期的高生长速率和高呼吸速率所致;相比之下,其它经历去叶干扰的三个处理中羊草wsc浓度降低不如对照处理那么明显和迅速,甚至在高频次去叶处理中还有所上升,其原因大概是由于去叶而使叶面积减小,引起枝条的总呼吸下降所致。羊草枝条中最终的wsc浓度没有受到单次去叶处理的显著影响,却很可观地受到相继数次去叶干扰(3次和5次去叶处理)的影响。去叶干扰可能加速了碳水化合物在气温降低时自地上向地下的转移。枝条的地下部分wsc浓度比地上部分更稳定。在地上部分受到去叶干扰后,根茎中的wsc必然向上输出到地上枝条,而强烈的生长会消耗wsc,但可能的克隆整合(通常在相对频繁的去叶干扰条件下发生)将在一定程度上缓解这种wsc消耗。 在此实验中,我们还监测了羊草平均每分株所拥有的芽的数目,包括每分株分蘖节芽(tiller bud)数目和根茎芽(thizomatous bud)数目。从平均每分株芽数目的时间动态来看,各种去叶处理之间的差异程度不大,这主要是羊草在受到去叶干扰后补偿作用的贡献。与对照处理相比,受不同频次去叶干扰的三个处理的根茎芽具有相对于分蘖节的更强的增长优势。去叶干扰对根茎芽生长的促进作用大于对分蘖节芽的促进作用。我们认为这种反应是羊草克隆基株的一种逃避干扰的适应性努力,可视为一种“逃逸行为”,也可看作克隆植物觅养行为(foraging behavior)的一种特殊形式。芽的增长在中等频度的去叶干扰条件下最强,似乎同样符合中度干扰理论。有趣的是,特定频度的去叶干扰可能会造成芽种群中两大类型芽之间比例(根茎芽/分蘖节芽)的振荡现象(Oscillation)。 最后展望了对于羊草今后应继续开展的工作主要集中在两大方面:一是有性繁殖与无性繁殖之间在不同生境或不同干扰条件下的权衡关系;二是处于不同斑块对比度( patch contrast)的生境中的羊草克隆分株之问的生理整合,及其强度与斑块对比度的定量关系。
Resumo:
放牧是草地最主要的利用方式,草地植物被家畜采食而部分或全部去叶是一个普遍存在的现象。内蒙古草原是我国北方地区最大的干旱半干旱草原,长期以来,过度放牧使草地的植被、土壤状况不断趋于恶化。由于过度放牧,草地植物正常的生理生态特性受到影响,光合作用能力、生长能力和繁殖更新能力等出现不同程度的降低。本文从动物-植物-土壤相互联系的角度出发,着重研究了过度放牧和刈割对内蒙古草原的一种典型植物—羊草(Leymus chinensis (Trin.) Tzevel.)形态、生长和生理的影响,以及羊草对放牧和刈割的生理生态响应,并得出以下主要结论: 1.过度放牧使土壤表层含水量、有机质含量和氮含量显著下降;羊草的叶量减少,比叶面积增大,节间缩短,分蘖减少;羊草的生物量根部分配比例增大,生殖器官则分配很少;羊草种群高度、盖度、密度和相对生物量均比对照显著降低。试验结果说明,过度放牧从短期可以影响到羊草种群和部分形态特征,长期则影响羊草的生物量分配模式,最终还使羊草的生境趋于恶化,不利于羊草的生长。同时,羊草对放牧也形成了一定的适应性。例如,比叶面积增大,增加了更多的光合叶面积;节间缩短可以躲避家畜啃食;生物量向根部集中,增大了对水分和养分的吸收面积等。 2.过度放牧使羊草的净光合速率显著降低;光合作用补偿点增大,光合作用饱和点却降低;蒸腾速率、气孔导度下降,暗呼吸速率增大;光系统Ⅱ的光化学效率、实际量子产量和光化学粹灭值均显著低于围封样地;瞬时和长期的水分利用效率也有不同程度的降低。试验结果表明,过度放牧强烈制约了羊草的光合作用能力和水分利用效率。而植物的光合作用是物质生产的基础,羊草光合能力的降低必然导致其生物产量的降低,从而也改变了羊草种群在整个生物群落中的作用和地位。 3.羊草在轻度(地上20%)和中度(地上40%)刈割条件下可以获得更大的地上累积生物量,表现为超补偿生长,并且地下生物量降低较少,相对生长速率较高,分蘖较多。而重度(地上80%)刈割可收获的地上累积生物量远少于对照,表现为欠补偿生长,且地下生物量大量减少,分蘖较少。在轻度或中度刈割条件下,施氮肥可以起到稳定维持植物生物产量的作用,但是重度刈割条件下,即使施加再多的氮肥也不能补偿植物生物量的损失。施磷肥对羊草的补偿性生长特性没有明显影响。而干旱加刈割处理的羊草不管是哪个刈割水平,均为欠补偿生长,地下生物量低,相对生长速率较低。 4.轻度刈割后羊草剩余叶片经过3天左右的生理恢复期后,表现出了明显的补偿性光合作用。中度和重度刈割羊草的生理恢复时间较长,没有表现出补偿性光合作用。刈割和施氮处理羊草剩余叶片的净光合速率变化和仅刈割处理(对照)基本上相同。刈割和干旱处理羊草剩余叶片的光合速率始终处于一个较低的水平,各刈割水平均没有表现出补偿性光合作用,主要是干旱导致气孔关闭,限制了叶片的气体交换。刈割后叶片气孔导度的增加可能是补偿性光合作用发生的重要原因。但叶片受到强烈伤害后,气孔导度虽然增加,其呼吸作用也增大,所以净光合速率还是较低。重度刈割叶片的叶绿素含量升高可以增加其光合作用潜力,为恢复正常生长作了生理上的准备,这可能是植物对刈割或放牧的一种生理适应性。 研究放牧条件下植物对动物采食的反应不仅具有重要的理论生态学意义,而且对提高植物的净生长量,维持草地持续的生产能力,实现草地的可持续利用具有重要的意义。研究草地主要植物对牲畜采食的补偿性生长效应及其条件,对合理利用草地可再生资源,确定合理的放牧强度有重要意义。应充分利用植物的超补偿效应,适时放牧,控制放牧强度,实现草地植物可食部分的超补偿生长,实现草地的最优化利用和生产力的最大化。
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Nível de ação e o MIP-Soja. Ensaios com injúria na fase inicial da lavoura: Londrina, PR ? Safras 2001/2002 e 2002/2003. Ensaios com diferentes níveis de desfolha em diferentes fases do desenvolvimento: Não-Me-Toque-RS e Sorriso-MT ? Safra 2008/2009. Ensaios com diferentes níveis de desfolha contínua durante diferentes fases do desenvolvimento: Morrinhos, GO ? Safra 2009/2010. Resultados obtidos que comprovam a segurança dos níveis de ação recomendados. Considerações finais.
