铜对伴矿景天生长及锌镉吸收性的影响

利用植物生长室水培试验和温室土培盆栽试验相结合,研究了Cu对Zn、Cd超积累植物伴矿景天生长及Zn、Cd吸收性的影响。水培试验结果显示,0.31～50μmol/L Cu处理14天对伴矿景天生长及对Zn、Cd吸收性没有显著影响;但100μmol/L Cu处理显著抑制植物生长,降低地上部Zn、Cd及根中Cd浓度,对根中Zn浓度变化没有显著影响。盆栽试验结果发现,在土壤Cu仅为3.61 mg/kg时伴矿景天生长不良,外加Cu显著促进其生长并随Cu浓度升高效应增加;但施用3 mmol/kgEDDS和再次外加250 mg/kg Cu处理使伴矿景天因体内Cu积累量过高而导致明显毒害,地上部Cu最高达1 068 mg/kg。可见低量Cu处理可促进伴矿景天生长,利于植物对土壤Zn、Cd的吸取修复,但土壤中Cu浓度过高将抑制Zn、Cd超积累植物的生长,降低其Zn、Cd吸收能力,在利用该Zn、Cd超积累植物修复高Cu的Zn和Cd污染土壤时应采取适当措施降低Cu毒害效应。     

锌镉交互作用对伴矿景天锌镉吸收性的影响

采用水培试验、不同Zn、Cd污染程度农田土壤结合外加Zn、Cd基础上的土培盆栽法,研究了不同Zn、Cd浓度交互作用对伴矿景天生长及Zn、Cd吸收和分布的影响.水培试验结果表明,增加溶液中Zn和Cd浓度,伴矿景天各组织中Zn和Cd浓度显著增加,但两个高浓度处理间没有显著差异;Zn在伴矿景天体内呈不均匀分布且与水培溶液中Zn和Cd浓度有关,当溶液中Zn浓度＞Cd浓度时,表现为新叶＞成熟叶＞其他部位＞＞根,反之则为成熟叶＞其他部位＞新叶＞＞根;而Cd在伴矿景天不同部位的分布没有一致的规律性;Zn、Cd交互作用主要体现在伴矿景天新叶上:在溶液中外加Cd时,Zn对伴矿景天新叶中Cd浓度具有“低促高抑”效应,而Cd处理对新叶中Zn浓度具有拮抗效应.土培试验也表明,添加Zn显著促进伴矿景天对土壤中Cd的吸收,外加Cd对伴矿景天Zn吸收具有拮抗效应;但无论Zn或Cd,外加量过大均会显著抑制伴矿景天的生长,降低修复效率.     

伴矿景天间作方式对辣椒根围土壤镉迁移与有效性的影响

为明确伴矿景天间作模式对辣椒植物根系周围土壤镉(Cd)迁移与可利用风险的影响,于2019年在贵州省遵义市新蒲新区进行田间试验,设置伴矿景天或辣椒单作、伴矿景天条带式间作辣椒(间作1)、伴矿景天交叉式间作辣椒(间作2)、伴矿景天混合式间作辣椒(间作3)等5种种植模式,收获期采集辣椒根系周围土壤样品,测定土壤各形态Cd含量和土壤pH、有机质、全量和有效氮磷钾以及球囊霉素(GRSP)含量。结果表明,与辣椒单作相比,间作2和间作3使辣椒根系周围土壤酸溶态Cd显著降低39.6%和41.5%(P0.05),可还原态Cd含量显著降低23.9%和29.0%(P0.05)。同时也降低了土壤Cd迁移和植物可利用风险,其中间作2和间作3处理土壤Cd迁移性分别降低25.8%和34.2%,可利用性分别降低11.6%和26.9%。3种伴矿景天间作方式显著提高了土壤易提取球囊霉素含量,分别提高24.5%、39.9%和40.6%(P0.05);间作2和间作3处理显著增加土壤总球囊霉素含量,分别增加51.7%和86.7%(P0.05)。冗余分析表明,土壤环境因子对土壤Cd迁移和可利用风险影响重要性排序为总提取球囊霉素速效钾pH易提取球囊霉素全钾全磷全氮碱解氮有效磷有机质,土壤总提取球囊霉素、速效钾是影响土壤Cd迁移性和可利用性的关键调控因子。综上所述,伴矿景天间作措施显著降低了辣椒根系周围土壤Cd迁移和可利用风险,其中交叉式间作和混合式间作效果优于条带式间作。     

