施肥对桉树生长及植株营养效应的研究

本研究在雷州半岛贫瘠的砖红壤上进行．施用基肥可提高尾叶桉材积的生长量,直至4年时仍有极显著的效应．最佳施肥处理比不施肥材积肥材积增长315％基肥的施用以氮、磷、钾配施效果课最好．施PK、NK、NP的材积分别只有NPK全肥的67％、42％和28％。本试验不同处理中,最佳配比是每株N15g、P30g、K30g．施用一定量的N、P、K可改善植株的养分状况．过量施用反而不利N、P、K的正常吸收．破坏养分平衡．     

滨海沙地不同林龄尾巨桉内吸收率及其C:N:P化学计量特征

以4年生、8年生、13年生尾巨桉林为研究对象,测定并计算其鲜叶、凋落叶和表层土壤的养分含量、内吸收率及碳氮磷化学计量比(C:N:P).结果显示:叶片C、N、P含量变化范围分别为486.0-508.56、13.31-15.46、0.60-0.84 mg/g,凋落物为462.55-499.9、8.20-11.51、0.29-0.51 mg/g,土壤为1.87-2.78、0.17-0.33、0.12-0.18 mg/g;植物C、N、P含量显著高于土壤,不同林龄间叶片C、N含量差异显著(P0.05),叶片、凋落叶P含量差异均极显著(P0.01);尾巨桉N、P内吸收率分别为31.37%、42%,P内吸收率大于N内吸收率;叶片重吸收效率表现出了随林龄增大而呈下降的趋势,且不同林龄尾巨桉N:P16.研究结果表明该地区尾巨桉的生长限制因子为P元素,有助于为滨海沙地人工纯林植物群落制定合理的营林规划、施肥评估标准提供依据.     

模拟酸雨对华南典型树种生长及营养元素含量的影响

我国是世界上的第3大酸雨区,而华南地区是我国酸雨比较严重的地区之一。越来越严重的酸雨将对森林生态系统林木生长产生负面影响。本文采用盆栽试验模拟研究酸雨对华南典型树种尾叶桉和马尾松幼树生长及营养元素含量的影响。酸雨水平有4个:pH6.8(CK)、pH5、pH4和pH3。幼树生长期间观察并记录其酸雨受害症状,每隔10a测量一次树高,4个月后统计生物量、叶面积情况,并分析植株样品中的N、P、K、Ca、Mg等元素的质量分数。试验结果表明,在不同酸度酸雨的协迫下,尾叶桉和马尾松幼苗表现出不同程度的受害症状,酸度越高受害越严重。酸雨显著地抑制尾叶桉和马尾松的树高生长,降低幼苗生物量,减少叶面积生长。与对照相比,生长四个月后,pH5、pH4和pH3处理分别导致尾叶桉生物量降低10.79%、19.21%和27.25%,马尾松降低12.78%、22.98%和28.70%。尾叶桉植株内P、Mg、Ca质量分数不同程度地受到酸雨的影响,而N、K质量分数不受酸雨影响;马尾松除了P元素以外,其它元素质量分数在各个酸雨处理之间差异不显著。     

尾叶桉营养元素动态和循环分析

在福建平和天马林场，对尾叶桉生长过程中营养元素的动态变化进行了为期5a的研究。结果表明，尾叶桉平均每年胸径增长2.46cm，树高增长2.50m，枝，叶，干（干村和干皮）和根中5种主要营养元素的总量（N＋P＋K＋Ca Mg)分别为17.11gKg^-1，33．38gKg^-1，9．66gKg^-1和12．75gKg^-1，平均每年吸收5种主要营养元素量338．31kghm^-2a^-1,平均每年纯吸收5种主要营养元素量188．21hm^-2a^-1，平均每年归还5种主要营养元素量150．10hm^-2a^-1，平均循环率为44．37％。表4参6     

酸性土壤改良对不同种源的柚木生长的影响

在强酸性土壤上，柚木不能正常生长；用石灰、有机肥和复合肥改良土壤后．树木生长正常，但如不继续追肥．生长将显著下降；7794、8508号种源的柚木在改良后的土壤上生长最好；7794．8508和3054号种源的柚木表现出对酸性土壤有一定的抗性；来自同一种源的个体之间存在着显著的生长差异．     

