榆木蠹蛾生物学特性观察

结合田间观察和室内试验,对榆木蠹蛾HolcocerusvicariusWalker的生物学特性进行了较为系统的研究。结果表明,榆木蠹蛾在宁夏3年发生1代,幼虫主要危害枝干和根颈部,幼虫在蛀道内越冬,5月下旬老熟幼虫在被害树周围5—10cm深的沙土内分散化蛹,蛹期（21±5）d。6月初成虫开始出现,有2个羽化高峰,分别为6月中旬和7月下旬,成虫羽化当晚即可交尾,交尾当天或第2天产卵,每雌蛾产卵最多达720粒,卵期（17±5）d,孵化率为72％～88％。未交尾雌雄成虫寿命为5—6d,交尾后雌雄成虫寿命缩短为3—5d。初孵幼虫于6月中旬始见,10月下旬幼虫开始越冬。幼虫孵化后,先危害韧皮部,常10多条聚集在一起,稍大一点即蛀入木质部。本研究为制定切实可行的榆木蠹蛾有效防治提供理论依据。     

Observations of the biological characteristics of Holcocerus vicarius Walker

结合田间观察和室内试验,对榆木蠹蛾Holcocerus vicarius Walker的生物学特性进行了较为系统的研究.结果表明,榆木蠹蛾在宁夏3年发生1代,幼虫主要危害枝干和根颈部,幼虫在蛀道内越冬,5月下旬老熟幼虫在被害树周围5～10cm深的沙土内分散化蛹,蛹期(21±5)d.6月初成虫开始出现,有2个羽化高峰,分别为6月中旬和7月下旬,成虫羽化当晚即可交尾,交尾当天或第2天产卵,每雌蛾产卵最多达720粒,卵期(17±5)d,孵化率为72％～88％.未交尾雌雄成虫寿命为5～6d,交尾后雌雄成虫寿命缩短为3～5d.初孵幼虫于6月中旬始见,10月下旬幼虫开始越冬.幼虫孵化后,先危害韧皮部,常10多条聚集在一起,稍大一点即蛀入木质部.本研究为制定切实可行的榆木蠹蛾有效防治提供理论依据.     

河南伏牛山区核桃举肢蛾生活史及防治药剂筛选

河南伏牛山区地理和气候环境独特,核桃Juglans regia L.栽植面积较大,但是核桃举肢蛾Atrijuglans hetaohei Yang的危害严重制约着当地核桃产业的发展。为了绿色防控核桃举肢蛾,本研究利用生态学手段调查了伏牛山区核桃举肢蛾的年生活史和发生规律,对包括苏云金杆菌在内的11种药剂的防治效果进行了比较,并检测了该地区核桃的农药残留,以期为伏牛山区核桃绿色生产提供理论和实践基础。结果表明核桃举肢蛾在河南伏牛山区1年发生2代,越冬代成虫发生期为6月上旬至6月下旬,其中6月中旬为核桃举肢蛾越冬代成虫发生盛期;第1代卵孵化盛期为6月底至7月上旬;第1代幼虫盛发期在7月中旬;第2代卵期为7月下旬至8月中旬,8月中旬为第2代幼虫危害盛期,第2代成虫期为7月中旬至8月上旬。核桃举肢蛾的成虫羽化盛期至初孵幼虫期为最佳防治时期,药剂筛选试验表明：8 000 IU/mL苏云金杆菌悬浮剂使用剂量为稀释750倍液,喷雾防治效果最好为93.62%,与25%噻虫嗪水分散粒剂使用剂量为稀释7 500倍液喷雾防治效果(91.49%)相当。农药残留检测表明：核桃果仁注干吡虫啉残留较高,但灌根未检出...     

