Relationships between lipophilicity and the distribution of non-ionised chemicals in barley shoots following uptake by the roots     

Geoffrey G. Briggs  Richard H. Bromilow  Avis A. Evans  Mark Williams 《Pest management science》1983,14(5):492-500

Determinations were made of the distribution of two series of non-ionised chemicals, ^O-methylcarbamoyloximes and substituted phenylureas, in barley shoots, following uptake by the roots from solution. The concentrations in basal and central shoot sections became constant after 24 to 48 h for all but the most lipophilic chemical studied, and were then greatest for the more lipophilic chemicals. Amounts in the leaves generally increased up to 72 or 96 h, when degradation balanced translocation. The accumulation of chemical in the lower section of shoots can be ascribed to a partitioning process similar to that in roots, the chemical being partitioned between the shoot and the xylem transpiration stream; this uptake could be estimated from the octan-1-01/water distribution coefficients, and was predicted to be greatest for compounds for which log K_ow=4. 5.  相似文献   

Physico-chemical factors affecting uptake by roots and translocation to shoots of weak acids in barley     

Geoffrey G. Briggs  Renê L. O. Rigitano  Richard H. Bromilow 《Pest management science》1987,19(2):101-112

The uptake from solution of maleic hydrazide, flamprop and a series of phenoxyacetic acids by roots, and their subsequent translocation to shoots, was measured in barley. Both uptake and translocation increased as the pH of the solution decreased, the magnitude of the change varying amongst the chemicals tested. Uptake by roots could be accounted for by the ion-trap mechanism, which assumes that entry of the chemicals occurs largely by passive diffusion of the undissociated form of the acids, with passage of the anions across the cell membranes being very slow. The ratio of the permeability of the cell membranes to the undissociated and dissociated forms of the acids was estimated from the accumulation in roots, and in the phenoxyacetic acid series this ratio was maximal (4×10⁵) for compounds of intermediate lipophilicity. Maleic hydrazide and flamprop had much lower ratios, 1.8×10² and 10³ respectively; the value for flamprop was much less than for phenoxyacetic acids of similar lipophilicity, such as 2, 4- dichlorophenoxyacetic acid, indicating that lipophilicity may not be the sole factor determining the behaviour of weak acids in plants. Translocation to shoots was approximately proportional to the chemical concentrations in the roots.  相似文献   

Uptake and fate of triticonazole applied as seed treatment to spring wheat (Triticum aestivum L.)     

Rodolphe Qurou  Michel Euvrard  Christian Gauvrit 《Pest management science》1998,53(4):324-332

Following seed treatment of wheat (Triticum aestivum L.) with ¹⁴C-labelled triticonazole at a dose of 1·8 g kg^-1 seed, the uptake of radioactivity by shoots and roots was investigated from the two- to three-leaf stage up to the beginning of the booting phase, 80 days after sowing. Triticonazole equivalents taken up by wheat plants reached 5·7% and 14·6% of the applied dose in the shoots and the roots, respectively. Between the two- to three-leaf stage and the beginning of the booting phase, the concentration of triticonazole equivalents in the shoots decreased from 2·5 to 0·15 μg g^-1 fresh weight. This was attributed to uptake of triticonazole by roots not keeping pace with shoot growth and increased retention in the roots of triticonazole taken up. The main factor limiting the uptake of triticonazole by the roots may be the rapid growth of the uptake-active apical root parts out of the dressing zone which had formed in the soil. Distribution of triticonazole equivalents taken up by the main shoot showed a decreasing concentration gradient from the oldest to the youngest leaf. An increase in the seed treatment dose was investigated as a way to increase the concentration of triticonazole in the shoots, but its influence remained limited. © 1998 SCI  相似文献   

Uptake, translocation and phytotoxicity of root-absorbed haloxyfop in soybean, Festuca rubra L. and Festuca arundinacea Schreb     