紫色红壤施肥对尾叶桉生长的影响

在紫色砂岩发育的严重侵蚀红壤上,开展尾叶桉施肥试验。结果表明,ＮＰＫ复合肥的施用,明显地促进了尾叶桉的生长,但在未加人微量元素肥料的情况下,表现出明显的微量元素缺乏病症,致使尾叶桉分生组织畸变,上部枝条折断,成丛生状,顶端优势不明显。２０个月生时,ＮＰＫ＋微肥处理的树高和胸径,与ＮＰＫ处理的相比较,分别提高５４．３％和１０４．９％,是对照无肥处理的３．６４倍和１．５８倍,表现出极显著的微量元素施肥效果。     

小青菜对不同施肥模式的响应及其生态化学计量学特征

在大田小区试验条件下,研究了小青菜(3茬)对不同施肥模式的响应及其生态化学计量学特征.试验共设5个处理:不施肥对照、有机无机肥配施模式1(含氨基酸肥料)、有机肥施肥模式、无机肥施肥模式和有机无机肥配施模式2.结果表明,与其他处理相比,有机无机肥配施模式1能够提高小青菜产量,光合速率,可溶性总糖、蔗糖、维生素C和游离氨基酸含量,且这些指标与其地上部C/N和C/P比值之间存在显著正相关关系,而与施肥模式所提供肥料中C/N和C/P比值之间存在正相关趋势,但相关性未达显著水平.此外,有机无机肥配施模式1能够降低小青菜地上部硝酸盐含量,且该指标与其地上部和施肥模式所提供肥料中N/P、C/N、C/P和P/K比值之间均不存在相关关系.可见,在田间试验条件下,有机无机肥配施模式1能够促进小青菜地上部生长,改善小青菜品质;合理搭配肥料可提高小青菜的光合固碳能力,进而提高小青菜体内C/N、C/P比值,有利于提高小青菜的产量和品质.     

氮磷喷施对刨花楠叶片养分再吸收效率的影响

为了解根外追肥对常绿阔叶树种养分再吸收的影响,以7.5年生刨花楠(Machilus pauhoi,MP)人工林为研究对象,设置不同的氮(N)、磷(P)梯度对叶片进行根外追肥,并分别于6月、9月、12月对成熟新叶与衰老叶进行采样,测定其N、P含量,计算其N、P再吸收效率;采用双因素方差分析法分析不同喷施处理与不同季节对刨花楠叶片N、P再吸收效率的影响.结果表明:(1)除低N且N、P配施与中N且N、P配施处理外,其余N、P喷施处理对刨花楠叶片N、P再吸收效率有显著影响(P<0.05);同一处理组内刨花楠在不同季节,其叶片N、P再吸收效率也存在显著差异(P<0.05)(单施P除外);(2)生长旺季时叶面喷施N肥能够促进叶片对P元素的吸收,叶面喷施P肥能够促进叶片对N元素的吸收;N、P再吸收效率之间呈显著正相关(P<0.05);(3)叶片在衰老过程中存在明显的N再吸收现象.可见不同喷施处理对于不同季节的叶片N、P再吸收效率的影响机制不同.本研究结果可为探讨亚热带珍稀常绿阔叶树种养分循环利用以及贫瘠立地环境植物养分保存机制等提供理论依据.     

不同农业施肥制度对红壤稻田土壤磷肥力的影响

采用田间定位试验研究了几种不同农业施肥制度对红壤稻田土壤磷肥力的影响．结果表明：（1）在移耕农业、施化学N肥和NK胆施肥制下，农田系统磷素亏缺量大，7年间达140mg/hm2以上，土壤有效磷降低；（2）有机农业和施化学P肥施肥制可促进农田系统磷素平衡，改善土壤供磷状况，提高稻株含磷量和磷累积量；（3）在有权无机结合施肥制下，农田系统土壤磷素盈余量大，7年间共达200mg／hm2以上，并可改善土壤磷组分，增加土壤有效磷含量，促进水稻对磷的吸收．     

