Drought may be beneficial to the competitive advantage of Amaranthus spinosus

干旱利于刺苋的竞争优势 干旱可以影响入侵植物的生长和土壤酶活性。因此,非常有必要评估干旱背景下入侵植物的竞争优势以及入侵植物和干旱对土壤酶活性的影响。本研究旨在分析干旱背景下起源于热带美洲的入侵植物刺苋(Amaranthus spinosus)与本地植物苋菜(Amaranthus tricolor)共存时的竞争优势和土壤酶活性。通过栽植实验进行刺苋与苋菜的竞争共栽培,并进行不同水平的干旱处理,即：(i)对照;(ii)轻度干旱;(iii)重度干旱。实验结束后测定两种苋属植物的功能性状、渗透调节、抗氧化酶活性以及土壤pH、电导率、土壤微生物生物量碳含量和土壤酶活性。干旱背景下,刺苋的相对竞争强度和相对优势度均高于苋菜。因此,干旱利于刺苋的竞争优势。干旱背景下,刺苋的土壤水溶性盐含量和蔗糖水解能力均大于苋菜。而较高的土壤水溶性盐含量和蔗糖水解能力利于刺苋对养分的获取和利用。     

有机无机结合施肥对红壤稻田土壤氮素供应和水稻生产的影响

1999年以不同施肥制度对红壤稻田系统生产力和土壤环境影响的长期定位试验的为依托,比较研究了9a定位试验后．不施肥、单施无机肥、有机物循环和有机天机结合施肥对红壤稻田生态系统土壤供氮能力、水稻吸氮特性和水稻生产的影响。结果表明：红壤稻田系统长期不施肥(CK)土壤速效氯含量低,最高为16．7mg／kg,平均为14．2mg／kg,水稻累积吸收氮量较少,早稻为32,84kg／hm^2,晚稻为59．79kg／hm^2,系统生产力低．早稻生物量为3887kg／hm^2。稻谷产量为2180kg／hm^2,晚稻生物量为7164kg／hm^2,稻谷产：量为3719kg／hm^2;施用N肥可以改善土壤供氯状况。提高土壤速效氯含量,且N、NP、NK、NPK处理间没有显著差异．土壤速效氮含量最大可达到29．7mg／kg,平均为21．4mg／kg,而水稻累积吸收氯量与系统生产力随着NPK配合程度的增加而提高,NPK处理的早稻累积吸收氮量、生物量和稻谷产量分别比CK处理增加122．6％、87．1％和65.4％,晚稻分别增加85．O％、48．2％和46．O％;系统内有机物循环利用(C)水稻各生育期土壤速效氯含量显著提高．最高为30．2mg／kg,平均为20.8mg／kg,水稻累积吸收氮量早、晚稻分别比CK增加111．1％和48．9％,早稻生物量与稻谷产量显分别比CK高85．6％和55．2％,晚稻分别高28．9％和35．2％;有机无机结合施肥土壤速效氮含量最大为43．1mg／kg．平均为29．1mg／kg,且N C、NP C和NPK C处理间没有显著差异,但水稻累积吸收氮量和系统生产力有随着有机肥与NPK配合程度增加而提高的趋势。     

N、P、K肥对香根草修复土壤镉、锌污染效率的影响

通过盆栽试验研究在30 mg/kg镉(Cd)污染土壤条件下N[CO(NH2)2:100、200、300 mg/kg土]、P(P2O5:50、100、200 mg/kg土)和K(KCl:100、200、300 mg/kg土)处理对香根草修复土壤Cd和锌(Zn)污染效率的影响。结果表明:3种N处理能促进香根草地上部生长,而且显著提高地上部特别是叶的Cd和Zn含量,导致其修复效率成倍显著增加;200 mg/kg K处理显著提高Zn修复效率,但300 mg/kg K和50、200 mg/kg P处理却显著降低Cd、Zn修复效率。因此,为改善香根草对较贫瘠土壤中Cd、Zn污染的修复效率,应对香根草适施N肥,并控制或者不施P、K肥为佳。     

