大豆柑桔间作系统中磷的分配和迁移规律研究

用微区试验和^32P同位素示踪技术,比较研究了大豆、柑桔间作和单作条件下,P在大豆和柑桔体中的分配、转移及其在土壤中的迁移规律．结果表明,间作大豆的吸P量和各部位累积P量显著地低于单作大豆;^32P肥料浅施,间作大豆吸收的^32P量显著低于单作大豆;^32P肥料深施,间作大豆吸收的^32P量显著高于单作大豆,但间作不影响P和^32P在各部位的转移和分配．间作柑桔吸收的^32P量显著低于单作柑桔．柑桔新吸收的^32P可快速向地上部分输送,并优先供应生长活跃部位．间作不影响^32P在柑桔各部位的转移和分配．但是P肥深施使柑桔吸收的^32P向地上部分和生长活跃部位的转移速率减慢．间作使土壤中P的生物移动性增强,可促进土壤深层P向土壤浅层迁移．试验结果表明,大豆柑桔间作磷肥的施用深度以保持在20cm以内为佳．     

大豆柑桔间作系统中磷的分配和迁移规律研究

用微区试验和³²P同位素示踪技术,比较研究了大豆、柑桔间作和单作条件下,P在大豆和柑桔体中的分配、转移及其在土壤中的迁移规律.结果表明,间作大豆的吸P量和各部位累积P量显著地低于单作大豆;³²P肥料浅施,间作大豆吸收的³²P量显著低于单作大豆;³²P肥料深施,间作大豆吸收的³²P量显著高于单作大豆,但间作不影响P和³²P在各部位的转移和分配.间作柑桔吸收的³²P量显著低于单作柑桔.柑桔新吸收的³²P可快速向地上部分输送,并优先供应生长活跃部位.间作不影响³²P在柑桔各部位的转移和分配,但是P肥深施使柑桔吸收的³²P向地上部分和生长活跃部位的转移速率减慢.间作使土壤中P的生物移动性增强,可促进土壤深层P向土壤浅层迁移.试验结果表明,大豆柑桔间作磷肥的施用深度以保持在20cm以内为佳.     

不同磷水平下玉米-大豆间作系统根系形态变化

本研究通过盆栽试验,探讨不同磷水平(0、50、100 mg P₂O₅·kg^-1,分别用P₀、P₅₀、P₁₀₀表示)下玉米与大豆间作系统根系形态的变化及其与磷吸收的关系,以明确玉米-大豆间作系统促进磷吸收的作用机制。结果表明: 不同磷水平下,间作显著改变了玉米和大豆的根系形态参数,提高了大豆根冠比。与单作模式相比,间作使玉米和大豆的根长、根表面积、根体积、根系干重分别显著增加25.6%、22.0%、39.2%、34.3%和28.1%、29.7%、37.3%、62.3%,而平均根直径分别显著降低15.2%和11.7%。不同磷水平下,磷素吸收当量比(LER_P)>1,玉米-大豆间作具有明显的磷吸收优势,且LER_P不受磷水平调控。间作诱导根系形态改变与磷吸收增加密切相关,其中玉米根系表面积增大、大豆根系长度增加是驱动玉米-大豆间作系统磷高效吸收的主要机制。根据回归方程,玉米根表面积和大豆根系长度增大10%,磷吸收量提高5%～10%。因此,与中等施磷水平(P₁₀₀)下的单作相比,玉米-大豆间作条件下磷肥减施1/2(P₅₀)并未降低玉米的磷吸收量。综上,玉米-大豆间作体系在减施磷肥条件下具有维持作物磷吸收的潜力。     