施肥对不同农田土壤微生物活性的影响

采用室内恒温培养研究了施肥对不同农田土壤微生物活性的影响。结果表明，在红壤、水稻土和潮土中，土壤微生物量、土壤酶活性大小顺序均为有机肥配施无机肥处理＞单施有机肥处理＞单施无机肥处理，但对脲酶来说，其活性大小顺序为有机肥配施无机肥处理＞单施无机肥处理＞单施有机肥处理。从土壤类型来看，土壤微生物量碳、氮和土壤酶活性大小以水稻土最大，潮土次之，红壤最小。３种土壤的微生物量、土壤酶活性在培养的４５～６０ｄ之间分别达到最大值，以后逐渐下降。部分单施无机肥处理的土壤微生物量、土壤酶活性最大值比单施有机肥处理、有机肥配施无机肥处理提前１５ｄ。相关分析表明，有机肥配施无机肥处理及单施有机肥处理，３种土壤的土壤微生物量碳、氮与土壤过氧化氢酶、转化酶、蛋白酶、脲酶及速效养分呈显著或极显著的相关性；单施无机肥处理中，土壤微生物量碳、氮与土壤过氧化氢酶、蔗糖转化酶、蛋白酶、脲酶显著或极显著相关，与部分速效养分相关不显著。     

磷、砷双重胁迫对不同耐低磷水稻苗期生长及磷、砷吸收的影响

以1个耐低磷和1个低磷敏感水稻为材料,通过土培试验研究磷、砷双重胁迫对水稻苗期生物学特性及磷、砷吸收的影响,并比较不同品种之间的差异.结果表明,相同磷水平下,外加砷浓度为小于25 mg/kg时,水稻的生物量、叶宽、株高、SPAD值及磷吸收量均随砷浓度的增加而增加,当砷浓度达到50 mg/kg时开始下降,两个品种表现相同趋势.说明少量砷可以刺激水稻生长,促进磷的吸收,砷用量过多则抑制水稻的生长及磷的吸收.相同砷水平下,水稻生物学性状及磷、砷吸收量随磷用量的增加而增加,两个品种亦表现相同趋势.说明适当施磷肥可以缓解砷对水稻生长的抑制作用.上述结果表明,低浓度的磷、砷具有协同效应,高浓度的磷、砷表现拮抗作用.此外,相同磷、砷水平下,供试耐低磷水稻的生物学性状及其相对值较低磷敏感水稻大;但相对磷吸收量(除磷处理为150 mg/kg外)比低磷敏感水稻小,而砷吸收量及其相对值均比低磷敏感水稻多,这可能与二者的磷营养特性及水稻对磷和砷的竞争吸收有关.图7表1参19     

氮输入对沼泽湿地植物生长和氮吸收的影响

氮是湿地植物生长必不可少的营养元素之一,但当外源氮输入超出植物生长需要时,氮素将抑制植物生长。不同植物对氮输入的响应不同,同一植物不同器官对氮输入的响应也不一致。为了探讨氮输入对湿地植物生长和氮吸收的影响机制,本文选取滇西北典型湖泊湿地纳帕海湖滨挺水植物茭草（Zizania caduciflora）和水葱（Scirpus validus）为对象,通过控制实验,研究了3个不同氮输入水平[0 g·m-2·a-1（对照,CK）、20 g·m-2·a-1（N20）、40 g·m-2·a-1（N40）]对茭草和水葱生物量积累、根冠比、氮吸收的影响。结果表明：培养期内,茭草地上生物量始终表现为N40〉N20〉CK,即氮输入促进茭草地上生物量积累;而水葱地上生物量随培养时间不同而发生变化,培养早期N20处理促进水葱地上生物量积累,N40处理抑制水葱地上生物量积累。茭草地下生物量表现为N40〉CK〉N20,即氮输入不足抑制茭草地下生物量积累,足够氮输入促进茭草地下生物量积累;水葱地下生物量表现为CK〉N20〉N40,即氮输入抑制水葱地下生物量积累。植物地上部分和地下部分生长对氮输入的响应也不一致,导致植物根冠比发生变化,茭草根冠比表现为N20     

Influence of lead on growth and nutrient accumulation in canola (Brassica napus L.) cultivars