AMF和植物富集土壤中铅和镉的效应

为了筛选更适合修复土壤重金属污染的丛枝菌根真菌(Arbuscular mycorrhizal fungi,AMF)和寄主植物组合,对二月兰(Orychophragum violaeeus)、龙葵(Solanum nigrum)和麦冬(Ophiopogon japonicus)接种AM真菌摩西管柄囊霉(Funneliformis mosseae)和根内球囊霉(Glomus intraradices),通过测定Pb(1 000 mg/kg)和Cd(1.5 mg/kg)污染土壤中上述3种植物生长状况及其对Pb和Cd吸收与富集能力的影响,旨在获得富集重金属能力较强的AM真菌+植物组合。结果表明,施加Cd土壤中二月兰和麦冬的生物量高于对照,施加Pb或Cd处理显著降低龙葵的生长。龙葵对Pb和Cd富集能力最强,麦冬最弱;二月兰对Pb和Cd的转移能力最强。供试植物对Cd的富集能力和转移能力均大于对Pb的富集能力和转移能力。在Pb和Cd的胁迫下,摩西管柄囊霉和根内球囊霉均能促进供试植物的生长发育,并增加植株对Pb和Cd的富集系数,其中,摩西管柄囊霉对龙葵生物量、Pb和Cd富集系数的效应最大。综合考虑植物本身的生物量、对Pb和Cd的耐受力和富集能力,结论认为摩西管柄囊霉+龙葵组合是修复Pb或Cd污染土壤的高效AM真菌+植物组合之一,相关机制有待进一步研究。     

珊瑚树（Viburnum odoratissinum）对污染土壤中镉的耐受和富集特征

通过温室盆栽试验,研究珊瑚树对土壤中镉(Cd)的耐受和富集特征。研究结果表明,珊瑚树对污染土壤中Cd具有较强的耐受能力。培养56 d内,土壤中Cd含量对珊瑚树生物量影响不明显;随着培养时间的延长(105—203 d),珊瑚树的生长明显受到土壤中Cd的抑制作用。与对照处理(土壤中Cd含量为3.6 mg/kg)相比,培养154 d后,土壤中Cd含量为24.6 mg/kg处理下珊瑚树叶片中叶绿素a、叶绿素b、类胡萝卜素和丙二醛(MDA)含量没有明显变化;培养203 d后,土壤中Cd含量为24.6mg/kg处理下珊瑚树叶片中类胡萝卜素和MDA含量无明显变化,但叶片中叶绿素a和叶绿素b含量明显受到抑制,从而导致珊瑚树叶片的生长明显受到抑制(P0.05)。培养203 d后,珊瑚树对土壤中Cd的富集系数和转运系数均大于1,表明珊瑚树对土壤中Cd具有一定的富集和转运能力。上述结果表明,珊瑚树对Cd污染土壤具有一定的生态修复潜力。     

施肥对硫华菊和波斯菊吸收积累铅的影响

利用盆栽试验研究了不同施肥处理下(N、NP和NPK)两种菊科植物(硫华菊和波斯菊)对北方污染农田土壤铅(Pb)吸收和转运的影响。结果表明:施肥均可显著增加硫华菊和波斯菊的生物量、地上部Pb浓度和富集量,其中NPK肥处理对植物富集重金属促进效果最为显著,硫华菊和波斯菊地上部Pb浓度分别是其他处理组的1.59~1.89倍和1.17~1.32倍,地上部Pb富集量分别是对照组的1.15~3.21倍和1.18~4.28倍;施肥处理也显著提高了两种植物对Pb的转运能力,硫华菊和波斯菊的富集系数(BCF)分别达0.17(对照)~0.22(NPK处理)、0.29(对照)~0.36(NPK处理);对Pb在两种植物叶片的亚细胞分布进一步分析表明,金属富集颗粒(MRG)是Pb在硫华菊和波斯菊亚细胞结构中的主要富集部位(大于70%);硫华菊和波斯菊可考虑作为Pb污染土壤的植物修复材料,合理NPK肥可明显提高其对土壤Pb的修复效率;硫华菊修复效果高于波斯菊。     