辽西北沙地苹果-大豆间作对土壤养分和微生物量分布的影响

为了解辽西北沙地果农间作系统中土壤养分及微生物量分布特征,选取研究区具有代表性的苹果(Malus pumila)-大豆(Glycine max)间作系统为研究对象,对间作系统0~60 cm土层、0~300 cm水平距离范围内的土壤养分和微生物量进行了测定,并与大豆单作、苹果单作进行对比。结果表明:辽西北沙地苹果与大豆间作系统中土壤养分十分匮乏,全氮、碱解氮、有效磷极缺乏;在水平方向上,随距苹果树距离的增加,间作系统中土壤有机质、碱解氮、全磷、有效磷总体上呈现先降低再升高后趋于平稳的变化规律;各养分竞争激烈区位于果树带区[0,100 cm);在垂直方向上,苹果与大豆间作系统各土壤养分均表现出表聚性,表土层(0~20 cm)土壤养分含量显著高于深土层(20~60 cm);土壤微生物量碳、氮在果树带区及表土层含量高,且在该区域细菌数量高;间作与单作各土壤养分、微生物量在表土层差异较大,差异性随土层加深而缩小,间作系统除碱解氮外对土壤养分表现为负效应,不能满足间作系统对土壤养分的需求,尤其对土壤氮素、磷素竞争需求量较大。综上所述,辽西北沙地苹果-大豆间作系统中存在明显的竞争关系,竞争激烈区域位于果树带区,应在此处加强氮肥和磷肥施加。     

农田向农林复合系统转变过程中土壤物理性质的变化

以渭北黄土区农林实践中被广泛采用的核桃-小麦间作复合模式为研究对象,以两物种的单作系统为对照,研究单作农田向农林复合系统转变对土壤物理性质的影响,为农林复合系统经营管理和模型的建立提供理论依据.结果表明: 核桃-小麦间作对土壤物理性质的改善作用主要发生在0～40 cm土层.核桃-小麦间作可以避免表层(0～20 cm)土壤容重升高,同时在20～40 cm土层对单作农田形成的犁底层也有显著的改善作用.核桃-小麦间作对各土层田间持水量均表现出持续的改善作用,除在20～40 cm土层略低于核桃单作外,其他从第5年开始均高于两单作系统.核桃-小麦间作对各土层土壤孔隙度均存在持续的改善作用,在0～20 和20～40 cm土层与两单作系统相比存在显著差异,同时也能提高毛管空隙度的比例.农田向农林复合系统转变过程中对土壤容重、田间持水量、土壤孔隙度均有持续的改善作用,且对浅层土壤的改善作用强于深层土壤.     

Ap—2号磷菌肥的生产及田间应用效果

用深层发酵法生产Ａｐ—２号磷菌肥,于１９９０年至１９９２年在黑龙江省进行了田间试验。结果表明,与单施化学磷肥相比使小麦增产１８．１％;当代替５０—７０％化学磷肥时,与对照相比,使玉米分别增产１４．２７％和１２．１４％;用于大豆,其增产幅度与施磷菌肥的数量成正相关。当代替５０％、７０％和１００％化学磷肥时,分别比单施化学磷肥增产１２．８６％、１３．３２％和１４．１３％。     

木薯/花生间作对根际土壤微生态的影响

为了探明木薯/花生间作在增产增收的同时对土壤微生态的影响,研究木薯和花生以不同行距(30 cm,40 cm,50 cm)间作的根际土壤养分、微生物及相关酶活性的变化。结果表明:木薯/花生间作可增加根际土壤细菌、真菌、放线菌及总微生物数量和微生物多样性,30 cm间作行距的木薯、花生根际土壤微生物总数量分别比单作木薯、花生增加了129.6%和101.1%;间作根际土壤碱解氮、有效磷、有效钾和有机质含量相比单作增加,50 cm间作花生的根际土壤碱解氮、有效磷、有效钾量比单作花生增加了145.9%~195.9%,30 cm间作木薯的根际土壤有效钾、有效磷含量分别比单作木薯增加了161.8%和187.9%;木薯/花生间作的根际土壤过氧化氢酶、酸性磷酸酶活性活性相比单作升高,间作土壤脲酶和蛋白酶活性相比单作降低,30 cm间作木薯的根际土壤过氧化氢酶活性比单作木薯增加了59.2%,50 cm间作花生的根际土壤蔗糖酶活性比单作花生增加了97.4%。可见,木薯/花生间作可改善根际土壤微生态坏境,且适宜的间作行距更利于土壤养分含量和微生物数量的增加。     