土壤紧实度对伴矿景天生长及镉锌吸收性的影响研究

采集黏土、壤黏土和砂质壤土,分别设置无压实、低紧实度及高紧实度3种处理,通过盆栽试验研究了土壤紧实度对Cd、Zn超积累植物伴矿景天生长和Cd、Zn吸收性的影响。结果表明,与无压实处理比较,砂质壤土、壤黏土和黏土中伴矿景天地上部生物量在低紧实度下显著下降66.8%~83.5%、59.9%~60.4%和57.9%~71.4%;高紧实度处理却显著提高了伴矿景天的根系活力(142%~241%)。高紧实度处理显著降低了壤黏土上伴矿景天地上部Cd和Zn含量,但低紧实度对砂质壤土和黏土上伴矿景天地上部Cd和Zn含量无显著影响。与无压实处理比较,低紧实度显著降低了砂质壤土、壤黏土和黏土上伴矿景天的Cd吸取量,分别下降50.4%~73.8%、61.4%~74.9%和43.4%~63.3%,Zn吸取量下降48.7%~79.5%、73.6%~79.0%和46.1%~63.5%;土壤紧实度对壤黏土上伴矿景天的镉锌吸取效率影响最明显。     

调控剂对锌镉污染土壤植物修复效率及后茬蔬菜重金属吸收的影响

采用盆栽试验,在连续12年高量施用污泥有机肥引起的Zn、Cd污染土壤上种植伴矿景天,并向土壤中添加亚氨基二琥珀酸(IDS)、乙二胺二琥珀酸三钠(EDDS)、硫磺等化学调控剂及稳定剂钙镁磷肥,研究调控剂对伴矿景天吸收Zn、Cd及施用钙镁磷肥对后茬蔬菜重金属污染风险的影响,以期探索出既可提高超积累植物重金属吸取修复效率又能降低后茬农作物重金属污染风险的植物修复模式.结果表明,施用120 mmol/kg硫粉(Sed+S)处理可显著增加伴矿景天地上部生物量,分别比未加调控剂的对照处理伴矿景天(Sed)、伴矿景天添加有机调控剂(Sed+OE)处理增加34.7％和47.9％.施用3 mmol/kg IDS则显著降低了伴矿景天地上部Cd浓度,比Sed处理降低了35.5％.施用钙镁磷肥稳定剂可有效降低后茬蔬菜苋菜体内Zn、Cd浓度,降幅为57％、63％,施用4 g/kg钙镁磷肥后土壤醋酸铵提取态Zn、Cd分别较对照降低66.1％、72.4％.可见,适当施用硫肥能促进伴矿景天的生长,添加钙镁磷肥降低土壤有效态重金属浓度,减少后茬作物污染风险.     

酸性土壤上伴矿景天铝毒的缓解技术研究

酸性土壤上易产生铝（Al）毒害作用，缓解Al毒对于污染土壤上超积累植物的生长及重金属有效削减具有重要意义。本研究比较了不同措施对镉（Cd）超积累植物伴矿景天的Al胁迫缓解作用，结果发现：① 在水培条件下，锌添加可促进了Al胁迫下伴矿景天根表Cd2+吸收速率，而添加氯化钙或柠檬酸没有显著的缓解作用；② 在盆栽试验条件下，添加石灰处理显著提高了土壤pH，促进了伴矿景天生长和地上部对Cd的吸收，但添加生物质炭或柠檬酸没有显著缓解Al毒对伴矿景天生长和Cd吸收的抑制，添加柠檬酸反而加剧了土壤酸化，提高了土壤Al的活性；③在伴矿景天与荞麦间作条件下，其一定程度上降低了土壤的Al活性，在合适的种植密度下并未显著影响伴矿景天单株地上部Cd吸收量。综上，酸性土壤上耐Al作物与修复植物间作、结合添加改良剂调控Al毒，能够不显著降低土壤Cd的有效性和修复植物的Cd吸收，进而实现污染土壤的边生产边修复。     