青葙对土壤锰的耐性和富集特征

通过盆栽试验,研究了青葙(Celosia argentea Linn.)对不同浓度(0、50、100、200、300、500 mg/kg)锰(Mn)污染土壤的吸收和积累特性。结果表明,青葙的锰含量、生物富集系数和生物量均随着土壤锰浓度的增加而增加。当土壤锰含量为300 mg/kg时,青葙生长良好。在锰浓度500 mg/kg时,青葙叶片边缘出现轻微褪绿现象,但是植株的生长未受到抑制,并且叶片生物量显著增加(P0.05)。此时,叶片中锰含量达到最大值42927 mg/kg,生物富集系数为69.20。青葙吸收的锰有95%—97%被转移到地上部分,表明该植物对锰具有很强转运能力。本研究的结果为利用青葙修复锰污染土壤提供了有力证据。     

鬼针草(Bidens pilosa L.)对镉污染农田的修复潜力

为探究富集植物鬼针草对镉(Cd)污染农田土壤的修复潜力,通过野外调查,原土盆栽试验和田间试验,测定鬼针草及其根系土壤Cd含量,计算鬼针草的富集系数和去除率。结果表明,野外调查中不同铅锌矿区生长的鬼针草叶片中Cd含量最大值为53.3 mg/kg。盆栽试验中,低浓度Cd土壤处理(T1),鬼针草地上部Cd的富集系数为4.70,转运系数1.59,大于1。高浓度Cd土壤处理(T2 13.4 mg/kg),其地上部Cd积累量达到43.1 mg/kg,其地上部Cd富集系数为3.51。鬼针草对Cd表现出稳定的积累特性。田间试验小区中,土壤Cd含量均值为2.66 mg/kg,鬼针草中地上部Cd含量均值为10.9 mg/kg,富集系数为4.16,使用鬼针草修复Cd污染土壤每公顷地种植一茬鬼针草的去除率为4.3%—6.2%。使用富集植物鬼针草修复农田Cd污染具有较好的工程应用前景。     

长期有机无机肥配施对稻田杂草生长动态的影响

利用中国农业科学院红壤实验站红壤稻田长期定位试验,于2011年研究了在以无机肥(化肥NPK)与有机肥(M)氮磷钾养分等量条件下,长期有机无机肥配施水稻生育期间杂草种类和生物量变化。结果表明:30a后,早稻和晚稻施肥处理中:PK+M处理下杂草种类最多,NPK+M处理下杂草种类和优势杂草种类较少,且种类数量稳定,早稻和晚稻杂草种类数量前者比后者分别高出19.7%和9.8%;施肥处理中:两季杂草总生物量NPK+M处理最高,NP+M处理最低,且NPK+M、NK+M、PK+M和CK处理比NP+M处理分别高出31.3%、26.5%、8.3%和5.6%,早稻NPK+M处理杂草总生物量和浮生杂草总生物量最多,NK+M处理湿生杂草总生物量最多,晚稻NK+M处理杂草总生物量和湿生杂草总生物量最多,NPK+M处理浮生杂草总生物量最多;土壤碱解氮和有效磷与杂草总生物量、湿生杂草总生物量、浮生杂草总生物量显著正相关(相关系数依次分别为0.508*和0.578**、0.552*和0.453*、0.410*和0.802**),p H值与三者显著负相关(相关系数依次分别为-0.516*、-0.531*和-0.698*)。土壤p H受土壤有效磷和碱解氮及其他因子的共同作用对杂草总生物量产生影响。通过施肥措施调节土壤适宜p H及碱解氮和有效磷含量,能有效调控农田中湿生和浮生杂草生长,使杂草种类和生物量在农业生产中达到有益平衡。     