Canola (Brassica napus L.) is commonly used as a hyper-accumulator for phytoextraction of heavy metals from soil and water. Like many other heavy metals, lead (Pb) contaminates soil, water and air and thus it is a great problem. This study was conducted to investigate toxic effects of Pb on growth and nutrient uptake in four canola cultivars. Each of four cultivars of canola (Con-II, Con-III, Legend and Shiralee) was subjected to four levels of Pb (0, 30, 60 and 90 mg Pb kg(-1) of soil) from lead chloride [PbCl2]. Due to Pb toxicity, plant growth was adversely affected and relatively a severe reduction in root biomass (45.7%) was recorded. The Pb accumulation increased both in shoot and root, the highest being in root. The uptake of different nutrients, i.e., N, P, K, Ca, Mg, Zn, Cu and Mn was reduced (38.4, 32.8, 33.1, 49.6, 7.78, 52.0, 42.6 and 45.9%, respectively) in the shoots and that of N, Fe, Zn, and Cu in the roots (48.5, 33.2, 24.3 and 44.8%, respectively) of all canola cultivars. The root K, P, Zn and Mn and shoot P, Mg and Fe contents were less affected, the concentration of Pb, Ca and Mg in roots of all cultivars. Among canola cultivars Con-II and Con-III performed better than Legend and Shiralee in terms of growth (26.03%) and nutrient accumulation. Overall, plant growth and nutrient accumulation in the canola cultivars was hampered due to the presence of Pb.     

Effects of cadmium on nutrient uptake and translocation by Indian Mustard

Plants that hyperaccumulate metals are ideal subjects for studying the mechanisms of metal and mineral nutrient uptake in the plant kingdom. Indian Mustard (Brassica juncea) has been shown to accumulate moderate levels of Cd, Pb, Cr, Ni, Zn, and Cu. In this experiment, 10 levels of Cd concentration treatments were imposed by adding 10-190 mg Cd kg(-1) to the soils as cadmium nitrate [Cd(NO3)2]. The effect of Cd on phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), and the micronutrients iron (Fe), manganese (Mn), copper (Cu), and zinc (Zn) in B. juncea was studied. Plant growth was affected negatively by Cd, root biomass decreased significantly at 170 mg Cd kg(-1) dry weight soils treatment. Cadmium accumulation both in shoots and roots increased with increasing soil Cd treatments. The highest concentration of Cd was up to 300 mg kg(-1) d.w. in the roots and 160 mg kg(-1) d.w. in the shoots. The nutrients mainly affected by Cd were P, K, Ca, Fe, and Zn in the roots, and P, K, Ca, and Cu in the shoots. K and P concentrations in roots increased significantly when Cd was added at 170 mg kg(-1), and this was almost the same level at which root growth was inhibited. Zn concentrations in roots decreased significantly when added Cd concentration was increased from 50 to 110 mg kg(-1), then remained constant with Cd treatments from 110 to 190 mg kg(-1). However, Zn concentrations in the shoots seemed less affected by Cd. It is possible that Zn uptake was affected by the Cd but not the translocation of Zn within the plant. Ca and Mg accumulation in roots and shoots showed similar trends. This result indicates that Ca and Mg uptake is a non-specific process.     

模拟水深和氮添加对三江平原湿地植物功能性状的影响

水深和氮素是影响湿地植物生长的关键因素,研究两者对功能性状的影响有助于预测未来环境变化下湿地植物的生长与分布趋势.以三江平原沼泽湿地3种优势植物(漂筏苔草Carex pseudocuraica、毛苔草Carex lasiocarpa和燕子花lris laevigata)为研究对象,设置3个水深(0、5、15 cm)和3...     

Role of phosphate solubilizing bacteria on rock phosphate solubility and growth of aerobic rice

Use of phosphate-solubilizing bacteria (PSB) as inoculants has concurrently increased phosphorous uptake in plants and improved yields in several crop species. The ability of PSB to improve growth of aerobic rice (Oryza sativa L.) through enhanced phosphorus (P) uptake from Christmas island rock phosphate (RP) was studied in glasshouse experiments. Two isolated PSB strains; Bacillus spp. PSB9 and PSB16, were evaluated with RP treatments at 0, 30 and 60 kg ha(-1). Surface sterilized seeds of aerobic rice were planted in plastic pots containing 3 kg soil and the effect of treatments incorporated at planting were observed over 60 days of growth. The isolated PSB strains (PSB9 and PSB16) solubilized significantly high amounts of P (20.05-24.08 mg kg(-1)) compared to non-inoculated (19-23.10 mg kg(-1)) treatments. Significantly higher P solubilization (24.08 mg kg(-1)) and plant P uptake (5.31 mg plant(-1)) was observed with the PSB16 strain at the highest P level of 60 kg ha(-1). The higher amounts of soluble P in the soil solution increased P uptake in plants and resulted in higher plant biomass (21.48 g plant(-1)). PSB strains also increased plant height (80 cm) and improved root morphology in aerobic rice. The results showed that inoculation of aerobic rice with PSB improved phosphate solubilizing activity of incorporated RP.     

