Effects of Consecutively Monocultured Rehmannia glutinosa L.on Diversity of Fungal Community in Rhizospheric Soil

Continuous monoculture problems, or replanting diseases, are one of the key factors affecting productivity and quality of Chinese medicinal plants. The underlying mechanism is still being explored. Most of the studies on continuous monoculture ofRehmannia glutinosa L. are focused on plant nutritional physiology, root exudate, and its autotoxieity. However, the changes in the diversity of microflora in the rhizosphere mediated by the continuous monoculture pattern have been remained unknown. In this study, terminal restriction fragment length polymorphism （T-RFLP） technique was used for fingerprinting fungal diversity in the rhizosphere soil sampled from the fields ofR. glutinosa monocultured for 1 and 2 yr. The results showed that the structure of fungal community in consecutively moncultured rhizosphere soil was different from that in control soil （no cropping soil）, and varied with the consecutive monoeulture years （1 and 2 yr）. The comprehensive evaluation index （D） of fungal community estimated by principal component analysis of fragment number, peak area, Shannon-Weiner index, and Margalef index was higher in 1 yr monoculture soil than that in 2 yr monoculture soil, suggesting that consecutive monoculture of R. glutinosa could be a causative agent to decrease the diversity of fungal community in the rhizosphere soil.

Carbon Return and Dynamics of Litterfall in Natural Forest and Monoculture Plantation of Castanopsis kawakamii in Subtropical China

The amount of carbon returned through litterfall and its seasonal pattern were studied in a natural forest of Castanopsis kawakamii (NF) and adjacent monoculture plantations of C. kawakamii (CK) and Chinese fir (Cunninghamia lanceolata) (CF) in Sanming, Fujian Province, China. Mean annual carbon return through total litterfall over 3 years (from 1999 to 2001) was 5.097 t穐m2 in the NF, 4.337 t穐m2 in the CK and 2.502 t穐m2 in the CF respectively. Of the total carbon return in the three forests, leaf contribution accounted for 58.96%, 68.53% and 56.12% and twig 24.41%, 22.34% and 26.18%, respectively. The seasonal patterns of carbon return from total litterfall and leaf-litter were quite similar among the three forests. A peak of carbon input from litterfall in the NF and the CK occurred in spring except for the highest annual C return through branch litter of the NF in summer, while the CF showed the maximum C return in summer. The results of this study demonstrate that the natural forest has a greater C return through litterfall than monoculture plantations, which is beneficial to the increase of soil organic matter storage and the maintenance of soil fertility.

Impact of Continuous Chinese Fir Monoculture on Soil

Soil properties were investigated in sites where three succeeding generationsof Chinese fir (Gunning-hamia lanceolata, (Lambert) Hooker) in Nanping, Fujian, China, werecultivated in order to show the impact of a repeated monoculture on site productivity. Compared withthe first generation (FG) stand the soil structure deteriorated in the second generation (SG) andthe third generation (TG) stands. For instance, the destruction rate of the peds increased by 55%-115% in the SG and the TG stands compared to the FG stand. Soil nutrient storage and nutrientavailability also decreased in the SG and the TG stands. For surface soils of 0-20 cm, the organicmatter content, total N and P, and available N and P decreased by 3%-20% relative to those in the FGstand. For many soil parameters, the differences between the FG stand and the SG and the TG standswere statistically significant (LSD test, P < 0.05). Furthermore, with each succeeding generation ofChinese fir, the total number of soil microbes declined, the soil enzyme activity weakened, and thesoil biological activity decreased. In order to maintain sustainable site productivity, newsilvicultural practices need to be developed for management of Chinese fir plantations.