铅镉抗性菌株JB11强化植物对污染土壤中铅镉的吸收

研究了铅、镉抗性菌株(JB11)和生物降解螯合剂乙二胺二琥珀酸(S,S)-EDDS)提高高羊茅和红三叶草吸收土壤中铅、镉的能力。从土壤样品中筛选出1株对Cd、Pb具有较强抗性的菌株JB11,经鉴定为成团泛菌属(Pantoea agglomerans)。JB11对Pb2+、Cd2+、Cr6+、Cu2+、Zn2+、Ni2+等多种重金属和卡那霉素、氨苄青霉素、链霉素、四环素等抗生素具有抗性,在温度15—35℃和pH为5.0—9.0范围内生长良好,最适生长温度为30℃,最适pH值为7.0左右,在低于3%的NaCl浓度下生长良好。盆栽试验研究了菌株JB11、EDDS及1/2EDDS+JB11 3种处理下对生长在Cd 100 mg/kg、Cd 200 mg/kg、Pb 500 mg/kg和Pb 1000mg/kg的土壤中的高羊茅和红三叶生长及从土壤富集Cd、Pb能力的影响。结果表明,外加JB11能使高羊茅和红三叶的干重分别比对照都有增加。除外加JB11后在经Pb 1000 mg/kg处理的土壤中高羊茅地上部的Pb浓度、经Cd 200 mg/kg处理的土壤中红三叶地上部的Cd浓度以及经Cd 100 mg/kg处理的土壤中高羊茅和红三叶根部的Cd浓度以外,外加JB11后对其他重金属处理植物中Pb和Cd的含量都显著增加。外加EDDS后除在经Pb 500 mg/kg的土壤中高羊茅根部的Pb浓度增加差异不显著,对其余重金属处理都可产生显著的影响(P0.05)。1/2EDDS+JB11的复合处理下植物重金属吸收量多数高于JB11和EDDS单独处理,JB11用于植物修复土壤Pb和Cd污染具有很大的潜力。     

Effect of fertilizers on Cd uptake of Amaranthus hypochondriacus, a high biomass, fast growing and easily cultivated potential Cd hyperaccumulator

In a greenhouse pot experiment, we assessed the phytoextraction potential for Cd of three amaranth cultivars (Amaranthus hypochondriacus L. Cvs. K112, R104, and K472) and the effect of application of N, NP, and NPK fertilizer on Cd uptake of the three cultivars from soil contaminated with 5 mg kg(-1) Cd. All three amaranth cultivars had high levels of Cd concentration in their tissues, which ranged from 95.1 to 179.1 mg kg(-1) in leaves, 58.9 to 95.4 mg kg(-1) in stems, and 62.4 to 107.2 mg kg(-1) in roots, resulting in average bioaccumulation factors ranging from 17.7 to 29.7. Application of N, NP, or NPK fertilizers usually increased Cd content in leaves but decreased Cd content in stem and root. Fertilizers of N or NP combined did not substantially increase dry biomass of the 3 cultivars, leading to a limited increment of Cd accumulation. NPK fertilizer greatly increased dry biomass, by a factor of 2.7-3.8, resulting in a large increment of Cd accumulation. Amaranth cultivars (K112, R104, and K472) have great potential in phytoextraction of Cd contaminated soil. They have the merits of high Cd content in tissues, high biomass, easy cultivation and little effect on Cd uptake by fertilization.     

龙须草对镉的耐受性和富集特征

利用盆栽试验,研究了龙须草对Cd的耐受能力和富集特征.结果表明:低浓度Cd处理(5 mg·kg-1)能促进龙须草的生长,增强其生理活性,生物量、净光合速率等12个指标比对照提高1.0%～15.5%;高浓度Cd处理(>5 mg.kg-1)对龙须草的生长产生抑制作用,但当Cd浓度达到100 mg.kg-1时,龙须草仍能完成正常的生理周期,生物量、净光合速率仅比对照分别下降27.0%和25.6%.龙须草各器官的Cd含量随Cd污染程度的上升而大幅度增加,根的Cd含量为350～500 mg.kg-1,茎叶为15～35 mg·kg-1.在Cd浓度<50 mg·kg-1时,吸Cd量随添加浓度的增大而增大,茎叶吸Cd量占总吸Cd量的15.7%～38.4%,茎叶与根的吸Cd量比值最高可达0.62.龙须草对Cd污染的耐受性、富集和转运能力均较强,是一种潜在的Cd超富集植物.     