水分特征对伴矿景天生长和重金属吸收性的影响

利用盆栽试验研究了水分特征对伴矿景天生长和重金属吸收性的影响.结果表明:在70% 土壤最大田间持水量(70%WHC)处理下,伴矿景天生长最好,其地上部鲜重显著高于其他处理;70%WHC处理伴矿景天对重金属吸收能力最强,其茎中Zn的浓度显著高于其他处理,茎中Cd的浓度分别比35%WHC、100%WHC、淹水处理高27.1%、29.0%、63.1%;叶中的Zn浓度表现出与茎中相同趋势,叶中Cd的浓度与茎中不同,以100%WHC处理最高.70%WHC处理下,植物提取Zn、Cd的效率最高,其修复效率均显著高于其他处理.这些结果表明,土壤水分状况在土壤重金属污染伴矿景天植物吸取修复中起着重要作用.     

3种有机酸对伴矿景天修复效率及土壤微生物数量的影响

伴矿景天(Sedumplumbizincicola)是一种Cd和Zn的超积累植物,常用于Cd污染土壤的植物修复。有机酸能够提高土壤重金属的有效性,促进植物对重金属的积累,对重金属污染土壤的植物修复效率具有强化作用,并对土壤微生物数量有重要影响。以河潮土和红黄泥为供试土壤,探讨了乙二胺四乙酸(EDTA)、柠檬酸、草酸对伴矿景天修复效率和土壤微生物数量的影响。结果表明,有机酸能显著提高土壤有效态Cd含量,柠檬酸处理的效果最好,河潮土和红黄泥中有效态Cd含量较单种伴矿景天分别增加72.73%,12.99%(P<0.05);伴矿景天地上部Cd含量在河潮土和红黄泥中以EDTA处理最高,在河潮土和红黄泥中分别比单种伴矿景天增加99.24%和33.32%;与单种伴矿景天相比,添加有机酸处理河潮土和红黄泥中伴矿景天修复效率显著提高。添加有机酸比单种伴矿景天显著增加土壤中微生物数量,其中柠檬酸处理河潮土中细菌和真菌数量分别增加34.38%和68.42%(P<0.05),草酸处理红黄泥中放线菌数量增加150.00%。研究结果可为重金属污染土壤的植物强化修复提供理论支撑。     

光照强度对伴矿景天生长和锌镉吸收性的影响

伴矿景天(Sedum plumbizincicola)是生长于浙江铅锌矿地区的一种景天科植物新种,具有超富集锌和镉的特性,是一种多年生草本植物,无性繁殖为主,与其他修复植物相比具有生长速率快、生物量较大的特点[1-2],可用来修复重金属污染土壤[3]。但对伴矿景天的生长习性鲜有研究,限制了其大规模的推广应用。因此,本文以Zn、Cd超积累植物伴矿景天为对象,探讨光照强度对其生物量与Zn、Cd浓度的影响,及可能的光合作用响应机制,旨在探明伴矿景天生长的适宜光照环境,为重金属污染土壤植物修复的农艺调控提供依据。1材料与方法1·1供试材料供试伴矿景天苗采自浙江淳安,将野外植株移至温室生长繁殖,通过株芽     