北京郊区苹果小卷蛾成虫发生规律研究

苹果小卷蛾AdoxophyesoranaFischervonR slerstamm为北京郊区大桃生产中的主要害虫 ,试验采用黑光灯诱杀、糖醋盆诱集 2种方法在不同生态环境果园对其成虫发生期进行了观测。结果显示苹果小卷蛾在北京地区 1年发生 3代 ;越冬代成虫羽化高峰为 5月底至 6月初 ,第 1代幼虫防治适期为 6月1 0～ 1 5日 ;第 1代成虫羽化高峰为 7月中旬 ,第 2代幼虫防治适期为 7月下旬。     

沙柳木蠹蛾的研究

沙柳木蠹蛾Holcocerus arenicola(Staudinger)是沙柳根部一种钻蛀性害虫.亦为害踏郎、酸刺、毛乌柳、柠条等.国内分布于内蒙、新疆、宁夏、陕西、甘肃等省(区). 该虫四年1代, 以幼虫在寄主蛀道内越冬.老熟幼虫5月上旬入沙化蛹;成虫6月初开始羽化, 中旬达盛期;7月上旬幼虫初孵, 取食、为害至10月下旬越冬.成虫白天静伏于沙柳丛, 傍晚8时半至10时半活动、交配、产卵, 趋光性强.雌蛾对雄蛾性诱力较强.成虫寿命2.9—4.1天, 产卵量平均265.4粒, 性比0.67—0.68:1.     

六星黑点豹蠹蛾成虫生殖行为特征与性趋向

六星黑点豹蠹蛾Zeuzera leuconotum Butler (Lepidoptera: Cossidae)是一种重要的园林害虫。在光周期L:D=14:10、温度19-32 ℃、相对湿度75%-85%条件下,对六星黑点豹蠹蛾的羽化、性比、交配行为及能力进行了观察,利用风洞技术和林间诱蛾试验验证了其性趋向。结果表明:六星黑点豹蠹蛾羽化期60 d左右,6月下旬为羽化高峰期,日羽化高峰出现在傍晚17:00-18:00,占全天羽化量的55.4%;雌雄性比为1:1.03;交配高峰期发生在进入暗期5-7 h,成虫1日龄后性成熟,一生交配1次;随雌蛾日龄增加,其交配率逐渐下降,交配时间提前,交配持续时间逐渐加长;雌蛾一生平均产卵378个,孵化率80%,未交配雌蛾平均产卵426个,孵化率0%;未交配雌蛾和雄蛾的平均寿命分别为5.56 d和3.83 d,交配过的雌蛾和雄蛾平均寿命分别为5.66 d和2.41 d,交配缩短雄蛾寿命;六星黑点豹蠹蛾种内个体间引诱作用主要为雌蛾引诱雄蛾,同性间不存在聚集行为;2-3日龄未交配雌蛾林间诱蛾量最高,显著高于1日龄和4-6日龄(P＜0.01)。依据研究结果,分析讨论了应用性信息素防治六星黑点豹蠹蛾的可行性,说明六星黑点豹蠹蛾是可利用性信息素进行防控的理想对象。     

樟树新害虫——窃达刺蛾的研究

窃达刺蛾是樟树新害虫,在福建一年发生3代,以幼虫在叶背越冬。翌年3月上旬化蛹,4月上旬成虫出现并产卵,4月中旬幼虫孵出,5月中旬陆续化蛹．6月上旬成虫羽化,6月中旬第二代幼虫开始出现,8月下旬第三代幼虫出现。在幼虫三龄前,喷洒5％辛硫磷,40％氯化乐果乳剂或80%敌敌畏乳剂1000倍液,均可收到良好效果。     

脐腹小蠹形态特征和生物学特性

脐腹小蠹Scolytus schevyrewi Seme.是榆树的一种重要蛀干害虫。本研究在宁夏盐池县通过室内观察和林间调查相结合,研究了脐腹小蠹的形态特征及其生活史、成虫寿命、习性、交尾行为等生物学特性。结果显示:脐腹小蠹虫在宁夏盐池县一年发生2代,以老熟幼虫或蛹越冬,老熟幼虫约占98.2%,蛹约占1.8%。越冬幼虫于5月上旬开始化蛹,5月中旬为化蛹盛期,5月下旬开始羽化,6月上旬为羽化盛期。第2代幼虫于6月底、7月初开始化蛹,7月下旬达羽化盛期,8月上旬羽化结束;脐腹小蠹雌成虫平均寿命为(27.14±3.74)d,雄成虫的平均寿命为(16.86±4.13)d,差异显著(P<0.05);此外,脐腹小蠹无滞育现象;脐腹小蠹的4种天敌,分别是榆小蠹长茧蜂Elachistocontrum sp.、虱形螨Pedieuloids ventricosus Newport、拟截斑郭公虫Thansimus sp.和蠼螋Labidura sp.。     