R. AGUERO-ALVARADO  A.P. APPLEBY 《Weed Research》1991,31(5):257-263

The concentrations of haloxyfop in nutrient solution required to reduce the total plant dry weight of soybean (Glycine max L. Merr. ‘Evans’), red fescue (Festuca rubra L. ‘Pennlawn’), and tall fescue (Festuca arundinacea Schreb. ‘Houndog’) by 50% (GR₅₀) were determined. The GR₅₀) values for soybean, red fescue and tall fescue were 76 μM, 3μM and 0.4 μM, respectively. The reduction in growth in roots and shoots of soybean was similar. In contrast, the relative reduction in root tissue weight was greater than that for foliar tissue in both grass species. The amount of ¹⁴C-haloxyfop in soybean roots or shoots was higher than in red fescue or tall fescue. Red fescue accumulated less haloxyfop in the foliage than in the roots. On the other hand, similar amounts of ¹⁴C-haloxyfop accumulated in both organs in both soybean and tall fescue. ¹⁴C-haloxyfop appeared to be actively absorbed by the roots of all species. Soybean absorbed more nutrient solution, but utilized it less on a per gram dry matter produced basis than the grass species. Differences in the uptake and translocation of haloxyfop by roots do not account for differences in tolerance between species. However, a higher level of retention of haloxyfop in the roots of red fescue than in tall fescue may provide the former with an additional selectivity advantage under conditions where there is significant root exposure to the herbicide.  相似文献   

Arginase activity in Arabidopsis thaliana infected with Heterodera schachtii          下载免费PDF全文

M. Labudda  E. Różańska  J. Cieśla  M. Sobczak  J. M. Dzik 《Plant pathology》2016,65(9):1529-1538

The activity of arginase (ARGAH), which results in ornithine and urea production, is important for nitrogen metabolism in all organisms as well as for defence responses. The second‐stage juveniles of the cyst‐forming nematode Heterodera schachtii penetrate roots and induce the formation of a permanent feeding site. To determine whether infection with H. schachtii causes the induction of arginase, the expression was studied in Arabidopsis roots and shoots at the day of inoculation and at 3, 7 and 15 days post‐inoculation (dpi). Parasite infection caused a strong decrease of root arginase activity and ARGAH1 gene expression, which persisted over the entire examination period. In shoots, the mRNA expression of ARGAH2 increased at 3 and 7 dpi, but the enzymatic activity was significantly enhanced only at 3 dpi. Thus, while arginase down‐regulation occurs in roots, which is apparently due to the presence of nematode effectors, in shoots the activity is only transiently up‐regulated despite persistently high gene expression. As oxidative stress is possible during nematode infection, the activity and gene expression of glutathione reductase, a marker of the redox equilibrium, were estimated and found to be significantly enhanced at 7 dpi in shoots of infected plants. The level of proline, an amino acid known for its ability to scavenge free radicals, was increased 60‐fold. The results suggest that the disruption of redox homeostasis, as reflected by increased proline level and glutathione reductase expression and activity, accompanies changes in arginine metabolism in the shoots, indicating systemic changes induced by nematode infection.  相似文献   

Uptake by roots and translocation to shoots of two morpholine fungicides in barley     

Keith Chamberlain  Shilpa Patel  Richard H. Bromilow 《Pest management science》1998,54(1):1-7

Despite being lipophilic, morpholine fungicides are systemic in plants. Such transport may be explicable by their protonation (pKa∽7·5) at the pH of plant compartments to yield the more polar cation. This behaviour might be a useful attribute to be incorporated into other classes of lipophilic pesticides. To understand quantitatively the behaviour of the morpholine fungicides, the uptake by roots and transport to shoots in barley of two such ¹⁴C-labelled compounds, dodemorph and tridemorph, were investigated using bathing solutions of differing pH. At pH 5, uptake and transport were small, but increased by approximately two orders of magnitude at pH 8. Tridemorph, the more lipophilic of the two compounds, was highly accumulated by roots at pH 8 and moderately translocated to shoots. In contrast, dodemorph was translocated to shoots at pH 8 with remarkable efficiency, moving into the xylem across the endodermis at 23 times the efficiency of water, though accumulation in roots was less than that of tridemorph. Behaviour at 24 h was largely similar to that at 48 h for both compounds, indicating that uptake and translocation are equilibrium processes maintained over time. Transport to shoots for each compound was directly proportional to the concentrations accumulated in the roots, except at low pH where partitioning into root solids became proportionately more important with such material not being directly available for transport to the xylem across the endodermis. Uptake and transport of these basic fungicides are explained in terms of their partitioning and of their accumulation in acidic plant compartments by ion trapping as the protonated form; this behaviour is discussed in relation to the pKa and lipophilicity of these compounds. © 1998 Society of Chemical Industry  相似文献   