Comparing growth and fine root distribution in monocultures and mixed plantations of hybrid poplar and spruce

Disease prevention, biodiversity, productivity improvement and ecological considerations are all factors that contribute to increasing interest in mixed plantations. The objective of this study was to evaluate early growth and productivity of two hybrid poplar clones, P. balsamifera x trichocarpa （PBT） and P. maximowiczii x balsamifera （PMB）, one improved family of Norway spruce （Picea glauca （PA）） and one improved family of white spruce （Picea abies （PG）） growing under different spacings in monocultures and mixed plots. The plantations were established in 2003 in Abitibi-Témiscamingue, Quebec, Canada, in a split plot design with spacing as the whole plot factor （1 × 1 m, 3 × 3 m and 5 × 5 m） and mixture treatments as subplot factor （pure： PBT, PMB, PA and PG, and 1：1 mixture PBT：PA, PBT：PG, PMB：PA and PMB：PG）. Results showed a beneficial effect of the hybrid poplar-spruce mixture on diameter growth for hybrid poplar clones, but not for the 5 × 5 m spacing because of the relatively young age of the plantations. Diameter growth of the spruces decreased in mixed plantings in the 1 × 1 m, while their height growth increased, resulting in similar aboveground biomass per tree across treatments. Because of the large size differences between spruces and poplars, aboveground biomass in the mixed plantings was generally less than that in pure poplar plots. Leaf nitrogen concentration for the two spruce families and hybrid poplar clone PMB was greater in mixed plots than in monocultures, while leaf nitrogen concentration of clone PBT was similar among mixture treatments. Because of its faster growth rate and greater soil resources demands, clone PMB was the only one showing an increase in leaf N with increased spacing between trees. Fine roots density was greater for both hybrid poplars than spruces. The vertical distribution of fine roots was insensitive to mixture treatment.

What is the value of eucalyptus monocultures for the biodiversity of the Atlantic forest? A multitaxa study in southern Bahia, Brazil

Eucalyptus plantations are increasing in Brazil, frequently replacing pastures, but there is still scarce information about its capacity to maintain the fauna of neighbor forest remnants. In this study, we compared descriptors of the communities of leaf litter organisms （lizards, anurans, myriapods, arachnids, orthopterans, coleopterans, and ants） between a large remnant of primary Atlantic Forest and an adjacent eucalyptus monoculture （phase 1）. Then, we compared the same descriptors for leaf litter lizards and anurans, Euglossini bees, and frugivorous butterflies among the largest remnant, small remnants at intermediate regeneration stage, and eucalyptus monocultures that were not adjacent to the largest remnant （phase 2）. Monocultures were sampled immediately before logging. In phase 1, we detected significant differences in structure between the forest and the monoculture in six out of seven communities sampled. Ca. 81% of the species of the landscape were recorded in the forest, but only 54% of these were found also in the monoculture. In phase 2, the structure of two out of four forest communities was significantly different from the structure of small remnants and monocultures. On average, 76% of the species found in the whole landscape were sampled in the forest. Out of this subset, on average 74% of the species were also sampled in small remnants and 68% in monocultures. Findings of the present study point out a moderate capacity of eucalyptus monocultures to harbor species of the forest fauna even when fully grown but highlights the opportunity that they might offer for increasing connectivity in anthropogenic forest landscapes depending on their management.

The effects of teak monoculture on forest soils: a case study in Bangladesh

Teak plantations date back to 1871 in Bangladesh. This study was designed to assess how teak monoculture has impacted the soil properties in Bangladesh. Multiple linear regression and correlation matrices were estimated to evaluate these impacts. The means of soil physicochemical properties were compared across various attributes of the plantations. Older plantations accumulated more organic carbon in the soils than the younger plantations. Excessive removal of litter from the forest floor resulted in reduced levels of N, P, K, and other nutrients in the soils. Since bulk density was continuously decreasing deeper into the soil, the penetration of mineral nutrients into the soil was low. Furthermore, moisture content in the topsoil was significantly lower than that in the bottom layers due to the exposed and dry condition of the forest floor under teak plantations. For improving depleted teak plantation soils, teak could be planted with other tree species rather than just in monocultures. In addition, the forest floor could be enriched with leguminous herbs and shrubs to improve soil health in these plantations.