Enhancing crop growth, nutrients availability, economics and beneficial rhizosphere microflora through organic and biofertilizers

Field experiment was conducted on fodder maize to explore the potential of integrated use of chemical, organic and biofertilizers for improving maize growth, beneficial microflora in the rhizosphere and the economic returns. The treatments were designed to make comparison of NPK fertilizer with different combinations of half dose of NP with organic and biofertilizers viz. biological potassium fertilizer (BPF), Biopower, effective microorganisms (EM) and green force compost (GFC). Data reflected maximum crop growth in terms of plant height, leaf area and fresh biomass with the treatment of full NPK; and it was followed by BPF+full NP. The highest uptake of NPK nutrients by crop was recorded as: N under half NP+Biopower; P in BPF+full NP; and K from full NPK. The rhizosphere microflora enumeration revealed that Biopower+EM applied along with half dose of GFC soil conditioner (SC) or NP fertilizer gave the highest count of N-fixing bacteria (Azotobacter, Azospirillum, Azoarcus andZoogloea). Regarding the P-solubilizing bacteria,Bacillus was having maximum population with Biopower+BPF+half NP, andPseudomonas under Biopower+EM+half NP treatment. It was concluded that integration of half dose of NP fertilizer with Biopower+BPF / EM can give similar crop yield as with full rate of NP fertilizer; and through reduced use of fertilizers the production cost is minimized and the net return maximized. However, the integration of half dose of NP fertilizer with biofertilizers and compost did not give maize fodder growth and yield comparable to that from full dose of NPK fertilizers.     

Effective Phytoextraction of Cadmium (Cd) with Increasing Concentration of Total Phenolics and Free Proline in Cannabis sativa (L) Plant Under Various Treatments of Fertilizers,Plant Growth Regulators and Sodium Salt

The comparative effect of fertilizers (NPK), plant growth regulators (GA₃, IAA, Zeatin) and sodium chloride (NaCl) on Cd phytoaccumulation, proline and phenolics production in Cannabis sativa was evaluated. Proline and phenolices were correlated with Cd contents in plant. Cd significantly reduced the plant growth. Fertilizers application (in combination) most significantly increased the growth (19 cm root and 47 cm shoot) on Cd contaminated soil. All treatments increased the Cd contents in plant tissues. This increase was highly significant in fertilizers treated plants (1101, 121 and 544 ppm in roots, stem and leaves respectively). Significantly positive correlation was found between Cd concentration and dry biomass of root (R² = 0.7511) and leaves (R² = 0.5524). All treatments significantly increased the proline and total phenolics and maximum was recorded in NaCl treated plants followed by fertilizers. Proline was higher in roots while phenolics in leaves. The correlation between proline and phenolics was positive in leaf (R² = 0.8439) and root (R² = 0.5191). Proline and phenolics showed positive correlation with Cd concentration in plant. Conclusively, fertilizers in combination seem to be the better option for Cd phytoextraction. Further investigation is suggested to study the role of phenolics and proline in Cd phytoextraction.     

Contribution of Ectomycorrhizal Fungi to Cadmium Uptake of Poplars and Willows from a Heavily Polluted Soil