Alfalfa metabolism of propham     

Gerald G. Still  E.R. Mansager 《Pesticide biochemistry and physiology》1975,5(6):515-522

Root-treated alfalfa absorbs, translocates, and metabolizes [phenyl-¹⁴C]isopropyl carbanilate ([¹⁴C]propham). After 7 days of root treatment, the distribution of radiolabel was 73% for shoots and 27% for roots. Shoots and roots were extracted and separated into the polar, nonpolar, and solid residual components using a mixture of chloroform, methanol and water. The insoluble residues accounted for approximately 40% of the ¹⁴C found in shoots and roots. The nonpolar fraction (6.1% of the radiolabel in shoots and roots) was not characterized, but was shown to be some component other than parent propham. Propham was not found in either shoots or roots. The polar metabolites were partly purified on Amberlite XAD-2. Cellulase-liberated aglycones were derivatized and separated by high-performance liquid and gas-liquid chromatography. The infrared, nuclear magnetic resonance, and mass spectral data showed that the polar metabolites of alfalfa shoots and roots were glycoside conjugates of isopropyl 2-hydroxycarbanilate (2-hydroxypropham) and isopropyl 4-hydroxycarbanilate (4-hydroxypropham). Conjugated 4-hydroxypropham accounted for 45.9% of the ¹⁴C in the shoots and 3.4% of the ¹⁴C in the roots. Conjugated 2-hydroxypropham accounted for 3.4% of the ¹⁴C in the shoots and 1.4% of the ¹⁴C in the roots.  相似文献   

Relationship between safening activity of dymron and fenclorim to pretilachlor and glutathione S-transferase activity in rice     

FAN DENG  YUJI YAMADA  KENJI USUI 《Weed Biology and Management》2001,1(4):216-221

Dymron [1‐(α,α‐dimethybenzyl)‐3‐(p‐tolyl)urea] and fenclorim (4,6‐dichloro‐2‐phenylpyrimidine) were found to exhibit a safening activity on the growth of rice (Oryza sativa L.) seedlings against pretilachlor [2‐chloro‐2′,6′diethyl‐N‐(2‐propoxyethyl)acetanilide] injury. By pretilachlor treatment at 10^–6 and 10^–5 mol L^–1, the elongation of the third leaves of rice seedlings was reduced by approximately 20 and 40%, and that of the fourth leaves was reduced by approximately 40 and 80%, respectively. Upon the treatment of dymron at 3 × 10^–6 and 10^–5 mol L^–1 in combination with pretilachlor, the growth inhibition was half alleviated in the third leaves, and the length of the fourth leaves was almost recovered from 10^–6 mol L^‐1 pretilachlor injury, and was 20–25% recovered from 10^–5 mol L^–1 pretilachlor injury. Upon the treatment of fenclorim at 3 × 10^–6 and 10^–5 mol L^–1 in combination with pretilachlor, the growth inhibition of rice seedlings was almost alleviated in both the third and the fourth leaves. This result indicated that dymron and fenclorim showed almost the same safening effect on the fourth leaf growth against 10^–6 mol L^‐1 pretilachlor injury, although fenclorim showed higher effects at higher concentrations of pretilachlor. Glutathione S‐transferase (GST) activities in rice seedlings were investigated after being treated with a herbicide and safener. By pretilachlor treatment at 10^–6 and 10^–5 mol L^–1, the GST activity was approximately 32 and 72% increased in roots, respectively, and a little increased (7–13%) in shoots of two‐leaf‐stage rice seedlings. By dymron treatment at 3 × 10^–6?10^–5 mol L^–1, the GST activity was 2–30% increased in roots, but was not increased in shoots. By their combination treatment, the GST activity was almost the same or less than that by treatment with pretilachlor alone. In contrast, by fenclorim treatment alone, the GST activity was 43–52 and 33–45% increased in roots and shoots of rice seedlings, respectively. By the combination treatment of pretilachlor and fenclorim, the GST activity was increased 73–126% in shoots and 101–139% in roots, and was much more increased in both shoots and roots compared with treatment of pretilachlor or fenclorim alone. It was found that dymron showed less effect in increasing the GST activity than fenclorim. It is also suggested that dymron did not increase the GST activity in shoots but did increase it slightly in roots, and showed almost no effect on GST increase by pretilachlor in shoots, or rather reduced the increase in roots. From the above results, fenclorim and dymron may have different mechanisms of safening effects on the protection of rice seedlings against pretilachlor injury.  相似文献   