镉污染土壤伴矿景天的萃取强化-螯合剂和植物激素的叶面调控

为提高Cd超富集植物伴矿景天(Sedum plumbizicola)的植物萃取能力,采用盆栽试验研究螯合剂乙二胺四乙酸(EDTA)和植物激素脱落酸(ABA)单独和联合作用的叶面调控对伴矿景天生长和Cd吸收转运的影响,并通过大田试验进行验证。结果表明:盆栽试验叶面喷施EDTA、ABA均能提高伴矿景天对Cd的转运,地下部至地上部的Cd转运系数为EDTA＞ABA,但叶面EDTA处理对生长旺盛期伴矿景天的生长有抑制。伴矿景天各部位Cd富集浓度差异很大,呈现新叶＞地下部＞茎＞老叶,新叶中Cd浓度是老叶的3.6~5.4倍,且主要富集在细胞壁和细胞器中,占总富集量的88%~94%。EDTA处理新叶细胞器中Cd浓度剧增,ABA处理新叶细胞壁中Cd浓度增加,ABA和EDTA联合使用可以缓解EDTA对生长的抑制,且更有利于Cd从根系向地上部转运。大田小区试验叶面诱导强化伴矿景天Cd萃取是可行的,ABA和EDTA联合处理显著增加伴矿景天总Cd积累量,增幅达到37.87%。研究结果为伴矿景天修复Cd污染土壤提供理论指导。     

养分调控对超积累植物伴矿景天生长及锌镉吸收性的影响

采用四因素三水平正交设计温室盆栽试验研究了N、P、K三因素不同水平对Zn、Cd超积累植物伴矿景天的生长及地上部Zn、Cd吸收性的影响。结果表明,增施N肥是伴矿景天地上部干重增加的主要因素,高N配施低P(200 mg/kg N,60 mg/kg P,不施K)处理的伴矿景天地上部干重达最大值31.2 g/盆(1.5 kg土/盆),是不施肥处理的3.15倍。增施K肥是提高伴矿景天地上部重金属尤其是Cd浓度和吸收量的主要影响因子,高量K处理比不施K处理地上部Cd浓度增加28.1%;低量施P也可提高伴矿景天的Zn吸取修复效率。综合考虑伴矿景天生物量及其对Zn、Cd的吸取效率,本试验条件下低量N、P肥配施高量K肥为最佳施肥处理(N1P1K2),种植伴矿景天一季对Zn、Cd的吸取量分别为11.2 mg/kg±0.1 mg/kg和0.12 mg/kg±0.02 mg/kg。     

小麦大豆间作条件下作物养分吸收利用对间作优势的贡献

采用田间小区试验和田间微区根系分隔试验 ,通过间作与相应单作成熟期氮磷钾养分吸收量和利用效率 (单位养分吸收量所能生产的干物质量 )的比较研究了小麦大豆间作中养分吸收和利用效率的变化。结果表明 ,间作作物氮、磷、钾养分吸收总量分别高出相应单作 24%～39% ,6%～27%和24%～64% ;而间作氮、磷和钾的利用效率分别比单作低5%～20%、5%～7%和 6%～32%。间作优势主要表现在养分吸收量的增加。间作大豆养分收获指数的提高使间作子粒产量优势比生物学产量优势更明显。种间根系分隔微区试验表明 ,间作作物养分利用效率的降低与两作物根系相互作用有关     

Soil Phosphorous Influence on Growth and Nutrition of Tropical Legume Cover Crops in Acidic Soil

In tropical regions, use of cover crops in crop production is an important strategy in maintaining sustainability of cropping systems. Phosphorus (P) deficiency in tropical soils is one of the most yield-limiting factors for successful production of cover crops. A greenhouse experiment was conducted to evaluate influence of P on growth and nutrient uptake in 14 tropical cover crops. The soil used in the experiment was an Oxisol, and P levels used were low (0 mg P kg^?1), medium (100 mg P kg^?1) and high (200 mg P kg^?1). There was a significant influence of P and cover crop treatments on plant growth parameters. Phosphorus X cover crops interaction for shoot dry weight, root dry weight and root length was significant, indicating different responses of cover crops to variable P levels. Based on shoot dry weight efficiency index (SDEI), legume species were classified into efficient, moderately efficient or inefficient groups. Overall, white jack bean, gray mucuna bean, mucuna bean ana and black mucuna bean were most P efficient. Remaining species were inefficient in P utilization. Macro- and micronutrient concentrations (content per unit dry weight of tops) as well as uptakes (concentration x dry weight of tops) were significantly (P < 0.01) influenced by P as well as crop species treatments, except magnesium (Mg) and zinc (Zn) concentrations. The P x crop species interactions were significant for concentration and uptake of all the macro and micronutrients analyzed in the plant tissues, indicating concentrations and uptake of some nutrients increased while others decreased with increasing P levels. Hence, there was an antagonistic as well as synergetic effect of P on uptake of nutrients. However, uptake of all the macro and micronutrients increased with increasing P levels, indicating increase in dry weight of crop species with increasing P levels. Overall, nutrient concentration and uptake in the top of crop species were in the order of nitrogen (N) > potassium (K) > calcium (Ca) > Mg > sulfur (S) > P for macronutrients and iron (Fe) > manganese (Mn) > zinc (Zn) > copper (Cu) for micronutrients. Interspecific differences in shoot and root growth and nutrient uptake were observed at varying soil P levels     

