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141.
142.
The chemical nature of enzymatically isolated endodermal cell walls from Cicer arietinum L., Clivia miniata Reg. and Iris germanica L. was studied by FTIR (Fourier transform infrared) spectroscopy. Observed frequencies were assigned to functional groups
present in the cell wall and relative amounts of the biopolymers suberin and lignin, cell wall carbohydrates and proteins
were determined. Infrared absorption spectra indicated structural characteristics for the three different developmental states
of the isolated endodermal cell wall: primary endodermis with Casparian strips (state I), secondary endodermis with suberin
lamellae (state II), and tertiary endodermis with U-shaped cell wall depositions (state III). The data obtained from this
study are compared with previous results obtained by chemical degradation of isolated endodermal cell walls and subsequent
determination of monomeric degradation products by gas chromatography and mass spectrometry. It is concluded that FTIR spectroscopy
represents a direct and nondestructive method suitable for the rapid investigation of isolated plant cell walls. Furthermore,
the observation that the suberin-assigned absorption bands disappeared after transesterification of the samples with BF3-methanol confirmed that suberin is completely degraded by this treatment.
Received: 20 February 1999 / Accepted: 25 May 1999 相似文献
143.
The biology and host range of the defoliating beetle Physonota maculiventris Boheman (Chrysomelidae: Cassidinae) were studied in quarantine to determine its suitability for release as a biological control agent against Mexican sunflower, Tithonia diversifolia (Hemsl.) A. Gray (Asteraceae), in South Africa. Females laid 5.25?±?0.25 (mean?±?SE) egg batches during their lifetimes, with each batch consisting of approximately 33 eggs. Larvae were highly gregarious as early instars and both larvae and adults fed voraciously, often defoliating the plants completely. The life cycle of the beetle was completed in 67.5?±?7.5 days under quarantine conditions. Among the 58 test plant species subjected to no-choice tests, P. maculiventris developed successfully on T. diversifolia and some sunflower (Helianthus annuus L.) cultivars. However, only minor damage was recorded on non-target species, notably the exotic weed Xanthium strumarium L. and some H. annuus cultivars. Also, survival to adulthood was considerably lower on sunflower cultivars than on the target weed during these tests. During choice tests, P. maculiventris oviposited and developed successfully on T. diversifolia only, with only minor feeding damage on some H. annuus cultivars, suggesting that the beetle’s field host range will be confined to the target weed. Risk analysis also showed that P. maculiventris presents an extremely low risk to non-target plant species (e.g. within the tribe Heliantheae and other close relatives). The study concluded that P. maculiventris is safe for release in South Africa and an application for its release is being considered by the relevant South African regulatory authorities. 相似文献
144.
The effects of Fusarium oxysporum f. sp. orthoceras as a mycoherbicide on broomrape, a weedy parasite of tomato crops, were examined during two growing seasons under field conditions. In contrast to emerged broomrapes in treated plots, none of the tomato plants inoculated with fungal pathogen showed Fusarium-wilt symptoms. In 2008, both suspension concentrations, 1?×?106 and 1?×?107 spore/ml, used via either root-dip or soil-inoculation three weeks after transplanting, and high-concentration-soil-inoculation one week after transplanting, reduced the number of broomrape plant and shoots per plant compared to the control. In 2009, single-point-low-dose and twice-high-dose applications of sulfosulfuron had significantly fewer broomrape plants than high-concentration-soil-inoculation three weeks after transplanting. High-concentration-root-dip inoculation decreased broomrape biomass weight significantly by 58% compared to the control in 2008. In 2009, mean biomass for single-point-application of sulfosulfuron at 50 and 75?g levels was lower than control. The highest yield was detected in high-concentration-soil-inoculation at transplanting in 2008 and in low-dose-twice-application of sulfosulfuron in 2009. Tomato yield was associated with the number of broomrape shoots per plant. There is promise that these field-scale findings will improve attempts to use mycoherbicides for biocontrol of broomrapes in tomato cropping systems. 相似文献
145.
Biological control of Ziziphus mauritiana (Rhamnaceae): feasibility,prospective agents and research gaps
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K. Dhileepan 《The Annals of applied biology》2017,170(3):287-300
The tropical fruit tree, Ziziphus mauritiana (Rhamnaceae), a native of the Indian subcontinent, is a pasture and environmental weed in northern Australia and Fiji. In their native range, Ziziphus spp., including commercially cultivated Z. mauritiana and Z. jujuba, are subjected to a wide range of pests and diseases. The feasibility of classical biological control of this weed has not been explored to date. Effective biological control could reduce plant vigour and seed output, thereby limiting the spread of Z. mauritiana in Australia. Two Ziziphus species are native to Australia, hence, any prospective biological control agent should be specific to Z. mauritiana. Opportunistic field surveys and literature searches identified 133 species of phytophagous insects, 9 species of phytophagous mites and 12 plant pathogens on Ziziphus spp. Host records suggest the following are possibly specific to Z. mauritiana and hence are prospective biological control agents in Australia: the seed‐feeding weevil Aubeus himalayanus; the leaf‐feeding gracillariid moth Phyllonorycter iochrysis; the leaf‐mining chrysomelid beetle Platypria erinaceus; the leaf‐folding crambid moth Synclera univocalis; the leaf‐galling midge Phyllodiplosis jujubae; and the gall‐mites Aceria cernuus and Larvacarus transitans. Host range of the rust Phakopsora zizyphi‐vulgaris includes many Ziziphus species, including the native Z. oenoplia and hence would not be a suitable biological control agent in Australia. The powdery mildew Pseudoidium ziziphi, with a host range restricted to Ziziphus species, has not been reported on Z. oenoplia. All available information on the pests and diseases of Z. mauritiana are from cultivated varieties. Hence, future surveys should focus on wild Z. mauritiana in the Indian subcontinent in areas that are climatically similar to the regions of northern Australia, where it is currently most abundant. 相似文献
146.