作物地上部氨排放及对大气氮沉降的吸收

为研究作物地上部分氨排放以及对大气氮沉淀的吸收情况,以水稻(Oryza saliva L.)品种武运粳7号和小麦(Triticumaestivum L.)品种扬麦15为例.在盆栽条件下,利用~15N同位素示踪技术,采用探索性的研究方法,初步分析了水稻成熟期植株NH_3排放和小麦植株直接吸收的大气沉降氮.结果表明,土培的水稻品种武运粳7号地上部植株成熟期排放氨氮(NH_3-N)量约占当季总施氮(N)量的(0.50±0.21)%;收获后水稻植株不同部位~(15)N丰度值以根部最高,茎叶次之,籽粒最低,这与植株体内养分的运移顺序变化一致;贫化~(15)N小麦砂培试验测定的包括植株直接吸收在内的大气氮沉降数量为N(14.8±4.3)kg·hm~(-2),低于国外类似方法以其它作物作为研究对象的测定结果.     

磷水平对不同耐低磷水稻苗根系生长及氮、磷、钾吸收的影响

选取3个耐低磷水稻基因型99011、580和99112及1个磷敏感基因型99056为材料，采用营养液培养，比较了它们在不同磷水平下苗期根系的生长状况及对氮、磷、钾的吸收情况，结果表明，耐低磷基因型适应低磷的能力较强，它们具有较长的根系、较大的根体积和根干重，其中99011和580表现尤为突出，且它们的根系受磷水平变化的影响明显小于敏感基因型99056；0．081～0．161mmol／L的磷处理更有利于耐低磷基因型根系的发育，并且促进氮和钾的吸收，此时，植株能够吸收较正常磷处理更多的氮和钾；而磷敏感基因型99056吸收氮和钾的量随供磷水平的下降而减少，并且吸收磷的总量受磷水平变化的影响显著较3个耐低磷基因型大。     

Effects of microbial inoculations and surfactant levels on biologically- and chemically-assisted phytoremediation of lead-contaminated soil by maize (Zea Mays L.)

Assisted phytoremediation has been widely used for decontamination of potentially toxic elements contaminated soils. A greenhouse experiment was conducted to evaluate the effectiveness of different microbial inoculations and surfactant levels on the phytoremediation of a Pb-polluted calcareous soil by maize. The results showed that application of surfactant increased both root and shoot dry matter yields. Microbial inoculations, however, had no significant effect on the root or shoot dry matter yield. Mean Pb uptake in maize root or shoot increased only following the application of some surfactant levels. Inoculation with microorganisms significantly increased both mean Pb concentration and uptake in maize root but not in maize shoot. Application of 4?mmol surfactant kg?1 along with inoculation with Priformospora indica was effective in increasing Pb phytostabilisation potential. While the application of 2?mmol surfactant kg^?1 along with inoculation with Pseudomonas fluorescens was effective in increasing Pb phytoextraction potential. The fact that the values of translocation efficiencies were low in all treatments, demonstrated the low capability of maize for translocation of Pb from root to shoot. Inoculation with P. fluorescens was the most effective treatment in increasing metal micronutrient uptake. Microbial inoculation and surfactant levels enhanced Pb phytoremediation mostly through phytostabilisation of this metal by maize.     

低磷胁迫下不同水稻品种根系吸收能力差异的生理与遗传本质

在低磷（1mg L-1)和适磷水平（10mg L^-1)下，分别以混合培养方式研究了粳稻京系17（Oryza sativa ssp.japonica)(JX17)和粘稻窄叶青8号（Oryza sativa ssp.indica)(ZYQ8)对磷营养的反应。结果表明，低磷胁迫下，JX17较ZYQ8吸收更多磷素，干物重也显著增加。相反，ZYQ8则受到更强的磷胁迫，吸磷量和干物重降低，主要是因为JX17具有较高的吸磷速度，单位根长吸磷量大，即根系高亲和力磷酸盐转运蛋白表达强，最大限度地吸收可能利用的磷素，从而改善植株营养状况，同时又有较多的磷被分配到根系，使根第，根表面积和根干重相应提高，进一步增加了其在低磷胁迫条件下的竞争磷营养的优势。图3表2参17