Soil quality index as a tool for Scots pine(Pinus sylvestris) monoculture conversion planning on afforested,reclaimed mine land

In Central Europe, a large portion of post-mining sites were afforested with Scots pine, which is characterized by good adaptability and a tolerance for poor habitat at the beginning of forest ecosystem development. Conversion of monoculture on mine sites into more biodi- verse mixed hardwood forests, especially on more fertile deposits, can be an emerging need in this part of Europe in next decades. The ability to classify the forests at these post-mining sites will facilitate proper species selection as well as the management and formation of the developed ecosystem＇s stability. This work describes the guidelines that can be followed to assess reclaimed mine soil （RMS） quality, using the mine soil quality index （MSQI） and a classification of developed forest sites as a basis of tree-stand species selection and conversion of pine monocul- tures. The research was conducted on four post-mining facilities （lignite, hard coal, sulphur, and sand pit mining areas） on different RMS sub- strates dominant in Central Europe. Soil quality assessment takes into account the following features of the soil： texture soil nutrients （Ca, Mg, K, Na, P）; acidity （pH KC1）; and Corg-to-Nt ratio in the initial organic horizon. An analysis was conducted of classification systems using the MSQI validation correlation （at p =0.05） with vegetation features af- fected by succession： aboveground biomass of forest floor and ecological indicators of vascular plants （calculated on the basis of EUenberg＇s （2009） system）. Eventually, in the analysed data set, the MSQI ranged from 0.270 for soils on quaternary sands to 0.720 for a mix of quaternary loamy sands with neogene clays. Potential forest habitat types and the role of the pine in the next generation of tree stands on different RMS parent rock substrate were proposed.

根茎类药用植物连作障碍研究进展

在根茎类药用植物集约化种植中,长期连作引起的植株生长不良、产量下降和品质降低等连作障碍问题,已成为制约我国中药材产业发展的重要因素。为缓解根茎类药用植物的连作障碍,促进根茎类药用作物的产业发展,本文综述了根茎类药用植物连作障碍的成因,并概括总结了消除连作障碍的措施。根茎类药用植物连作障碍成因十分复杂,包括植物的化感作用、土壤理化性质恶化、土壤酶活性改变和土壤中致病菌增加等,这些因素单独作用或共同作用。目前常用的消减技术措施包括:筛选耐重茬抗病新品种、合理轮作间作、土壤强还原处理、土壤蒸汽消毒和施加生物炭等物理措施、使用氯化苦、威百亩、棉隆和噻唑膦等化学农药,以及利用微生物菌剂如芽孢杆菌、哈茨木霉和淡紫拟青霉等调节土壤微生物群落并抑制有害微生物等。其中,利用微生物菌剂消减连作障碍是近年来的研究热点之一,但由于连作障碍涉及根系、土壤和微生物等诸多因素,采取综合防控措施才能有效消减连作障碍。最后从选育抗病性强、耐连作的优质新品种、进一步探索适宜的轮作间作模式和提高病原菌拮抗微生物稳定性等方面,对我国根茎类药用植物连作障碍的研究方向进行了展望。

农牧交错带施氮条件下大豆和玉米间作产量及其混合青贮品质

为探讨在农牧交错带施氮量对间作模式下农艺性状、作物产量以及混合青贮品质的影响,本研究以玉米(Zea mays)和大豆(Glycine max)间作系统为研究主体,采用二因素随机区组设计,主因素设玉米和大豆间作(M2S3)、玉米单作(MM)、大豆单作(SS)3种种植模式,副因素设0(N_(1))、150(N_(2))和300 kg·hm_(−2)(N_(3))3个施氮水平。结果表明:1)施氮能改变大豆的农艺性状和产量,平均比不施氮鲜草产量增加12.97%~14.79%,大豆间作对株高、底荚高、主茎节数有显著影响(P<0.05)。施氮有利于提高玉米的株高、穗位高、茎粗和产量,间作模式对玉米茎粗和干草产量有显著的影响,对株高和穗位高没有显著影响(P>0.05),减量施氮可以达到常量施氮同样的结果。2)施氮极大地改善了混合青贮的粗蛋白含量,平均比不施氮增加6.36%~6.63%,粗脂肪含量平均比不施氮增加7.11%,对粗灰分和淀粉含量没有产生显著影响,酸性洗涤纤维和中性洗涤纤维含量在施氮处理下出现下降的趋势,各营养成分在N_(2)处理下达到更好的效果。从农艺性状、产量及营养品质综合分析,推荐间作模式下施氮量为150 kg·hm^(−2)最适宜大豆和玉米对氮素的需求,大豆和玉米混合青贮按4꞉6和2꞉8的比例能够更好地为农牧交错带高产高效栽培和优质饲料提供理论依据。