核桃长足象的生物学及其防治

核桃长足象AlcidodesjuglansChao在重庆城口县 1年发生 1代 ,以成虫在向阳处的杂草或表土 1cm处越冬。翌年 4月中旬开始活动 ,取食核桃嫩枝、幼芽、果实、叶柄 ,5月上旬在青果皮上钻孔产卵 ,5月中旬幼虫孵化后在果内蛀食 ,6月中旬开始在落果内化蛹 ,6月下旬开始羽化 ,成虫于 1 0月下旬开始越冬。 6月下旬至 7月下旬核桃大量落果时进行人工捡拾落果 2～ 3次 ,可控制核桃长足象危害落果85 %以上 ,大大降低其种群基数。 7月中旬成虫羽化盛期用从核桃长足象僵死成虫上分离获得的球孢白僵菌株 (剂 ) ,对该害虫有很强的致病性和专化性 ,其成虫的死亡率达 90 %以上 ,是一个有一定开发利用价值的菌株。     

多纹豹蠹蛾幼虫龄数测定

多纹豹蠹蛾Zeuzera multistrigata Moore属鳞翅目、豹蠹蛾科;是福建省沿海防护林的重要蛀干害虫,主要为害木麻黄Casuarina equsetifolia Linn.等10余种植物。对于蛀干性害虫幼期饲养测定方法及龄数的研究,难度较大,国内在这方面的工作做的不多;其幼虫龄数的测定,尚未见报道。我们于1985～1987年在     

Declining water yield from forested mountain watersheds in response to climate change and forest mesophication

Climate change and forest disturbances are threatening the ability of forested mountain watersheds to provide the clean, reliable, and abundant fresh water necessary to support aquatic ecosystems and a growing human population. Here, we used 76 years of water yield, climate, and field plot vegetation measurements in six unmanaged, reference watersheds in the southern Appalachian Mountains of North Carolina, USA to determine whether water yield has changed over time, and to examine and attribute the causal mechanisms of change. We found that annual water yield increased in some watersheds from 1938 to the mid‐1970s by as much as 55%, but this was followed by decreases up to 22% by 2013. Changes in forest evapotranspiration were consistent with, but opposite in direction to the changes in water yield, with decreases in evapotranspiration up to 31% by the mid‐1970s followed by increases up to 29% until 2013. Vegetation survey data showed commensurate reductions in forest basal area until the mid‐1970s and increases since that time accompanied by a shift in dominance from xerophytic oak and hickory species to several mesophytic species (i.e., mesophication) that use relatively more water. These changes in forest structure and species composition may have decreased water yield by as much as 18% in a given year since the mid‐1970s after accounting for climate. Our results suggest that changes in climate and forest structure and species composition in unmanaged forests brought about by disturbance and natural community dynamics over time can result in large changes in water supply.     

Host‐associated genetic differentiation in pecan leaf phylloxera

Host‐associated differentiation (HAD) is the formation of genetically distinct host‐associated populations. One of the genotypic signatures of HAD is that populations exhibit stronger differentiation by host‐plant species than by geographic isolation. HAD, as a mechanism promoting ecological speciation, has been invoked to explain phytophagous insect diversity. Two traits proposed to promote HAD are endophagy and parthenogenesis. Using amplified fragment length polymorphisms (AFLPs), we tested for the presence of HAD in pecan leaf phylloxera, Phylloxera notabilis Pergande (Hemiptera: Phylloxeridae), an endophagous, gall inducing, and cyclically parthenogenetic insect on sympatric pecan and water hickory at a geographic mesoscale. This species shows strong HAD. Whereas the effect of collecting site was significant, accounting for 7.3% of molecular variation, host‐plant species identity accounted for 63.5%. In addition, a choice test indicated that pecan leaf phylloxera originating from water hickory showed weak but significant preference for leaflets of the natal host, whereas pecan leaf phylloxera originating from pecan did not. This is the first such study of a species of arboreal Phylloxeridae, a poorly known insect group. This is also the first endophage and the second parthenogen shared by these two hickory species to show evidence of HAD. This hickory system could be a good parthenogen‐rich counterpoint to the goldenrod system in the study of HAD in insect communities.     