Transport via xylem of atrazine, 2,4-dinitrotoluene, and 1,2,3-trichlorobenzene in tomato and wheat seedlings     

Yu H. Su  Yong C. Liang 《Pesticide biochemistry and physiology》2011,100(3):284-288

Transport of atrazine (ATR), 2,4-dinitrotoluene (DNT), and 1,2,3-trichlorobenzene (TCB) from roots to shoots via xylem of wheat and tomato seedlings was measured following a 24-h exposure of plant roots to hydroponic solutions of these organic compounds. Transport of the compounds from roots to shoots reached equilibrium within 24 h, consistent with an earlier finding. Low concentrations of TCB were detected in the final external solution and the xylem efflux of control wheat seedlings. This suggested that there was a fast foliar uptake of TCB and its downward movement via phloem of the wheat seedlings. Concentrations of DNT, ATR, and TCB in xylem effluxes of wheat and tomato increased significantly with increases of their external concentrations. The translocation stream concentration factors (TSCF), i.e., the ratios of the concentrations in xylem sap to those in external solution, of the compounds with tomato seedlings followed the order of ATR > DNT >> TCB, which was inversely correlated with the log K_ow (the octanol–water partition coefficient) of the compounds. The observed xylem transports of DNT and TCB from roots to shoots with wheat seedlings were lower than those with tomato seedlings. ATR exhibited a high xylem transport with the two plant species, which resulted presumably from an atrazine–metal complex formation.  相似文献   

Effect of 2-chloroethylphosphonic acid on the morphology and apical dominance of Agropyron repens     

J. Caseley 《Pest management science》1970,1(3):114-115

2-Chloroethylphosphonic acid applied to foliage or soil released dormant buds from apical dominance in aerial shoots and rhizomes of Agropyron repens. The aerial shoots had scale-like leaves and shortened internodes with adventitious roots at the nodes. The treated plants had a dwarf appearance and had increased peroxidase activity.  相似文献   

Physicochemical factors affecting the uptake by roots and translocation to shoots of amine bases in barley     

Jun Inoue  Keith Chamberlain  Richard H. Bromilow 《Pest management science》1998,54(1):8-21

The uptake by barley roots from nutrient solution and subsequent transport to shoots of two series of amine bases were measured over 6 to 72 h. The compounds were chosen to span systematically ranges of lipophilicity (assessed using 1-octanol/water partition coefficients, K_ow) and pKa that would include commercial pesticide amines. In a series of six substituted phenethyl amines, strong bases with pKa∽9·5, all the compounds were strongly taken up by roots from solutions of pH 8·0; uptake declined substantially as the pH was lowered to 5·0, especially for the compounds of intermediate lipophilicity (log K_ow 2 to 3). This uptake could be ascribed to three processes: (i) accumulation of the cation inside the root cells due to the negative charge on the plasmalemma, as given by the Nernst equation and important only for the polar compounds which have low permeation rates through membranes; (ii) accumulation into the vacuole by ion-trapping, which was the dominant process at high pH for all compounds and at all pH values for the compounds of intermediate lipophilicity; (iii) partitioning on to the root solids, substantial only for the most lipophilic compounds. Translocation to shoots was proportional to uptake by roots, this ratio being independent of external pH for each compound and being optimal for the compounds of intermediate lipophilicity. Such proportionality was also observed in a series of three weaker bases of intermediate lipophilicity, in which compounds of pKa 7·4 to 8·0 were also well taken up and translocated whereas the very weak base 4-ethylaniline (pKa 5·03) was much less so. Tests with quaternised pyridines confirmed that organic cations move only slowly through membranes. The observed behaviour of the amines could be modelled reasonably well assuming that transport within the plant was dominated by movement across membranes of the non-ionised species, and this appeared to be true even for the most lipophilic phenethylamine (log K_ow 4·67) studied, though its long-distance movement would be as the protonated species. © 1998 Society of Chemical Industry  相似文献   