黑斑蛙不同放养密度对稻蛙共作水稻生长性能的影响

开展了黑斑蛙不同放养密度对稻蛙共作水稻生长性能的影响试验。分别于水稻的返青期、分蘖期、抽穗期、成熟期,测量水稻株高、分蘖数、叶绿素含量和净光合速率等指标。设置水稻单作(RM)、稻蛙共作(RF)2种模式。黑斑蛙蝌蚪设置11个处理组,分别为RF5、RF6、RF7、RF8、RF9、RF10、RF11、RF12、RF13、RF14和RF16,对应投放密度为每667 m25万、6万、7万、8万、9万、10万、11万、12万、13万、14万和16万尾。结果表明,稻蛙共作模式的水稻株高、分蘖数、叶绿素相对含量以及净光合作用速率,均显著高于水稻单作模式,黑斑蛙蝌蚪投放密度为每667 m28万尾处理组的水稻株高、分蘖数、叶绿素相对含量以及净光合速率,显著高于其他处理组。指出,黑斑蛙蝌蚪每667 m28万尾为最佳投放密度,可以作为贵州山区稻蛙共作生态种养模式推广应用的参考投放密度。

套作玉米对华中五味子幼苗生长及根际土壤微生物群落的影响

玉米套作如何影响华中五味子(Schisandra sphenanthera Rehd.et Wils)幼苗生长及根际微生物群落结构尚不清楚。本研究通过大田试验将华中五味子与玉米套作,探究套作对华中五味子植株生物量的影响,并使用高通量测序技术对华中五味子根际土壤的细菌、真菌群落结构进行测定。结果表明,套作增加华中五味子生物量(茎长、地径、地上部分干质量、地下部分干质量)。此外,和单作相比,与玉米套作显著改变了华中五味子土壤微生物群落结构,且提高了部分与华中五味子生物量呈正相关根际促生菌如Pseudomonas(假单胞菌)、Gaiella、Kotlabaea等的丰度。且这些与华中五味子呈正相关的细菌、真菌受氮、磷、铝等及部分微量元素调控。本研究将为华中五味子幼苗管理提供候选方案及相关理论依据。

林下种植重楼和珠子参后土壤细菌结构与功能变化

为探索不同植被下土壤细菌群落构成和功能差异及其与土壤因子的关系,采用高通量测序,对移栽重楼和珠子参根际及原始林地土壤细菌进行16SrRNA测序。结果表明,重楼根际土壤的Chao1和ACE指数显著高于原始林地土壤。Simpson和Shannon指数与土壤因子的相关性不显著,Chao1和ACE指数与EC、WC、TP、MBC、MBP、AP呈显著正相关,与AK、MBC:MBP、NiR、SUC呈显著负相关。变形菌门和酸杆菌门在原始林地土壤中丰度最高,拟杆菌门在重楼根际土壤中丰度最高,厚壁菌门在珠子参根际土壤中丰度最高。KEGG分析发现,原始林地土壤在细胞过程、环境信息处理、遗传信息处理与代谢等4个一级功能层面均有丰度较高的基因,重楼根际土壤中丰度较高的基因主要位于代谢层面,而珠子参根际土壤则是遗传信息处理层面的个别基因丰度较高,和KEGG功能基因丰度具有较高相关性的土壤因子与调控Chao1和ACE指数的土壤因子较为类似,说明细菌群落组成与基因功能紧密相关。此外,重楼和珠子参根际土壤均表现出次生盐渍化和温室气体排放增强的现象。

