Nitrogen Use in Durum and Selected Brassicaceae Oilseeds in Two-Year Rotations

Brassicaceae oilseeds can serve as potential feedstocks for renewable biofuels to offset demand for petroleum-based alternatives. However, little is known about oilseed crop yield potential and N use in semiarid, wheat (Triticum spp.)-based cropping systems that dominate the northern Great Plains (NGP). A 5-yr study was conducted in northeast Montana to investigate the yield potential of a direct seeded system of durum (T. durumDesf.) in rotation with either chemical fallow or three Brassicaceae oilseeds: camelina [Camelina sativa (L.) Crantz], crambe (Crambe abyssinica Hochst. ex R.E. Fries), and canola-quality Brassica juncea L. Overall, results from the study indicated that seed yield in the three Brassicaceae oilseeds tested in rotation with durum was related (P \u3c 0.001; r2 = 0.68) to a nitrogen recovery index (NRI), indicating the importance of nitrogen use (NU) efficiency in dryland oilseed production, and that B. juncea generally used N more efficiently than crambe and camelina. Similarly, NRI was related (P \u3c 0.001; r2 = 0.72) to grain yield in durum following oilseeds. Grain yield of durum following B. juncea was similar to durum following fallow and greater than durum following camelina or crambe. Durum following crambe tended to use N more inefficiently than durum following camelina, B. juncea, or fallow. Differences in yield and N use of durum and oilseeds varied among years, which underscores the need to further develop management tools to optimize durum-oilseed cropping systems in highly variable rainfall environments typical of the NGP

Morphological and Geochemical Evidence of Eumelanin Preservation in the Feathers of the Early Cretaceous Bird, Gansus yumenensis

Recent studies have shown evidence for the preservation of colour in fossilized soft tissues by imaging melanosomes, melanin pigment containing organelles. This study combines geochemical analyses with morphological observations to investigate the preservation of melanosomes and melanin within feathers of the Early Cretaceous bird, Gansus yumenensis. Scanning electron microscopy reveals structures concordant with those previously identified as eumelanosomes within visually dark areas of the feathers but not in lighter areas or sedimentary matrices. Fourier transform infrared analyses show different spectra for the feathers and their matrices; melanic functional groups appear in the feather including carboxylic acid and ketone groups that are not seen in the matrix. When mapped, the carboxylic acid group absorption faithfully replicates the visually dark areas of the feathers. Electron Paramagnetic Resonance spectroscopy of one specimen demonstrates the presence of organic signals but proved too insensitive to resolve melanin. Pyrolysis gas chromatography mass spectrometry shows a similar distribution of aliphatic material within both feathers that are different from those of their respective matrices. In combination, these techniques strongly suggest that not only do the feathers contain endogenous organic material, but that both geochemical and morphological evidence supports the preservation of original eumelanic pigment residue

SOIL QUALITY IN RELATION TO FOREST CONVERSION TO PERENNIAL OR ANNUAL CROPPING IN SOUTHERN BRAZIL

Many forested areas have been converted to intensive agricultural use to satisfy food, fiber, and forage production for a growing world population. There is great interest in evaluating forest conversion to cultivated land because this conversion adversely affects several soil properties. We examined soil microbial, physical, and chemical properties in an Oxisol (Latossolo Vermelho distrófico) of southern Brazil 24 years after forest conversion to a perennial crop with coffee or annual grain crops (maize and soybeans) in conventional tillage or no-tillage. One goal was to determine which soil quality parameters seemed most sensitive to change. A second goal was to test the hypothesis that no-tillage optimized preservation of soil quality indicators in annual cropping systems on converted land. Land use significantly affected microbial biomass and its activity, C and N mineralization, and aggregate stability by depth. Cultivated sites had lower microbial biomass and mineralizable C and N than a forest used as control. The forest and no-tillage sites had higher microbial biomass and mineralizable C and N than the conventional tillage site, and the metabolic quotient was 65 and 43 % lower, respectively. Multivariate analysis of soil microbial properties showed a clear separation among treatments, displaying a gradient from conventional tillage to forest. Although the soil at the coffee site was less disturbed and had a high organic C content, the microbial activity was low, probably due to greater soil acidity and Al toxicity. Under annual cropping, microbial activity in no-tillage was double that of the conventional tillage management. The greater microbial activity in forest and no-tillage sites may be attributed, at least partially, to lower soil disturbance. Reducing soil disturbance is important for soil C sequestration and microbial activity, although control of soil pH and Al toxicity are also essential to maintain the soil microbial activity high

First Report of <i>Pilidium concavum</i> Causing Root Lesions of Meadow Hawkweed in France