Phytoextraction has been proposed in recent years as an environmentally and cost-efficient treatment technique for the remediation of heavy-metal contaminated sites. In particular, plants that are fast growing, metal accumulating, and economically interesting, such as sunflowers or trees, recently became more important in research on phytoextraction. Heavy metal uptake of trees can be strongly influenced by ectomycorrhizal fungi. We investigated the possibility of enhancing phytoextraction of Cd by willows (Salix viminalis) and poplars (Populus canadensis) in association with three well known ectomycorrhizal fungi (Hebeloma crustuliniforme, Paxillus involutus and Pisolithus tinctorius). A pot experiment was conducted using Cd polluted soil from a contaminated site. Four replicates of each combination of fungus and tree species, and controls without fungal inoculum, were set up. After a growth period of 11 weeks, yields and Cd concentrations in roots, stems, and leaves were measured. In addition, the total Cd uptake, the transfer to roots, and the translocation to stems and leaves were calculated. The association of P. canadensis with P. involutus led to a highly significant increase of Cd concentrations, in particular in the leaves, which contained 2.74 ± 0.34 mg Cd per kg dry matter. Compared to the control this is an enhancement of nearly 100%. The fungi also significantly enhanced the translocation from the roots to the leaves, leading to a concentration ratio (leaves/roots) of 0.32 ± 0.06 compared to 0.20 ± 0.02 of the control plants. Additionally, P. involutus significantly enhanced the total Cd extraction by P. canadensis. Similar effects were not observed by other fungi or in association with S. viminalis.     

Effects of cadmium and arsenic on growth and metal accumulation of Cd-hyperaccumulator Solanum nigrum L

Remediation of heavy metal contaminated sites using hyperaccumulators presents a promising alternative to current environmental methodologies. In the pot-culture experiment, the effects of Cd, and Cd-As on the growth and its accumulation in the Cd-hyperaccumulator (Solanum nigrum L.) were determined. No reduction in plant height and shoot dry biomass was noted when the plants were grown at Cd concentration of 1.0. The plant can be classified as a Cd-hyperaccumulator. Growing in the presence of 10 mg/kg Cd and 50 mg/kg As, the plant height and shoot dry matter yields did not decrease significantly (p>0.05) compared to that at 10 mg/kg Cd, however the stem Cd content increased by 28%. It was also observed that S. nigrum used exclusion strategy to reduce As uptake in the roots and restricted translocation into the shoots, resulting in As contents of the plant being root>leaf>stem>seed. The Cd accumulation capacity coupled with its relatively high As tolerance ability could make it useful for phytoremediation of sites co-contaminated by Cd and As.     

秋华柳和枫杨幼苗对镉的积累和耐受性

以秋华柳和枫杨当年实生幼苗为研究对象,采用向土壤添加外源镉(CdCl₂ · 2.5H₂O)的形式设置了0(对照组)、10 、20 、50、100 mg/kg 5个处理,研究了镉胁迫下秋华柳和枫杨幼苗的生长、生物量变化和根茎叶镉含量,并评价了两树种的耐性指数(Ti)、转移系数(Tf)和生物富集系数(BCF)。结果表明:(1)在镉含量为10 mg/kg时,秋华柳和枫杨幼苗基于生长和生物量参数的耐性指数(Ti)分别为91.72和91.62,与对照组相比无显著变化,其余各组(20、50、100 mg/kg)则显著低于对照植株(P<0.05);(2) 土壤镉浓度小于20mg/kg时,秋华柳植株茎、叶镉积累量分别高达61.73 mg/kg、163.04 mg/kg,根镉积累量为91.05 mg/kg;枫杨植株茎、叶镉积累量最高分别为7.9 mg/kg、5.25 mg/kg,仅为秋华柳茎、叶的12.8%和3.2%,根镉积累量高达190.68 mg/kg;(3) 除对照外,秋华柳幼苗各部分镉含量为叶＞根＞茎,转移系数(Tf)介于0.789-1.513之间,枫杨幼苗各部分镉含量为根＞茎＞叶,转移系数(Tf)介于0.037-0.044之间,远远小于秋华柳Tf;(4)秋华柳和枫杨幼苗在土壤镉浓度为10 mg/kg时具有很高的生长适应性和耐性,秋华柳根吸收的镉向地上部分转移能力、地上部分积累镉的能力都远远大于枫杨,生物富集系数(BCF)进一步证实了这一特性。研究证明,秋华柳植株具有很高的镉耐性、镉转移能力及地上部分积累镉的能力,适合于镉污染严重区域的植物修复。     

Cadmium phytoextraction from loam soil in tropical southern China by Sorghum bicolor