Uptake and phytotoxicity of chlorsulfuron in Zea mays L. in the presence of 1,8-naphthalic anhydride     

NORA F. O'LEARY  G. N. PRENDEVILLE 《Weed Research》1985,25(5):331-339

The sites of uptake of chlorsulfuron in maize (Zea mays L.) were investigated at three different growth stages. Exposure of seedling roots, or shoots separately, to herbicide-treated sand over 4 days resulted in inhibition of both roots and shoots. Exposure of seedling roots to chlorsulfuron-treated soil over 21 days severely inhibited both roots and foliage, while separate shoot exposure also reduced both foliage and root growth. After plant emergence, exposure of the crown root node, growing point and lower stem to treated soil reduced foliage and root growth, but exposure of the shoot above the growing point caused only slight inhibition of foliage and had no effect on roots. The herbicide safener 1,8-naphthalic anhydride (NA) applied as a dust (10 g kg^?1 seed weight), or as a 50 mg 1^?1 suspension in water to maize seeds, reduced the root inhibition by chlorsulfuron in 4-day-old seedlings. NA completely prevented both foliage and root injury when chlorsulfuron was placed in soil in the shoot zone before emergence, or in the shoot zone below the soil surface after plant emergence. NA slightly decreased injury to foliage, but not to roots when chlorsulfuron was placed in soil in the root zone before emergence. NA seed treatment protected both roots and foliage against injury from foliarly applied chlorsulfuron. Plants were also protected when a suspension of NA in water was sprayed on the foliage seven days before chlorsulfuron. When a mixture of NA and chlorsulfuron was applied to foliage, root injury was reduced more than foliage injury.  相似文献   

Regeneration of blackberry (Rubus procerus P. J. Muell.) from root segments     

R. G. Richardson 《Weed Research》1975,15(5):335-337

Temperatures from 13°C to 30°C had no significant effect on the formation of shoots on root segments of Rubus procerus P. J. Muell. Shoots were not produced at 8°C. Some new roots were produced on root segments at all temperatures between 8°C and 30°C, although significantly more (P= 0·05) roots were produced at 26°C. The polarity of the root system was maintained in root segments. More shoots were formed towards the basal end, i.e. nearest the crown, and more roots towards the apical end of the root segments.  相似文献   

Modeling root absorption and translocation of 5-substituted analogs of the imidazolinone herbicide,imazapyr     

Desiree L. Little  David W. Ladner  Dale L. Shaner  Richard D. Ilnicki 《Pest management science》1994,41(3):171-185

Quantitative structure-activity relationships (QSAR) were developed between the physicochemical parameters of the 5-substituent of a series of analogs of the imidazolinone herbicide, imazapyr, and root absorption, translocation, inhibition of acetohydroxyacid synthase (AHAS), and herbicidal activity of the analogs. An optimum substituent lipophilicity (π = 1.85–2–3) for root absorption was identified for corn (Zea mays L.) and sunflower (Helianthus annuus L.). Translocation from roots to shoots was greatest for those analogs having either highly nonpolar or highly polar 5-substituents, indicating that both symplastic and apopiastic mechanisms may be functioning. In addition, translocation from roots was positively correlated with electron-withdrawing parameters of the 5-substituent, and a possible mechanism governing this relationship is discussed. Modeling in vitro AHAS inhibition was not successful, but models were developed for herbicidal activity as measured in an Arabidopsis thaliana (L.) Hevnh. bioassay. The whole-plant models described an optimum substituent lipophilicity (π = 0 71) which probably reflected the influence of this parameter on the component processes of absorption and translocation. Whole-plant activity was also greater for analogs having electron-donating 5-substituents; this result suggests that electron donation may be important for metabolism, or more likely, for AHAS inhibition.  相似文献   