不同生境下锌镉在伴矿景天不同叶龄叶中的富集与分布特征

田间试验、温室盆栽和生长室水培试验研究了Zn和Cd超富集植物伴矿景天不同叶龄叶片的Zn、Cd富集和分布特征。结果显示,田间条件下伴矿景天新叶中Cd浓度高于成熟叶、但新叶中Zn浓度低于成熟叶。温室盆栽试验发现,连续种植伴矿景天,第4季时低污染土壤（S1）上新叶中Zn浓度低于成熟叶,但高污染土壤（S4）上新叶中Zn浓度高于成熟叶;而到了第6季,S1、S4上新叶中Zn浓度均低于成熟叶,且在S1上两者达到显著水平;第4和第6季,伴矿景天新叶中Cd浓度始终高于成熟叶（除S1成熟叶中Cd浓度略高于新叶外）。水培试验结果发现,无论在高Zn（600 mmol/L）、高Cd（100 mmol/L）,还是低Zn（10 mmol/L）、低Cd（1 mmol/L）处理,新叶中Zn、Cd浓度均高于成熟叶;而且随着处理时间的延长,新叶和成熟叶中Zn、Cd浓度均明显上升。水培条件下,新叶和成熟叶中Zn最高分别为43 107、33 774 mg/kg（以干重计）（600 mmol/L,处理56 天）;新叶和成熟叶中Cd的最高浓度分别为15 057、9 060 mg/kg（以干重计）（100 mmol/L Cd,处理56 天）。这些结果表明,Zn、Cd在伴矿景天新叶和成熟叶中富集和分布与其生长介质中Zn、Cd的浓度尤其是有效态浓度、处理时间及植物所处的生长阶段等有关,同时也表明Zn、Cd优先分布于新叶可能与伴矿景天超富集Zn、Cd的机制有关。     

Mycorrhizal inoculation enhances growth and nutrition of cotton plant

Arbuscular Mycorrhizae Fungi (AMF) inoculations may improve growth and nutrient uptake of cotton (Gossypium hirsutum L.) plant. Although the importance of mycorrhizal symbioses for growth and nutrient acquisition of cotton plant is known, less is known about mycorrhizal dependency on P and Zn nutrition under low Zn fertile soil conditions. A greenhouse experiment was conducted to investigate the effect of different of P and Zn fertilizer addition on cotton plant growth as well as Zn and P uptake. Sterilized and non-sterilized low Zn fertile Konya series soil was treated with different levels of P and Zn. Soils were inoculated with two mycorrhizae species like Funneliformis mosseae and Claroideoglomus etunicatum after sterilization. Results showed that mycorrhizal inoculation on plant growth and nutrient uptake has significant effect when soil was sterilized. Cl. etunicatum mycorrhizae species has greater effect than Fu. mosseae mycorrhizae species. Root colonization increased 23–65% due to mycorrhizal amendment. The shoot: root ratio increased by 13 and 22% for non-sterile and sterile condition respectively in mycorrhiza amended soil. Mycorrhizal dependency varies 1–55% and 3–64% for non-sterile and sterile soil respectively on mycorrhizae, P and Zn amended soil. Mycorrhizal dependency analysis showed that cotton plant in both sterile and non-sterile soil conditions depends on mycorrhizae species, P nutrition, however is less depend on Zn nutrition. This study concluded that the inoculation of cotton plant with selected mycorrhizae is necessary under both sterile and non-sterile soil conditions.     