Hieracium caespitosum (meadow hawkweed) is an exotic invasive weed belonging to a complex of hawkweed species infesting nearly 500,000 hectares of pasture and wildlands in North America, primarily in the Pacific Northwest (1). Economic losses can be up to $222 per hectare (2). Despite prolonged effort, no promising insects have been found as agents of biological control of H. caespitosum. This has led to a greater emphasis on seeking plant pathogens such as rusts and smuts as potential biological control agents. Searches for plant pathogens have included Europe, which contains a portion of the native range of the weed. In the small stands of H. caespitosum that occur in northern France, plants were found with chlorosis and significant stunting. Typically, 10 to 30% of plants in affected stands exhibited such symptoms. Excavation and examination of roots revealed discrete necrotic lesions along the length of roots and decayed root tips, roughly resembling symptoms of corky root. Ten roots with these symptoms were thoroughly washed, cut into ~0.25- to 0.5-cm-long pieces and plated on potato dextrose agar (PDA) and acidified PDA. On these media, colonies were light-salmon-beige, woolly, zonate, with older mycelium sparser with the dense occurrence of dark, hemispherical conidiomata. The conidiomata exuded pink spore masses. The spores were hyaline and falcate with acute apices, 6.2 × 1.6 μm (n = 200). These traits match published descriptions of Pilidium concavum, described as a pathogen of numerous plants usually causing leaf spots and stem necrosis (3). To corroborate this identification, the internal transcribed spacer region of rDNA was amplified by PCR using primers ITS1 and ITS4 and sequenced. BLAST analysis of the 575-bp fragment (GenBank Accession No. JX047867) showed 100% homology with the sequences of six isolates of P. concavum in GenBank, including Accession No. AY487094. To confirm pathogenicity, five each of 30-day-old H. caespitosum plants were either sprayed with, or their roots soaked for 1 hr in a 1 × 106 per ml suspension of conidia prepared from 10-day-old cultures of the fungus grown on V8 agar. An equal number of control plants were either sprayed with sterile distilled water (SDW) or their roots were soaked for an hour in SDW. To plant soaked roots, a hole was made in the pre-moistened pasteurized potting mix in each pot and inoculum or SDW was poured around them before they were covered with soil. The experiments were repeated twice. Following leaf inoculations, plants were covered with a plastic bag and placed in the greenhouse in partial shade at 20 to 25°C for 72 to 96 h. Sprayed plants were then uncovered and assessed for the appearance of lesions over the next 7 to 10 days. No foliar symptoms occurred. Plants inoculated by soaking roots showed chlorosis and stunting by 4 months post-inoculation. P. concavum was isolated from root lesions on all inoculated, symptomatic plants, confirming Koch's postulates. Although reported to cause root deterioration of strawberry (4), to our knowledge, this the first report of a root disease of H. caespitosum caused by P. concavum. References: (1) C. A. Duncan et al. Weed Technol. 18:1411, 2004. (2) L. Frid. Economic Impacts of Invasive Plants in BC Final Project Report. British Columbia: Invasive Plant Council, 2009. (3) J. A. von Arx. Plant Pathogenic Fungi. J. Cramer, 1987. (4) J. L. Maas. Compendium of Strawberry Diseases. The American Phytopathological Society, St. Paul, MN, 1998. </jats:p

First Report of Anthracnose Stem Canker of the Invasive Perennial Weed <i>Lepidium draba</i> Caused by <i>Colletotrichum higginsianum</i> in Europe

Exotic perennial Lepidium draba, native to Eurasia, is an invasive weed in dense stands in rangelands and disturbed areas in several states of the western United States and an agricultural weed in the prairie provinces of Canada. To determine strategies, such as a potential multipathogen strategy (1), for biological control of the weed, surveys that included the native range were conducted in spring 2009 to detect diseases that occur on this weed. Several stunted and chlorotic plants were found scattered throughout a stand of L. draba growing in a vacant lot near Riddes, Switzerland (46°08′22.99″N, 7°9′19.02″E): ( http://maps.google.com/maps?source=earth&amp;ll=46.13983490,7.15503250&amp;layer= c&amp;cbll=46.13983490,7.15503250&amp;cbp=1,360,,0,5 ). Affected plants had reddish brown cankers on the lower stems, usually elongated and irregular in shape and slightly sunken. Insect injury was associated with the cankers. Symptoms often occurred on plants that were also infected with Rhizoctonia solani. After surface disinfestation with 0.1% sodium hypochlorite, tissue adjacent to and including lesions were plated on acidified potato dextrose agar and incubated at 20 to 25°C for 1 week. Zonate, dark gray colonies with sparse mycelia resulted that exhibited abundant, faintly pink spore masses with numerous dense clusters of black setae. Spores were single celled, hyaline, cylindrical to oval shaped, and 13.5 to 19.5 × 4 to 5.5 μm. Setae were 1- to 3-septate and 20 to 42 × 3 to 5 μm. These morphological traits correspond to Colletotrichum higginsianum. For pathogenicity tests, three 4-month-old L. draba plants were sprayed until runoff with a 106 conidia/ml suspension of the fungus and incubated for 72 h in plastic bags at 20 to 25°C in a quarantine greenhouse. Within 4 days, water-soaked lesions appeared that coalesced, resulting in chlorosis and collapse of inoculated leaves. Such symptoms are typical of infection by C. higginsianum and similar necrotrophic species (4). Fungi isolated from inoculated leaves were identified as C. higginsianum. To assess the host range of C. higginsianum, three plants each of turnip, radish, mustard greens, kale, broccoli raab, and Chinese cabbage, all in the Brassicaceae to which L. draba belongs, were inoculated with the same conditions used for the pathogenicity tests. Control plants in pathogenicity and host range tests were sprayed with sterile distilled water and all experiments were repeated at least once. All control plants were symptomless. Leaf necrosis occurred on radish and turnip and to a lesser extent on the lower leaves of Chinese cabbage and broccoli; numerous scattered dark necrotic flecks and small grayish leaf spots occurred on kale and mustard greens, respectively. These results are similar to previous studies (2,3) involving a cultivated species as the host in the field. The ITS1, 5.8S, and ITS2 sequences of this fungus (GenBank No. HM044877) were 99% similar to sequences of multiple isolates of C. higginsianum (GenBank Nos. AB042302, AB042303, AB455253, AJ558109, and AJ558110). To our knowledge, this is the first report of C. higginsianum on a wild species of the Brassicaceae, although a Colletotrichum sp. was reported on wild radish in Australia (1). References: (1) A. Maxwell and J. K. Scott. Australas. Plant Pathol. 37:523, 2008. (2) R. O'Connell et al. Mol. Plant-Microbe Interact. 17:272, 2004. (3) R. P. Scheffer. N. C. Agric. Exp. Stn. Tech. Bull. 1950. (4) H. Sun and J. Z. Zhang. Eur. J. Plant Pathol. 125:459, 2009. </jats:p