Selectivity of glyphosate in creeping red fescue and reed canarygrass*     

L. Y. MAROUIS  R.D. COMES  C. P. YANG 《Weed Research》1979,19(6):335-342

The differential tolerance of resislant creeping red fescue (Fes- tuca rubra L, var, rutra) and susceptibie reed canarygrass (Pha- laris arundinacea L.) seedlings to glyphosate [N-(phosphono- meihyDglycine) was confirmed under growth chamber condilions. The absorption, transiocation and metabolism of ¹⁴C-glyphosate was examined in both species to determine if differences in these processes could account for the observed selectivity, Creepmg red fescue actually absorbed more glyphosate than did t-eed canarygrass, and both species rapidly translocated the herbicide throughout their respective tissues. No metabolism of glyphosate was detected in either species. Differential interception and retention of the glyphosate spray can probably be eliminated as possible selectivity mechanisms. The relative tolerance of creeping red fescue to glyphosale appears to be related to its ability lo regenerate roots and shoots from the crown of the plant, but the mechanism of resistance remains obscure.  相似文献   

The effect of some herbicides on vesicular-arbuscular endophyte abundance in the soil and on infection of host roots     

T. Francis Smith  Amanda J. Noack  Stephen M. Cosh 《Pest management science》1981,12(1):91-97

The effect of the herbicides di-allate, diquat, diuron, paraquat, tri-allate and trifluralin, at a range of application rates from 0.5 to 32 times that recommended by the manufacturers, on vesicular-arbuscular (V-A) endophyte spore abundance in the soil and on infection of wheat roots was investigated in field and glasshouse experiments. Paraquat and diquat had no measurable effect on V-A endophyte spore abundance. There was a slight trend to lower V-A endophyte spore numbers at high rates of application of di-allate and tri-allate but no trend for the other chemicals. Infection intensity (% root length infected) declined at high rates of di-allate and led to lower mycorrhizal root weights. The phosphorus content of the shoots was also reduced by di-allate. High doses of di-allate, diuron, tri-allate and trifluralin reduced most parameters of plant growth more than mycorrhizal parameters. It is therefore concluded that at normal application rates these chemicals are unlikely to affect adversely endomycorrhiza formation or function.  相似文献   

Absorption, translocation, and fate of propyzamide in witloof chicory (Cichorium intybus L.) and common amaranth (Amaranthus retroflexus L.)     

W. MERSIE 《Weed Research》1995,35(1):15-18

Witloof chicory (Cichorium intybus L.) is tolerant to propyzamide and common amaranth (Amaranthus retroflexus L.) is sensitive. The absorption, translocation, and metabolism of propyzamide was studied in seedlings of witloof chicory and common amaranth to determine if differences in these processes cause the differential sensitivity. At 24,48, and 72 h after root treatment, there was no difference in the concentration of ¹⁴C (g^?1 plant dry wt) in com-mon amaranth and witloof chicory. Approximately 50% of the absorbed ¹⁴C was translocated out of the roots to shoots of both species at 24 and 48 h after treatment. After 72 h about 55 and 74% of the absorbed ¹⁴C was translocated to shoots of witloof chicory and common amaranth, respectively. Distribution of ¹⁴C (g^?1 plant dry wt) in plant parts of witloof chicory and common amaranth seedlings was similar. Roots of both species accumulated the highest concentration of total ¹⁴C, whereas shoots contained the lowest. Thin layer chromatography revealed that the herbicide was metabolized in neither species 48 h after treatment. No differences were found in absorption, translocation, or metabolism between witloof chicory and common amaranth with regard to propyzamide.  相似文献   

Seasonal pattern of shoot emergence and its endogenous control in horsenettle (Solanum carolinense L.)     