一年一作玉米产量性状和籽粒灌浆特性对播期的响应及其与气象因子的关系

本文通过研究限水灌溉条件下,播期对一作玉米产量、产量性状和籽粒灌浆特性的影响及阶段气象因子与产量、产量性状及灌浆参数的相关关系,探讨播期对一年一作玉米产量的影响机制,为低平原区玉米高产高效生产提供数据支撑。试验采用‘先玉335’和‘郑单958’两个玉米品种,设置5个播期:5月5日(SD_(1))、5月20日(SD_(2))、6月5日(SD_(3))、6月20日(SD_(4))和6月30日(SD_(5))。结果表明:1)播期对产量影响显著,且受品种和年型综合影响。随播期的延后,产量呈先增加后降低的趋势,两年平均以SD_(1)产量最低,SD_(4)产量最高,SD_(3)和SD_(4)间产量差异不显著。SD_(4)产量高的主要原因是穗粒数和百粒重较高。2)通径分析表明,产量要素对产量的贡献相互影响,其中对产量直接作用最大的是百粒重。3)采用Logistic模型研究粒重变化特征(R^(2)>0.98,P<0.01),粒重的大小由平均灌浆速率(V)和灌浆持续期(D)的乘积决定,其中D对粒重的直接贡献最大。4)从气象因子对产量和百粒重的影响来看,播种到吐丝的日平均气温(T_(Avsf))越高,吐丝到成熟的日均温差(TR_(Avfm))越大,产量越高;吐丝后10 d≥35℃的天数(D_(1)fa)越多,吐丝到成熟的日均气温(T_(Avfm))越高,产量和百粒重越低;其中T_(Avfm)对产量和百粒重的直接贡献最大,且各气象因子对产量和百粒重的作用相互影响。SD_(1)粒重较低的主要原因是T_(Avfm)高、TR_(Avfm)小,且D1_(fa)高,D较短。SD_(3)和SD_(4)粒重较高的主要原因是TRAvsf较大,V、D较高。SD_(5)虽然TR_(Avfm)较大,但因T_(Avfm)较低,总体D缩短,最终粒重降低。5)从品种来看,‘先玉335’较‘郑单958’产量高的主要原因是穗粒数和百粒重高,且‘先玉335’的V和V×D分别较‘郑单958’高0.19 mg∙grain^(−1)∙d^(−1)和0.73 mg∙grain^(−1)∙d^(−1)。这说明选用产量潜力大、灌浆速率高的品种,在6月上旬到6月中下旬播种可优化生育期气象要素,进而提高粒重和产量。

两种池塘养殖模式下异育银鲫(Carassius auratus gibelio)的形质特征差异分析

探究引起银鲫在不同养殖模式下的形质差异原因及形质饰变途径和机制,进而揭示养殖模式致其改变生存对策的内在逻辑,对于指导银鲫养殖模式的改进与优化具重要现实意义。随机选取池塘生态主养模式(M_(1))和池塘生态套养模式(M_(2))下经7个月养殖的异育银鲫夏花苗种各70尾为研究对象,采用主成分分析和判别分析方法,系统开展了两种池养模式下异育银鲫形质差异研究,结果表明:(1)池养期间两实验群体的生长速度总体上呈M_(2)>M_(1),在21项生物学表型性状中,M_(2)实验群体显著大于M_(1)实验群体的为L1(体长)、L4(头宽)、L11(肛后体长)和NM (净体质量)(P<0.05);(2)所涉20项形质评价性状中, M_(1)、M_(2)实验群体间具显著差异(P<0.05)的高达16项,聚类分析也指示两者间的欧式距离已达到显著水平(P<0.05),即M_(1)、M_(2)实验群体已在形质特征上出现显著分化;(3)经主成分分析,提取到的5个特征值均大于1的主成分,其累积贡献率达80.844%,其中PC1可归纳为表征机体消化代谢水平的公共因子, PC_(2)可归纳为表征脏器可容纳空间几何比例的公共因子, PC_(3)、PC_(4)和PC5可统归为表征食物获取方式的公共因子;(4)采用逐步判别法,以判别贡献率较大的眼间距/侧线长、净重系数、肝系数、胃系数、肠系数、鳃系数和Fulton指数为自变量,所建Fisher分类函数方程组可较清晰区分M_(1)和M_(2)实验个体,其中M_(1)实验群体的判别准确率P1、P2分别为98.6%和94.5%, M_(2)实验群体则分别为94.3%和98.5%,两实验群体的综合判别准确率为96.4%。所得结果可为异育银鲫池塘生态主养模式和生态套养模式的改良与优化提供科学依据。