iTRAQ‐based proteomics of sunflower cultivars differing in resistance to parasitic weed Orobanche cumana
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Na Zhang Faisal Islam Wenjian Song Luyang Hu Dan Liu Xiaonan Xie Weijun Zhou 《Proteomics》2017,17(13-14)
Orobanche cumana is an obligate root parasite causing severe damage to many economically important crops, including sunflowers worldwide. For efficient control measures, it is necessary to understand the resistant mechanism during interaction at molecular level. The present study emphasizes on comparative proteomics to investigate the mechanistic basis of compatible and incompatible interaction of O. cumana with resistant (JY207) and susceptible (TK0409) sunflowers. More than 3500 proteins were identified from two cultivars by iTRAQ analysis. Identified proteins associated with general functions, posttranslational modification, energy production and conversion, carbohydrate transport and metabolism, and signal transduction mechanisms were the most represented category of induced proteins in both cultivars. The resistant interaction was characterized by alteration of defense‐related proteins involved in recognition of parasites, accumulation of pathogenesis‐related proteins, biosynthesis of lignin, and detoxification of toxic metabolites in JY207 after inoculation. The susceptible interaction was characterized by decreased abundance of proteins involved in biosynthesis and signaling of plant growth regulators including auxin, gibberellin, brassinosteroid, and ethylene in TK0409 after inoculation. The present study provides comprehensive details of proteins and differential modulation of pathways regulated under compatible and incompatible interaction, allowing the identification of important molecular components for development of sustainable resistance against this parasite. 相似文献
147.
Population structure in chicory (Cichorium intybus): A successful U.S. weed since the American revolutionary war
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Plant invasions are recognized as major drivers of ecosystem change, yet the precise cause of these invasions remains unknown for many species. Frequency and modes of introductions during the first, transport and colonization, stages of the invasion process as well as phenotypic changes due to plasticity or changing genetic diversity and adaptation during later establishment and expansion stages can all influence the “success” of invasion. Here, we examine some of these factors in, and the origin of, a very successful weed, Cichorium intybus (chicory) which was introduced to North America in the 18th century and which now can be found in all 48 continental U.S. states and much of Canada. We genotyped a Eurasian collection of 11 chicory cultivars, nine native populations and a North American collection of 20 introduced wild populations which span the species range (592 individuals in total). To detect the geographic sources of North American chicory populations and to assess the genetic diversity among cultivars, native, and introduced populations, we used both a sequenced cpDNA region and 12 nuclear simple sequence repeat (SSR), microsatellite loci. Four cpDNA haplotypes were identified and revealed clear geographic subdivisions in the chicory native range and an interspecific hybrid origin of Radicchio group. Nuclear data suggested that domesticated lines deliberately introduced to North America were major contributors to extant weedy populations, although unintended sources such as seed contaminants likely also played important roles. The high private allelic richness and novel genetic groups were detected in some introduced populations, suggesting the potential for local adaptation in natural sites such as deserts and nature reserves. Our findings suggest that the current populations of weedy U.S. chicory have evolved primarily from several sources of domesticated and weedy ancestors and subsequent admixture among escaped lineages. 相似文献
148.
In the dry savannas of West and Central Africa, where low soil fertility, unpredictable rainfall, weed competition and recurrent
drought are major constraints to maize production, the development of tropical maize genotypes with high and stable yields
under drought and low-nitrogen condition is very important since access to these improved genotypes may be the only affordable
alternative to many small scale farmers. Field trials were conducted in 2002 and 2003 at Ikenne southwestern Nigeria to investigate
the effect of weed pressures and drought stress on 2 maize (Zea mays L.) hybrids (9134-14, 9803-9) and 2 open-pollinated varieties (STREVIWD, IYFDCO1). Irrigation was withdrawn 4 weeks after
planting (about four weeks to mid-flowering) in the drought stress while the adjacent watered treatment had irrigation throughout
the growing period. The weed pressures were the completely weeded plots (hand weeding every week) and weedy plots (weeded
once, 2 weeks after planting). The experiment was a split plot in a randomized complete block design with four replicates.
Drought stress reduced the stover weight and grain yield of the maize cultivars by 6% and 34% respectively. Weed-free plots
had maize with higher agronomic traits than unweeded treatments. Hybrid 9803-9 was more susceptible to drought and weed stress
as indicated in the stover weight and grain yield. STREVIWD an open-pollinated variety (OPV) and Hybrid 9134-14 had superior
performances in terms of grain yield and shorter anthesis silking interval. Soil moisture content was higher in the unweeded
plots while the uptake of moisture was highest in drought susceptible hybrid 9803-9. Irrespective of the genotypes, maize
(hybrid and OPV) was more tolerant to drought in a weed-free environment than in unweeded conditions. There existed a negative
but significant correlation between weed biomass and chlorophyll content (−0.29, P < 0.01), grain yield (−0.45, P < 0.05), ear plant−1 (−0.27, P < 0.05) and kernel-number (−0.366 P < 0.01). 相似文献
149.
150.