KATSURA MIYAZAKI  MISAKO ITO  SHUJI URAKAWA 《Weed Biology and Management》2005,5(1):14-18

Controlling established horsenettle plants is achieved by suppressing shoot emergence from root systems. The seasonal pattern of shoot emergence and its possible endogenous control in horsenettle ( Solanum carolinense L.) were investigated. The shoot emergence period in an undisturbed population was limited to a seven-week period from mid-April, and a little longer in tilled conditions. Detached roots showed very high shoot-sprouting ability under 15–30°C throughout the year. In shoot clipping experiments, new shoots sprouted only from the stem and not from the root when attached to shoots, whether above-ground or underground. On the contrary, new shoots sprouted from the roots when all parts of the shoots were clipped off. From these results, the limited shoot emergence period in horsenettle is thought to be initiated by temperatures necessary for sprouting and is ended by a growth correlation effect between early emerged and matured shoots.  相似文献   

MgO-induced defence against bacterial wilt disease in Arabidopsis thaliana     

M. Ota  K. Imada  K. Sasaki  H. Kajihara  S. Sakai  S. Ito 《Plant pathology》2019,68(2):323-333

Bacterial wilt, caused by Ralstonia solanacearum, is a devastating soilborne disease in plants that limits the production of many crops worldwide. Although management of bacterial wilt has so far been unsuccessful, enhancing host resistance to the pathogen may be an effective control strategy. Recently, magnesium oxide (MgO) was found to induce defence responses against R. solanacearum in tomato plants. Here, the mechanisms underlying MgO-induced defence responses against R. solanacearum (MgO-i DARS) were investigated using Arabidopsis thaliana as a host plant. MgO-i DARS was confirmed in A. thaliana mutants deficient in jasmonic acid or ethylene signalling pathways as well as in the wildtype (Col-0) plants. In contrast, no MgO-i DARS was found in A. thaliana mutants deficient in the salicylic acid (SA) production (sid2-2) and signalling pathways (tga1-1 and npr-1). MgO treatment led to significant accumulation of SA in both roots and shoots of Col-0. The SA biosynthesis gene isochorismate synthase 1 (ICS1) was induced in roots and shoots of A. thaliana treated with MgO. An NADPH oxidase gene respiratory burst oxidase homolog D (AtRbohD) was up-regulated in both roots and shoots of Col-0 treated with MgO. No MgO-i DARS was observed in A. thaliana mutants deficient in AtRbohD. These results suggest that SA and RBOHD-mediated ROS are pivotal for MgO-i DARS in A. thaliana.  相似文献   

Glyphosate effects on Canada thistle (Cirsium arvense) roots, root buds, and shoots     

S. J. CARLSON  W. W. DONALD 《Weed Research》1988,28(1):37-45

Glyphosate ? ? Mention of irademark or proprietary product does not constitute a gtiarantee or warranty oC the product by the U.S. Department of Agriculture and does nut imply its approval to the exclusion of other products thai may also be suitable.
was sprayed at 0009–1·12 kg a.i. ha^?1 on the foliage of large potted glasshouse-grown Canada thistle [Cirsium arvense (L.) Scop.], which had extensive, well-developed roots. Increasing the glyphosate rate progressively reduced the total number of visible adventitious root buds plus emerged secondary shoots per plant proportionately more than root biomass, 10 days after treatment. Cortical tissue of thickened propagative roots became soft, water-soaked, darkened, and some regions decomposed, exposing strands of vascular tissue. Lateral roots completely decomposed. When thickened roots were segmented to stimulate secondary shoot emergence from root buds 10 days after foliar treatment, Fewer secondary shoots emerged than expected from the number of visible adventitious root buds present on both control and herbicide-treated plants. Increasing the rate of glyphosate also reduced the regrowth potential of root buds proportionately more than root biomass. Regrowth potential was measured as the number of emerged secondary shoots 35 days after segmenting unearthed roots from plants that had been sprayed 10 days earlier. When foliar-applied at 0·28 kg ha^?1, glyphosate decreased the regrowth potential of root buds to zero in 2 and 3 days, as measured by secondary shoot dry weight and number, respectively, even though root fresh weight was unchanged 3 days after foliar treatment. These dose-response and time-course experiments demonstrate that glyphosate did not reduce root biomass as much as it decreased root bud numbers and secondary shoot regrowth potential from root buds.  相似文献