针阔凋落叶混合分解过程中土壤动物群落结构变化特征

为了探明混合凋落叶分解过程中土壤动物的群落结构特征,以马尾松、檫木、香樟以及香椿凋落叶为试验对象,分析35种不同处理凋落叶分解过程中土壤动物的群落变化特征。研究发现:2 a分解时期(8次采样)共采集到土壤动物29614头,隶属于6门16纲39目92科。优势类群有为跳虫科、耳叶蝉科和跗线螨科。所有处理凋落叶中土壤动物以杂食性为主,其次是腐食性和植食性,捕食性占比最低。大部分混合凋落叶(51.61%~70.97%)的土壤动物密度表现出协同效应,而土壤动物多样性指数仅在第1年的11月(秋季)和8月(夏季)表现出较强的协同效应(70.97%和64.52%)。31个混合处理中,在马尾松+香椿、马尾松+檫木+香樟、马尾松+檫木+香椿和马尾松+香樟+香椿组合中阔叶占40%时,土壤动物密度在每年的5和11月均为协同效应,马尾松+檫木+香椿(PST631处理)的土壤动物多样性指数在6个分解时期类均表现出协同效应。可见,将马尾松和檫木以及香椿凋落叶按照针叶和阔叶6∶4混合后,不仅能提高土壤动物的数量,同时也能提高土壤动物的多样性。

稻-鱼种养减控镉及米、鱼性状研究

如何在重金属镉(Cd)超标的土壤中生产出质量达标米已成为亟需解决的问题。为探讨稻-鱼种养对大米Cd积累的减控效果,本研究建立了稻(喜两优超占)-鱼(合方鲫2号)种养系统,比较了稻-鱼共作系统和水稻单作系统中环境介质、米、鱼等Cd含量,以及米、鱼的生物学性状。结果显示,稻-鱼共作合方鲫2号平均体重为331.7 g,相比鱼种增重1.7倍。不同种养系统大米的营养品质无显著差异。稻田土壤总Cd平均含量为0.472 mg/kg(pH=5.5),略高于污染临界值0.40 mg/kg(5.5≤pH≤6.5),不同种养系统土壤总Cd含量与土壤pH无显著差异。合方鲫2号内脏虽有少量Cd积累[(0.060±0.032)mg/kg],但肌肉Cd含量很低(<0.003 mg/kg)。水稻单作大米Cd平均含量为0.311 mg/kg,达到国家粮食安全标准限定值的1.6倍。稻-鱼共作大米Cd平均含量仅0.034 mg/kg,较水稻单作大米Cd含量下降89.1%,水稻单作大米Cd含量与土壤总Cd含量呈极显著正相关(r=0.802),而稻-鱼共作系统则无该显著相关性。研究表明,合方鲫2号是适合稻-鱼种养的好品种,以此为养殖品种可以建立完善的稻-鱼综合种养模式,该种模式能有效抑制土壤Cd的生物活性,对大米Cd积累有显著的减控效能,且经济效益显著。本研究为稻-鱼等生态种养综合生产模式的推广应用提供了重要数据支撑和参考。

马尾松红锥纯林及混交林土壤理化性质研究

为探明马尾松、红锥纯林和混交林土壤理化性质差异,为南亚热带地区马尾松-红锥混交人工林经营提供科学依据。以马尾松和红锥纯林及其混交林为对象,研究了不同林分和土层深度容重土壤理化性质的差异。结果表明:马尾松和红椎纯林及其混交林间土壤理化性质均存在显著差异(P<0.05),其中马尾松纯林土壤容重显著高于红椎纯林及其混交林,而混交林持水能力和孔隙度显著高于纯林。3种林分土壤pH值均为强酸性,有机质含量为二级标准,土壤pH值和有机质含量均在混交林中最高。全氮、全磷和全钾含量在纯林中显著高于混交林,而碱解氮、有效磷和有效钾含量均在混交林中最高,其中土壤氮素表现为丰富等级,而有效磷和速效钾含量表现出缺乏或极缺乏等级。混交林能够显著降低土壤的酸性,提高养分有效性和土壤肥力;能够显著改善土壤物理性质,促进微生物活动和营养元素分解,提高土壤的保肥性和缓冲性。混交林土壤结构、透气性、透水性、导热性、紧实度以及保水能力显著高于纯林。土壤的氮磷钾现实供应能力显著高于纯林,混交林更有利于土水源涵养和水土保持。