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Since dwarf napiergrass (Pennisetum purpureum Schumach.) must be propagated vegetatively due to lack of viable seeds, root splitting and stem cuttings are generally used to obtain true-to-type plant populations. These ordinary methods are laborious and costly, and are the greatest barriers for expanding the cultivation area of this crop. The objectives of this research were to develop nursery production of dwarf napiergrass in cell trays and to compare the efficiency of mechanical versus manual methods for cell-tray propagation and field transplanting. After defoliation of herbage either by a sickle (manually) or hand-mowing machine, every potential aerial tiller bud was cut to a single one for transplanting into cell trays as stem cuttings and placed in a glasshouse over winter. The following June, nursery plants were trimmed to a 25–cm length and transplanted in an experimental field (sandy soil) with 20,000 plants ha^(−1) either by shovel (manually) or Welsh onion planter. Labour time was recorded for each process. The manual defoliation of plants required 44% more labour time for preparing the stem cuttings (0.73 person-min. stemcutting^(−1)) compared to using hand-mowing machinery (0.51 person-min. stem-cutting^(−1)). In contrast, labour time for transplanting required an extra 0.30 person-min. m^(−2) (14%) using the machinery compared to manual transplanting, possibly due to the limited plot size for machinery operation. The transplanting method had no significant effect on plant establishment or plant growth, except for herbage yield 110 days after planting. Defoliation of herbage by machinery, production using a cell-tray nursery and mechanical transplanting reduced the labour intensity of dwarf napiergrass propagation.
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Root exudates were collected over a 27 day period from defoliated and non-defoliated Lolium perenne L. plants grown under sterile conditions in microlysimeters. Eleven individual sugars, including both aldehyde and alcohol sugars, were identified and quantified with a gas chromatograph-mass spectrometer (GC-MS). There was no change in the number of sugars present between 7 and 27 days, but the exudation of alcohol sugars decreased rapidly at about day 12. Xylose and glucose were present in the largest amounts. Defoliation initially increased the total amount of sugars in the exudates, but continuous defoliation reduced total sugar exudation by 16% and induced changes in the exudation patterns of individual sugars. Defoliation enhanced exudation of erythritol, threitol, and xylitol, reduced exudation of glucose and arabitol, but had little effect on the amounts of other sugars exuded. The more complex 6 C, 5 OH aldehyde sugars, especially glucose, showed changes earlier and to a greater extent (17 days), than the 5 C, 4 OH (xylose and ribose) and 6 C 4 OH (fucose) aldehyde groups. These findings confirm the general finding that repeated defoliation reduces the quantity of total sugars exuded, but the pattern of release of individual sugars is complex and variable.