The cadmium (Cd) uptake characteristics by Sorghum bicolor cv. Nengsi 2# and Cowley from the acidic sandy loam soil (pH = 6.1) during the entire growth period (100 days) were investigated in pot outdoors in a tropical district of southern China, Hainan Island. The Cd-spiked levels in soil were set as 3 and 15 mg/kg. Correspondingly, the available Cd levels in soil extracted by Mehlich III solution were 2.71 and 9.41 mg/kg, respectively. Basically, two varieties in a full growth period (100 days) did not show a significant difference in their growth and Cd uptake. Under high Cd stress, the plant growth was inhibited and its biomass weight and height decreased by 38.7–51.5% and 27.6–28.5%, respectively. However, S. bicolor showed higher bioaccumulation capability of Cd from soil to plant [bioconcentration factor (BCF)>4], and higher transfer capability of Cd from roots to shoots [translocation factor (TF)>1] under high Cd stress; Cd contents in the roots, stems, and leaves of S. bicolor reached 43.79–46.07, 63.28–70.60, and 63.10–66.06 mg/kg, respectively. S. bicolor exhibited the potential phytoextraction capability for low or moderate Cd-contamination in acidic sandy loam soil.     

Effect of fertilizers on Cd accumulation and subcellular distribution of two cosmos species (Cosmos sulphureus and Cosmos bipinnata)

Addition of fertilizer amendments is regarded as an ideal approach to enhancing phytoextraction. However, there is little information available on the influence of common fertilizers on Cd accumulation of two newly reported Cd accumulators, Cosmos sulphureus and Cosmos bipinnata (C. sulphureus and C. bipinnata). The effects of N (CO(NH₂)₂), NP (CO(NH₂)₂ + Ca(H₂PO₄)₂), and NPK (CO(NH₂)₂ + Ca(H₂PO₄)₂ + KCl) fertilizers on Cd accumulation and subcellular distribution of C. sulphureus and C. bipinnata were studied in a 70-d pot experiment. The results showed that Cd uptake of C. sulphureus and C. bipinnata with NPK fertilizer was significantly higher than control, N, and NP fertilizers, especially 3.8- and 4.7-fold higher than control (p < 0.05). Compared with C. bipinnata, C. sulphureus achieved higher biomass and Cd uptake in aboveground parts under fertilizer treatments, especially NPK fertilizer. The Cd subcellular distribution revealed that segregation of Cd to Cd-rich granules (MRG) might play an important role in Cd detoxification in both species. C. sulphureus is more likely than C. bipinnata to separate the Cd in MRG and reduce the partition in the heat-denatured protein fraction, especially with NPK fertilizer. Therefore, C. sulphureus combined with NPK fertilizers could be an effective method to remediate Cd-polluted farmland soils in China.     

不同作物与玉米间作对玉米吸收积累镉的影响

采用盆栽技术,研究了7种间作作物对玉米吸收积累镉(Cd)的影响.结果表明,多数间作作物对玉米生物量没有明显影响,只有扁豆对玉米生长有较明显的抑制作用,使玉米生物量降至对照的67.8 %.间作豆科作物大幅提高玉米的Cd积累总量,其中鹰嘴豆的作用最为明显,使玉米对Cd的累积量增加1倍以上.7种间作植物对Cd也有不同水平的吸收,其中,油菜与籽粒苋可在地上部大量积累Cd（油菜地上部Cd浓度达53.9 mg·kg^-1,籽粒苋达51.0 mg·kg^-1),且籽粒苋根的Cd含量高达91.8 mg·kg^-1 (土壤Cd为3 mg·kg^-1).间作植物与玉米对Cd的吸收具有不同的交互作用特征,豆科作物在自身较少吸收Cd的条件下,显著提高了玉米对Cd的积累;籽粒苋在自身大量累积Cd的同时,一定程度上抑制了与其间作的玉米的Cd累积量;油菜地上部分吸收较多的Cd,但降低了玉米地上部分Cd含量.研究表明,如果将玉米作为大生物量的Cd污染修复植物来应用,可将其与豆科植物间作,以提高Cd清除效率;籽粒苋与油菜具有大量积累Cd的能力,可作为Cd污染土壤的修复植物.