Effect of light and nutrients on interspecific interactions between submerged macrophytes:implications for restoration of multispecies aquatic vegetation in eutrophic lakes

Constructing multispecies submerged vegetation systems and maintaining stable seasonal succession is crucial for restoring shallow eutrophic lakes.However,little is known about the interactions between successional and existing species of different growth forms,particularly under the low light and high nutrient conditions of eutrophic lakes.We measured the functional traits of mature Vallisneria natans(Lour.)Hara plants and Potamogeton crispus L.shoots in monoculture and mosaic patterns under different light and nutrient conditions.The effect of light on functional traits of the submerged macrophyte species was more significant than that of nutrients,but the reverse was true for P.crispus biomass allocation.Moreover,interspecific interactions affected only the submerged macrophytes under the low light condition and varied with species.Specifically,the interaction of P.crispus to V.natans was biased towards competition,while the interaction of V.natans to P.crispus was converted from facilitation to competition by eutrophication,particularly in the homogenous mosaic growth pattern.This study demonstrates that sufficient light is a prerequisite and patch planting is an effective means to form a multispecies submerged vegetation system.In addition,we emphasize that the coexistence of eutrophication and low light will likely result in a competition between submerged macrophytes thus simplifying the vegetation,even if their growth forms and growing seasons are different.These findings help explain the collapse of multispecies submerged vegetation and guide the restoration of aquatic plants in eutrophic lakes.

稻田养鱼的综合效益分析——以贵州省黄平县重安镇下翁细村为例

以贵州省黄平县重安镇下翁细村为例,分析稻田单作和稻田养鱼模式的综合效益,基于实地调查的数据,运用综合效益量化评价方法,将经济、能量和生态效益3个方面归一化,对水稻单作和稻田养鱼2种模式进行综合效益量化评价,并与其他地区进行对比,分析其差距。结果表明:下翁细村稻田养鱼模式的综合评价指数为0.86,大于水稻单作模式(0.41),说明在当地适合发展稻田养鱼模式。下翁细村稻田养鱼模式的综合效益优于水稻单作模式,然而与浙江省青田县的稻田养鱼模式相比,下翁细村的稻田养鱼模式能量转化率较低,生态效益和经济收益也较差,在带动经济增长、生产管理和规范施用肥料方面有待进一步提升。

马铃薯/玉米套作对马铃薯品种光合特性及产量的影响

以马铃薯品种中薯5号(早熟,株型直立)和米拉(中晚熟,株型扩散)单作为对照,在大田条件下,调查马铃薯/玉米套作模式中2个品种光合指标的变化、块茎形成期至块茎增长期不同叶位气体交换参数的变化,分析光合指标对产量的影响。结果表明,整个生育期马铃薯叶绿素含量(Chla+Chlb)套作高于单作,叶面积指数(LAI)、比叶重(SLW)和叶绿素a/b值(Chla/b)套作低于单作。从块茎形成期至块茎增长期,群体光合有效辐射(PAR)、水分利用效率(WUE)、气孔限制值(Ls)呈下降趋势,净光合速率(Pn)、气孔导度(Gs)、胞间二氧化碳浓度(Ci)、蒸腾速率(Tr)呈上升趋势。PAR、Pn、Gs、Tr均随叶位的降低显著下降,套作下降幅度低于单作。套作中、下层叶片Pn的下降受气孔因素和非气孔因素限制。套作降低了马铃薯上层叶Pn,提高了中、下层叶Pn。套作中薯5号的Chla+Chlb生育前期高于米拉,生育后期低于米拉,SLW则相反;LAI和Chla/b整个生育期高于米拉。套作中薯5号上层叶PAR高于米拉,中、下层叶PAR低于米拉;套作中薯5号上层叶Pn与米拉相近,中、下层叶Pn高于米拉;各层叶WUE、Ls高于米拉,Gs、Ci、Tr低于米拉。总之,套作改变了马铃薯的光合特性,并显著降低了马铃薯块茎产量;套作恶化了中薯5号/玉米复合群体的光环境,改善了米拉/玉米复合群体的光环境,米拉/玉米套作体系土地当量比(1.40)大于中薯5号/玉米体系(1.24),显示了较强的套作优势,宜在生产中优先推广。