间作对桑树和谷子生长和光合日变化的影响

以桑树和谷子为研究材料,探讨了大田条件下,桑树-谷子间作对桑树和谷子的干物质生产、土地利用率和光合日变化的影响.结果表明:桑树-谷子间作条件下,间作桑树的株高、地茎、根长和枝条数分别比单作桑树增加了6.0％、13.7％、6.8％和14.8％,且间作桑树的产叶量比单作桑树增加了31.3％;间作谷子与单作比较,其株高和根长的变化不大.桑树-谷子间作增加了土地当量比,提高了土地利用率.单作、间作桑树和谷子叶片在12:00时均表现出明显的光合午休现象,且单作桑树的光合午休现象比间作桑树严重.桑树-谷子间作提高了中午时桑树叶片气孔导度和水分利用率,增加了桑树光合碳同化能力,抑制了桑树叶片实际光化学效率、电子传递速率和最大光化学效率的下降,从而减缓了桑树的“光合午休”现象.桑树-谷子间作能明显提高桑树叶片的光合生产能力.     

CO2浓度和磷对不同种植方式玉米大豆生长效应研究

通过顶置光源植物生长室控制380和760 μmol·mol-1 2个CO2浓度水平,研究了磷缺乏与正常供磷条件下,CO2浓度升高对玉米/大豆间作、玉米单作和大豆单作3种种植模式下作物株高、茎粗、叶面积及干物质积累的影响.结果表明:(1)CO2浓度升高能显著增加单/间作玉米、大豆的株高、茎粗、叶面积、根干重、地上部干重及总干重.(2)CO2浓度升高对供磷水平下单、间作玉米大豆的株高、茎粗、叶面积及干物质积累量增加的正效应均大于缺磷处理.(3)两种CO2浓度下,间作大豆与单作大豆生长差异不显著,而间作玉米较单作玉米有明显的生长优势,且供磷和CO2浓度的升高均能够促进这种优势.     

小麦/大豆间作中作物种间的竞争作用和促进作用

春小麦／春大豆间作是西北一熟制灌区广泛采用的高产种植形式．本文采用田间小区和微区根系分隔试验研究了这种种植形式作物种间的竞争作用和促进作用．结果表明,小麦／大豆间作具有明显的间作优势．土地当量比为１．２３～１．２６．小麦为优势种,竞争力强于大豆,具有明显的间作边行优势．小麦边行优势的１／３贡献来自于地下部．小麦收获后,大豆生长具有恢复作用,认为这种恢复作用是间作优势的机制之一．间作相对于单作两种作物的收获指数均有显著提高．收获指数的种间促进作用是间作优势的另一机制．     

Detection and Inoculation of Peanut Witches' Broom Phytoplasma (16SrII‐A) and Periwinkle Leaf Yellowing Phytoplasma (16SrI‐B) in Citrus Cultivars in Taiwan