Differences in bacterial diversity of host-associated populations of Phylloxera notabilis Pergande (Hemiptera: Phylloxeridae) in pecan and water hickory

Host‐associated differentiation (HAD) is the presence of genetically divergent, host‐associated populations. It has been suggested that microbial symbionts of insect herbivores may play a role in HAD by allowing their insect hosts to use different plant species. The objective of this study was to document if host‐associated populations of Phylloxera notabilis Pergande (Hemiptera: Phylloxeridae) in pecan and water hickory corresponded with differences in the composition of their associated bacteria. To test this hypothesis, we characterized the symbionts present in P. notabilis associated with these two tree species through metagenomic analyses using 454 sequencing. Differences in bacterial diversity were found between P. notabilis populations associated with pecan and water hickory. The bacteria, Pantoea agglomerans and Serratia marcescens, were absent in the P. notabilis water hickory population, whereas both species accounted for more than 69.72% of bacterial abundance in the pecan population.     

Development of SSR Markers in Hickory (Carya cathayensis Sarg.) and Their Transferability to Other Species of Carya

Hickory (Carya cathayensis Sarg.), an important nut-producing species in Southeastern China, has high economic value, but so far there has been no cultivar bred under species although it is mostly propagated by seeding and some elite individuals have been found. It has been found recently that this species has a certain rate of apomixis and poor knowledge of its genetic background has influenced development of a feasible breeding strategy. Here in this paper we first release SSR (Simple sequence repeat) markers developed in this species and their transferability to other three species of the same genus, Carya. A total of 311 pairs of SSR primers in hickory were developed based on sequenced cDNAs of a fruit development-associated cDNA library and RNA-seq data of developing female floral buds and could be used to distinguish hickory, C. hunanensis Cheng et R. H. Chang ex R. H. Chang et Lu, C. illinoensis K. Koch (pecan) and C. dabieshanensis M. C. Liu et Z. J. Li, but they were monomorphic in both hickory and C. hunanensis although multi-alleles have been identified in all the four species. There is a transferability rate of 63.02% observed between hickory and pecan and the markers can be applied to study genetic diversity of accessions in pecan. When used in C. dabieshanensis, it was revealed that C. dabieshanensis had the number of alleles per locus ranging from 2 to 4, observed heterozygosity from 0 to 0.6667 and expected heterozygosity from 0.333 to 0.8667, respectively, which supports the existence of C. dabieshanensis as a separate species different from hickory and indicates that there is potential for selection and breeding in this species.     

粗毛栓菌(Trametes hirsuta) D2固态发酵山核桃蒲壳产漆酶的营养条件研究

【目的】为提高漆酶产量,降低生产成本,以山核桃蒲壳作为基质,对粗毛栓菌D2固态发酵产漆酶的营养条件进行研究。【方法】对不同碳源、氮源、碳氮比、蒲壳含量对漆酶产量的影响进行分析。【结果】山核桃蒲壳是粗毛栓菌生长的良好载体,能够促进漆酶的合成。粗毛栓菌D2漆酶固态发酵培养基干物质组成为:山核桃蒲壳40%(质量比),玉米粉24%(质量比),菜籽饼粉36%(质量比)。发酵6 d时,漆酶活性为126.8 U/g干基。【结论】粗毛栓菌固态发酵山核桃蒲壳产漆酶具有效率高,生产成本低的优点,具有潜在的工业化应用前景。     