Effects of soil compaction and arbuscular mycorrhiza on corn (Zea mays L.) nutrient uptake

Soil compaction is of great importance, due to its adverse effects on plant growth and the environment. Mechanical methods to control soil compaction may not be economically and environmentally friendly. Hence, we designed experiments to test the hypothesis that use of plant symbiotic fungi, arbuscular mycorrhiza (AM) may alleviate the stressful effects of soil compaction on corn (Zea mays L.) growth through enhancing nutrient uptake. AM continuously interact with other soil microorganisms and its original diversity may also be important in determining the ability of the fungi to cope with the stresses. Hence, the objectives were: (1) to determine the effects of soil compaction on corn nutrient uptake in unsterilized (S1) and sterilized (S2) soils, and (2) to determine if inoculation of corn with different species of AM with different origins can enhance corn nutrient uptake in a compacted soil. Using 2 kg weights, soils (from the field topsoil) of 10 kg pots were compacted at three and four levels (C1, C2, C3 and C4) (C1 = non-compacted control) in the first and second experiment, respectively. Corn (cv. 704) seeds were planted in each pot and were inoculated with different AM treatments including control (M1), Iranian Glomus mosseae (M2), Iranian G. etunicatum (M3), and Canadian G. mosseae, received from GINCO (Glomales In Vitro Collection), Canada (M4). Corn leaf nutrient uptake of N, P, K, Fe, Mn, Zn and Cu were determined. Higher levels of compaction reduced corn nutrient uptake, however different species of AM and soil sterilization significantly increased it. The highest increase in nutrient uptake was related to P (60%) and Fe (58%) due to treatment M4S2C3. Although it seems that M3 and M4 may be the most effective species on corn nutrient uptake in a compacted soil, M2 increased nutrient uptake under conditions (C3 and C4 in unsterilized soil) where the other species did not. Through increasing nutrient uptake AM can alleviate the stressful effects of soil compaction on corn growth.     

Growth,Cadmium and Zinc Accumulation of Ornamental Sunflower(Helianthus annuus L.)in Contaminated Soil with Different Amendments

Use of ornamental plants for phytoremediation of metal-contaminated soil is a new option. A pot experiment was carried out to assess the effect of application of amendments, i.e., swine manure, salicylic acid (SA) and potassium chloride (KCl), on the growth, uptake and translocation of cadmium (Cd) and zinc (Zn) of ornamental sunflower (Helianthus annuus L.) grown on a contaminated soil. The three amendments increased sunflower height, flower diameter, and biomass. Manure significantly decreased Cd and Zn concentrations in sunflower, and thus decreased the bioaccumulation coeffcient (BCF) of Cd and Zn. However, using of KCl markedly increased Cd concentrations in sunflower and the BCF of Cd. Additionally, both swine manure and KCl application increased Cd and Zn translocation from root to aboveground part. Swine manure and salicylic acid reduced the Cd/Zn ratios in flower of sunflower, while KCl significantly increased the Cd/Zn ratios. Correlation analysis demonstrated that the Cd/Zn ratio in the root of sunflower was affected by K/Na ratio in root and soil available potassium (K) concentration. Ornamental sunflower could be grown as an alternative plant in the Cd- and Zn-contaminated soil with KCl application to get the balance between environmental and economic interests.     

地下部分隔对间作小麦养分吸收和白粉病发生的影响

通过根系分隔的盆栽试验,探讨了地下部分隔对小麦//蚕豆间作系统中小麦的养分吸收和白粉病发生的影响。结果表明:根系不分隔小麦的生物量和N、P、K吸收量均大于尼龙网分隔处理和根系完全分隔处理。根系分隔方式还影响了小麦白粉病的发生,小麦白粉病的发病率和发病指数均表现为根系不分隔(I)尼龙网分隔(M)完全分隔(P)。表明地下部的相互作用改善了小麦的生长,提高了小麦抗白粉病的能力。