To clarify the phytoplasma associated with Huanglongbing (HLB), a detection survey of phytoplasma in field citrus trees was performed using the standardized nested PCR assay with primer set P1/16S‐Sr and R16F2n/R16R2. The HLB‐diseased citrus trees with typical HLB symptoms showed a high detection of 89.7% (322/359) of HLB‐Las, while a low detection of phytoplasma at 1.1% (4/359) was examined in an HLB‐affected Wentan pummelo (Citrus grandis) tree (1/63) and Tahiti lime (C. latifolia) trees (3/53) that were co‐infected with HLB‐Las. The phytoplasma alone was also detected in a healthy Wentan pummelo tree (1/60) at a low incidence total of 0.3% (1/347). Healthy citrus plants were inoculated with the citrus phytoplasma (WP‐DL) by graft inoculation with phytoplasma‐infected pummelo scions. Positive detections of phytoplasma were monitored only in the Wentan pummelo plant 4 months and 3.5 years after inoculation, and no symptoms developed. The citrus phytoplasma infected and persistently survived in a low titre and at a very uneven distribution in citrus plants. Peanut witches' broom (PnWB) phytoplasma (16SrII‐A) and periwinkle leaf yellowing (PLY) phytoplasma belonging to the aster yellows group (16SrI‐B) maintained in periwinkle plants were inoculated into healthy citrus plants by dodder transmission. The PnWB phytoplasma showed infection through positive detection of the nested PCR assay in citrus plants and persistently survived without symptom expression up to 4 years after inoculation. Positive detections of the phytoplasma were found in a low titre and several incidences in the other inoculated citrus plants including Ponkan mandarin, Liucheng sweet orange, Eureka lemon and Hirami lemon. None of the phytoplasma‐infected citrus plants developed symptoms. Furthermore, artificial inoculation of PLY phytoplasma (16SrI‐B) into the healthy citrus plants demonstrated no infection. The citrus symptomless phytoplasma was identified to belong to the PnWB phytoplasma group (16SrII‐A).     

Field evaluation of integrated pest management-compatible pesticides for the citrus leafminer Phyllocnistis citrella (Lepidoptera: Gracillariidae) and its parasitoid Ageniaspis citricola (Hymenoptera: Encyrtidae)

Potentially selective and integrated pest management (IPM)-compatible pesticides for the citrus leafminer Phyllocnistis citrella Stainton and its parasitoid Ageniaspis citricola Logvinovskaya were compared under nursery field conditions at Gainesville, FL. In 1996, replicated blocks of young grapefruit trees were treated with 2% petroleum oil and 1 x the lowest recommended field rate (LRFR) of diflubenzuron + oil (0.4%). Untreated and treated controls (avermectin at 1 x the LRFR + oil) were included. In 1997, blocks were treated with oil (3%), 1 x the LRFR of azadirachtin + oil, 1 x the LRFR of diflubenzuron + oil and 0.1 x the LRFR of avermectin + oil. Untreated and treated controls were again included. Oil at 3%, azadirachtin at 1 x the LRFR + 0.4% of oil, and diflubenzuron at 1 x the LRFR + 0.4% of oil were shown to be IPM-compatible pesticides. In 1997, these blocks had fewer mines per leaf and P. citrella pupae parasitized by A. citricola per total leaves sampled compared with the untreated control but more than the treated control (alpha = 0.05). Avermectin at 0.1 x the LRFR + 0.4% of oil was not considered an IPM-compatible pesticide because, while it reduced the number of P. citrella mines per leaf, it reduced the number of A. citricola to levels as low as the treated control. Actual P. citrella infestation levels had no detectable effect on tree growth and vigor. Pesticide applications were not justified when P. citrella infestations were < 1 mine per leaf and the biological control agent A. citricola was present.     

Vertical and horizontal movements of Fuller's rose weevil (Coleoptera: Curculionidae) in Australian citrus groves

Fuller's rose weevil (FRW; Asynonychus cervinus (Boheman)) is a pest of quarantine concern in many Asian markets for Australian citrus. We investigated vertical (tree climbing) and horizontal movements (inter‐tree movements) of FRW adults in a citrus orchard during 2009–2011 with mark‐recapture experiments. Trunk traps were used to intercept tree‐climbing adults. The results showed that the majority of the adults released on the foliage stayed in the canopy, however considerable numbers did drop and some dropped multiple times. The rate of drops appeared to be fixed, independent of how many times the weevils had dropped before. Inter‐tree movements of adults in the canopy occurred mainly within rows, probably because of touching foliage between within‐row neighboring trees. Movement directions on the ground were more random, when reliance on touching foliage was not necessary. According to fitted dispersal equations, the average dispersal distance was 38 m for weevils released on foliage and 127 m for those released on the ground. Trunk banding with chemicals is an important control tactic for FRW, and based on our results, chemicals should be applied at a high enough rate (or in a wide enough band) to ensure the weevils are killed by a single crossing. For maximum reductions of FRW populations in citrus, control actions should be applied not only to infested blocks but also to neighboring blocks in the orchard.     