Identification and profiling of conserved and novel microRNAs involved in oil and oleic acid production during embryogenesis in <Emphasis Type="Italic">Carya cathayensis</Emphasis> Sarg

MicroRNAs (miRNAs) are important regulators of plant development and fruit formation. Mature embryos of hickory (Carya cathayensis Sarg.) nuts contain more than 70% oil (comprising 90% unsaturated fatty acids), along with a substantial amount of oleic acid. To understand the roles of miRNAs involved in oil and oleic acid production during hickory embryogenesis, three small RNA libraries from different stages of embryogenesis were constructed. Deep sequencing of these three libraries identified 95 conserved miRNAs with 19 miRNA*s, 7 novel miRNAs (as well as their corresponding miRNA*s), and 26 potentially novel miRNAs. The analysis identified 15 miRNAs involved in oil and oleic acid production that are differentially expressed during embryogenesis in hickory. Among them, nine miRNA sequences, including eight conserved and one novel, were confirmed by qRT-PCR. In addition, 145 target genes of the novel miRNAs were predicted using a bioinformatic approach. Our results provide a framework for better understanding the roles of miRNAs during embryogenesis in hickory.     

The influence of winter temperatures on the annual radial growth of six northern range margin tree species

This study explores the influence of temperature on the growth of six northern range margin (NRM) tree species in the Hudson River Valley (HRV). The HRV has excellent geographic and floristic qualities to study the influence of climate change on forested ecosystems. Indices of radial growth for three populations per species are developed and correlated against average minimum and maximum monthly temperatures from 1897 to 1994. Only positive correlations to temperature are considered for this analysis. Principal component analysis (PCA) is performed on chronologies over the entire HRV and at four subregions. PCA reveals a strong common signal among populations at subregional and regional scales. January temperatures most limit growth at the ecosystem level, supporting the hypothesis that winter temperatures may control vegetational ecotones. Surprisingly, growth of the oak–hickory ecosystem is most limited by January temperatures only in the southern half of the study region. Chestnut and white oak are the primary species driving the geographic pattern. As winter xylem embolism is a constant factor for ring-porous species, snow cover and its interaction on fine root mortality may be the leading factors of the pattern of temperature sensitivity. Species-specific differences in temperature sensitivity are apparent. Atlantic white-cedar (AWC) and pitch pine are more sensitive to the entire winter season (December–March) while oak and hickory are most sensitive to January temperatures. AWC is most sensitive species to temperature. Chestnut and white oak in the HRV are more sensitive to winter temperature than red oak. Pignut hickory has the most unique response with significant relations to late growing season temperatures. Interestingly, AWC and pitch pine are sensitive to winter temperatures at their NRM while oak and hickory are not. Our results suggest that temperature limitations of growth may be species and phylogenetically specific. They also indicate that the influence of temperature on radial growth at species and ecosystem levels may operate differently at varying geographic scales. If these results apply broadly to other temperate regions, winter temperatures may play an important role in the terrestrial carbon cycle.     

Host‐associated differentiation in a pecan and water hickory Aphidomorpha community

Host‐associated differentiation (HAD) is the formation of genetically distinct, host‐associated populations created and maintained by ecologically mediated reproductive isolation. HAD potentially accounts for species origins in parasites, including herbivorous insects. Although case studies testing the occurrence of HAD are accumulating, it is still unclear how common HAD is and which specific ecological traits explain its occurrence. To address these issues, studies are needed that include negative results (i.e., instances in which parasite populations do not exhibit HAD) and test for HAD across communities (i.e., several parasite species on the same set of host species). In this study, HAD was tested in a community of six species of Aphidomorpha (Hemiptera) that share a host‐plant pair: pecan [Carya illinoinensis (Wangenh.) K.Koch] and water hickory [Carya aquatica (F.Michx) Nutt., both Juglandaceae] trees. All six species are parthenogenetic and three species are endophagous, traits that can exacerbate host‐specific selection. AFLP markers were employed to detect the presence of genetically distinct, host‐associated populations for each insect species. Strict HAD (i.e., the occurrence of genetically distinct pecan‐associated and water hickory‐associated genotypes) was found in Phylloxera notabilis Pergande (Phylloxeridae), Phylloxera devastatrix Pergande, and Monelliopsis pecanis Bissel (Aphididae). Monellia caryella Fitch (Aphididae) displayed a pattern of partial HAD (i.e., the occurrence of only a genetically distinct pecan‐associated genotype). No HAD was found in Melanocallis caryaefoliae Davis (Aphididae) or Phylloxera texana Stoetzel. The pattern of HAD occurrence in the pecan and water hickory Aphidomorpha community indicated that neither parthenogenesis nor endophagy sufficiently explain the occurrence of HAD in this system.     