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One of the key processes that drives rhizosphere microbial activity is the exudation of soluble organic carbon (C) by plant roots. We describe an experiment designed to determine the impact of defoliation on the partitioning and movement of C in grass (Lolium perenne L.), soil and grass-sterile sand microcosms, using a (13)CO(2) pulse-labelling method. The pulse-derived (13)C in the shoots declined over time, but that of the roots remained stable throughout the experiment. There were peaks in the atom% (13)C of rhizosphere CO(2) in the first few hours after labelling probably due to root respiration, and again at around 100 h. The second peak was only seen in the soil microcosms and not in those with sterilised sand as the growth medium, indicating possible microbial activity. Incorporation of the (13)C label into the microbial biomass increased at 100 h when incorporation into replicating cells, as indicated by the amounts of the label in the microbial DNA, started to increase. These results indicate that the rhizosphere environment is conducive to bacterial growth and replication. The results also show that defoliation had no impact on the pattern of movement of (13)C from plant roots into the microbial population in the rhizosphere.
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Six Australian native herbaceous perennial legumes (Lotus australis, Swainsona colutoides, Swainsona swainsonioides, Cullen tenax, Glycine tabacina and Kennedia prorepens) were assessed in the glasshouse for nutritive value, soluble condensed tannins and production of herbage in response to three cutting treatments (regrowth harvested every 4 and 6 weeks and plants left uncut for 12 weeks). The Mediterranean perennial legumes Medicago sativa and Lotus corniculatus were also included. Dry matter (DM) yield of some native legumes was comparable to L. corniculatus, but M. sativa produced more DM than all species except S. swainsonioides after 12 weeks of regrowth. Dry matter yield of all native legumes decreased with increased cutting frequency, indicating a susceptibility to frequent defoliation. Shoot in vitro dry matter digestibility (DMD) was high (>70%) in most native legumes, except G. tabacina (65%) and K. prorepens (55%). Crude protein ranged from 21-28% for all legumes except K. prorepens (12%). More frequent cutting resulted in higher DMD and crude protein in all species, except for the DMD of C. tenax and L. australis, which did not change. Concentrations of soluble condensed tannins were 2-9 g/kg DM in the Lotus spp., 10-18 g/kg DM in K. prorepens and negligible (<1 g/kg) in the other legumes. Of the native species, C. tenax, S. swainsonioides and L. australis showed the most promise for use as forage plants and further evaluation under field conditions is now warranted.
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Citrus sudden death (CSD) is a new disease of sweet orange and mandarin trees grafted on Rangpur lime and Citrus volkameriana rootstocks. It was first seen in Brazil in 1999, and has since been detected in more than four million trees. The CSD causal agent is unknown and the current hypothesis involves a virus similar to Citrus tristeza virus or a new virus named Citrus sudden death-associated virus. CSD symptoms include generalized foliar discoloration, defoliation and root death, and, in most cases, it can cause tree death. One of the unique characteristics of CSD disease is the presence of a yellow stain in the rootstock bark near the bud union. This region also undergoes profound anatomical changes. In this study, we analyse the metabolic disorder caused by CSD in the bark of sweet orange grafted on Rangpur lime by nuclear magnetic resonance (NMR) spectroscopy and imaging. The imaging results show the presence of a large amount of non-functional phloem in the rootstock bark of affected plants. The spectroscopic analysis shows a high content of triacylglyceride and sucrose, which may be related to phloem blockage close to the bud union. We also propose that, without knowing the causal CSD agent, the determination of oil content in rootstock bark by low-resolution NMR can be used as a complementary method for CSD diagnosis, screening about 300 samples per hour.
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O objetivo do presente trabalho foi avaliar o crescimento e a produção de Anthurium andraeanum 'Apalai' submetido a diferentes intensidades de desfolha no Vale do Ribeira, SP. Foram utilizadas mudas micropropagadas dessa espécie, as quais foram plantadas em canteiros construídos sob telado coberto com tela de náilon preta, com malha que proporciona 70% de sombreamento, no espaçamento 0,40x0,40m. O experimento foi conduzido em delineamento de blocos casualizados em parcelas subdivididas, com dezesseis repetições. O efeito da desfolha foi avaliado na parcela e o efeito do tempo após a desfolha na subparcela. As diferentes intensidades de desfolha consistiram em plantas com três, quatro e cinco folhas e plantas sem desfolha, e o tempo após a desfolha, as avaliações realizadas em 2006 e 2007. Ocorreu um aumento na área das folhas individuais em plantas mantidas com quatro e cinco folhas, proporcional à intensidade de desfolha, que pode ser relacionado a uma tentativa de compensação da área foliar perdida. A desfolha com a manutenção de três, quatro ou cinco folhas em plantas de antúrio 'Apalai' é prejudicial para o seu crescimento e produção.