凋落物的树种多样性与杉木人工林土壤生态功能

通过模拟试验和野外调查对凋落物的树种多样性与杉木人工林土壤生态功能之间关系进行了研究。林分取样调查的结果表明 ,有两个树种凋落物覆盖的几个杉阔混交林土壤脲酶和蔗糖酶活性均明显高于只有杉木凋落物覆盖的杉木纯林土壤 ,酸性磷酸酶活性也呈现相同的变化趋势 ,这 3种土壤酶活性均以具有凋落物种类最多的次生常绿阔叶林土壤最高。除了土壤酶活性升高之外 ,杉阔混交林的土壤有机质和全氮含量也明显高于仅有一种杉木凋落物覆盖的杉木纯林土壤。采用杉木叶凋落物与不同阔叶树种凋落物处理土壤的模拟试验结果表明 ,在凋落物投放量和 (1 5NH4 ) 2 SO4 施用量相同的控制条件下 ,随着投放的凋落物树种组成的增加 ,土壤中 1 5N的残留量也随之增加 ,而其损失量却随之减少 ;土壤中杉木幼树对于 1 5N的吸收量以及杉木幼树的单株鲜重也随着处理凋落物组成树种的增加而增加 ,具有不同树种数量的凋落物处理之间差异显著 (p<0 .0 5 )。可见随着凋落物树种多样性的增加 ,不仅土壤有机质和全氮含量这两个基本的质量指标得到明显改善 ,而且土壤酶活性、土壤养分保蓄功能以及保证幼树良好生长等的生态功能明显改善     

Weedy hosts and prevalence of potential leafhopper vectors (Hemiptera: Cicadellidae) of a phytoplasma (16SrIX group) associated with Huanglongbing symptoms in citrus groves

Huanglongbing (HLB) is a severe citrus (Citrus spp.) disease associated with the bacteria genus Candidatus Liberibacter, detected in Brazil in 2004. Another bacterium was found in association with HLB symptoms and characterized as a phytoplasma belonging to the 16SrIX group. The objectives of this study were to identify potential leafhopper vectors of the HLB-associated phytoplasma and their host plants. Leafhoppers were sampled every other week for 12 mo with sticky yellow cards placed at two heights (0.3 and 1.5 m) in the citrus tree canopy and by using a sweep net in the ground vegetation of two sweet orange, Citrus sinensis (L.) Osbeck, groves infected by the HLB-phytoplasma in S?o Paulo state. Faunistic analyses indicated one Agalliinae (Agallia albidula Uhler) and three Deltocephalinae [Balclutha hebe (Kirkaldy), Planicephalus flavicosta (St?l), and Scaphytopius (Convelinus) marginelineatus (St?l)] species, as the most abundant and frequent leafhoppers (Hemiptera: Cicadellidae). Visual observations indicated an association of leafhopper species with some weeds and the influence of weed species composition on leafhopper abundance in low-lying vegetation. S. marginelineatus and P. flavicosta were more frequent on Sida rhombifolia L. and Althernantera tenella Colla, respectively, whereas A. albidula was observed more often on Conyza bonariensis (L.) Cronq. and B. hebe only occurred on grasses. DNA samples of field-collected S. marginelineatus were positive by polymerase chain reaction and sequencing tests for the presence of the HLB-phytoplasma group, indicating it as a potential vector. The association of leafhoppers with their hosts may be used in deciding which management strategies to adopt against weeds and diseases in citrus orchards.     