Photosynthetic characteristics of leaves and fruits of Hickory (<Emphasis Type="Italic">Carya cathayensis</Emphasis> Sarg.) and Pecan (<Emphasis Type="Italic">Carya illinoensis</Emphasis> K.Koch) during fruit development stages

Key message

Fruit photosynthesis in both hickory and pecan significantly contribute to the carbon requirements of late growth stage (corresponding to seed development).

Abstract

Plant parts other than leaves can perform photosynthesis and contribute to carbon acquisition for fruit development. To determine the role of fruit photosynthesis in fruit carbon acquisition in hickory (Carya cathayensis Sarg.) and pecan (Carya illinoensis K.Koch), we studied changes in dry mass, surface area and CO₂ exchange rate in these fruits during fruit development. Fruit development was divided into two phases: phase one involves the rapid increase of fruit size (from 0 to 59 days after pollination (DAP) for hickory; from 0 to 88 DAP for pecan); phase two involves seed development (from 59 to 121 DAP for hickory; from 88 to 155 DAP for pecan). The net photosynthetic rate (P _n) in hickory leaves decreased by 48.5 % from 76 to 88 DAP, while the P _n in pecan leaves decreased by 32.3 % from 88 to 123 DAP. The gross photosynthetic rate (P _g) in hickory fruit was significantly greater than that of the leaf during the late stage (88 to 121 DAP) of fruit development. Pecan fruit had a significantly higher P _g than leaves during ontogeny. The contribution of fruit photosynthesis to fruit carbon requirements increased during fruit development, which was estimated by the gross fruit photosynthesis divided by respiration and increased dry mass. The contribution of fruit photosynthesis to pecan carbon requirements was significantly greater than that of hickory. Fruit photosynthesis in both hickory and pecan significantly contribute to the carbon requirements of late growth stage.

     

Effects of Different Chinese Hickory Husk Returning Modes on Soil Nutrition and Microbial Community in Acid Forest Soil

Chinese hickory (Carya cathayensis Sarg.) is an important economic forest in Southeastern China. A large amount of hickory husk waste is generated every year but with a low proportion of returning. Meanwhile, intensive management has resulted in soil degradation of Chinese hickory plantations. This study aims to investigate the effects of three Chinese hickory husk returning modes on soil amendment, including soil acidity, soil nutrition, and microbial community. The field experiment carried out four treatments: control (CK), hickory husk mulching (HM), hickory husk biochar (BC), and hickory husk organic fertilizer (OF). The phospholipid fatty acid (PLFA) biomarker method was employed to determine the soil microbial community. After one year of treatment, the results showed that: (i) HM and BC significantly increased soil pH by 0.33 and 1.71 units, respectively; (ii) HM, BC and OF treatments significantly increased the soil organic carbon, alkaline nitrogen, available phosphorous, and available potassium. The OF treatment demonstrated the most significant improvement in the soil nutrient; (iii) The soil microbial biomass significantly increased in the HM, BC and OF treatments, and all microbial groups showed an increasing trend. HM treatment increased the fungal/bacterial ratio (F/B). The OF treatment significantly decreased the Shannon-Wiener diversity (H’) and evenness index (J) of the microbial community (P < 0.05). Considering the treatments effects, costs, and ease of operation, our recommended returning modes of Chinese hickory husk are mulching and organic fertilizer produced by composting with manure.