Spatial distribution of Phyllocnistis citrella Stainton (Lepidoptera: Gracillariidae) larvae in three scales.

The spatial distribution of larvae of Phyllocnistis citrella Stainton (Lepidoptera: Gracillariidae), the citrus leaf miner, in leaves, shoots, and tree crowns of Montenegrina tangerine (Citrus deliciosa Tenore) and Murcott tangor (Citrus sinensis L. Osbeck x Citrus reticulata Blanco) was determined. Fortnightly samplings from July/2001 to June/2003, in orchards located in Montenegro (29 degrees 68' S and 51 degrees 46' W), RS, Brazil, were carried out. At each sampling occasion eighth shoots randomly selected were collected. The spatial distribution pattern of P. citrella larvae between tree crowns and in the shoots was aggregated in most sampling occasions in both citrus species. Nevertheless, on the leaves, this pattern followed a random distribution, as indicated by the indices I, Idelta and k parameter.     

Abundance of Diaprepes abbreviatus (L.) (Coleoptera: Curculionidae) neonates falling to the soil under tree canopies in Florida citrus groves

The purpose of these experiments was to estimate the number and distribution of Diaprepes abbreviatus (L.) neonate larvae dropping from the canopy of infested citrus trees. The number of neonates was monitored in the field using passive funnel traps in two simultaneous experiments and a separate experiment for an additional year. In one experiment, traps were placed from trunk to dripline in the cardinal directions under each of five trees (132 traps total). In a second experiment, eight traps were placed under each tree in the cardinal directions, one trap 30 cm from the trunk and one trap 30 cm from the dripline/direction for 25 trees (200 traps total). Larvae were collected weekly for 50 wk in conical tubes containing ethylene glycol as a preservative. Traps closer to the tree trunk captured more larvae than traps nearer the dripline. The area under the tree canopy was positively correlated with the total estimated number of larvae captured per tree. The estimated number of total larvae/tree over the course of our experiments ranged from 955 to 7,290. The highest number of neonate larvae observed in 1 wk was 67 +/- 6/m2. There was an inverse relationship between the number of traps beneath a tree and the number of trees that needed to be sampled to estimate mean population density with a given precision. However, there was a direct relationship between number of traps/tree and the total number of traps needed for a given precision. This passive technique could be used to quantify the destructive larval stage and to assess D. abbreviatus management strategies.     

农林复合系统中物种间水肥光竞争机理分析与评价

低丘红壤农林复合系统被认为能通过引入树木而利用土壤深层水分及防治水土流失,从而作为亚热带地区应对季节性干旱的有效利用方式。然而,复合也可引起光能、水分和养分的竞争,导致农作物减产。通过作物生长量的测定、利用多年监测的土壤水文数据、15N微区试验及光合有效辐射的测量,综合探讨了南酸枣-花生复合系统引起的物种间水肥光的变化;通过其交互作用形成的协同,竞争关系分析,较为全面地评价了农林复合系统水肥光竞争特征。研究表明：低丘红壤上南酸枣与花生复合,促进了南酸枣生长,却减小了20％～50％的花生产量和生物量。其原因不单是南酸枣遮荫引起复合花生光合有效辐射减弱,还与水、肥竞争有关。复合系统在旱季加大利用50～100cm土层土壤水分,从而缓冲了干旱造成的影响;但南酸枣与花生间作系统也存在着一定的水分竞争。复合使得南酸枣能够利用施于花生区及淋失到60cm深处的养分,提高了养分的利用率;但同时也导致养分的竞争并影响花生的生长。在花生产量、生物量受复合南酸枣竞争影响因子中,以光最大、养分其次、水分最小。农林复合系统水肥光交互作用因其组分类型与时空配置而异,需从生态、经济、社会效益方面对复合模式加以优化。