First Report of a Root and Crown Disease Caused by <i>Rhizoctonia solani</i> on <i>Centaurea stoebe</i> in Russia

Spotted knapweed (SKW), Centaurea stoebe L., is a nonindigenous species that is invasive over large areas in the United States, especially in the west. It has been estimated that infestations of SKW cause $42 million in direct and indirect economic losses annually (2), and the weed could potentially invade 13.6 million ha of rangeland in Montana alone. Extensive efforts toward the control of SKW have included the release of 12 insects for biological control, four of which attack the crowns and roots of this short-lived perennial. To focus efforts to select potential soilborne pathogens, which could be applied in combination with insects, we conducted a survey for plant pathogens in the native range of SKW associated with damage caused by any root-attacking insects. Stunted and chlorotic SKW plants, which were colonized by larvae of Cyphocleonus spp., were found in June 1994 near the Novomar'evskaya Botanical Sanctuary (45°08′49.87″N, 41°51′02.05″E) in the Caucasus Region of Russia. A nonsporulating multinucleate fungus was isolated from the lower stem, crown, and upper root tissue of one such plant. Colonies growing on potato dextrose agar and Ko and Hora media were examined microscopically and identified as Rhizoctonia solani by the occurrence of robust, thick-walled, golden hyphae with right-angled branching and constrictions at the branch points. The anastomosis grouping of the one isolate was determined to be AG 2-2 IIIB after pairing it on water agar with 11 AG tester isolates representing all subgroups of AG 1 to AG 5. The hyphal diameter at the obvious point of anastomosis was reduced and cell death of adjacent cells was observed. In 2007, pathogenicity was determined by planting 12-week-old seedlings of SKW, one per pot, into 20 15-cm-diameter pots of a steamed greenhouse soil mix composed of sphagnum peat, sand, and Bozeman silt loam (1:1:1, vol/vol), pH 6.6, infested with R. solani-colonized barley grain that had been dried and milled. An inoculum level of 8 CFU/g of air-dried soil was determined by most probable number calculations from fourfold dilutions of infested soil. Controls were planted into noninfested soil. In both greenhouse tests, the isolate caused either mortality or a 93% mean fresh weight reduction of surviving plants, relative to the controls, after 8 months. R. solani was reisolated from necrotic root and crown tissue of dead and stunted plants but not from the controls. To our knowledge, this is the first report of R. solani occurring on SKW in Europe. The characterization and pathogenicity of Fusarium spp. isolated from insect-colonized roots of SKW in Europe was reported previously (1). References: (1) A. J. Caesar et al. BioControl 47:217. (2) S. A. Hirsch and J. A. Leitch, North Dakota Agricultural Economics Report No. 355. NDSU, Fargo. 1996. </jats:p

A monoclonal antibody to Candida albicans enhances mouse neutrophil candidacidal activity

A monoclonal antibody (MAb) to Candida albicans (MAb B6.1) that protects against candidiasis and the nonprotective MAb B6 were compared for ability to support neutrophil (polymorphonuclear leukocyte [PMN]) candidacidal activity. Both MAbs are immunoglobulin M, and each recognizes distinct C. albicans mannan cell wall determinants. PMN candidacidal activity was assessed by transmission electron microscopy and by an in vitro killing assay. The results indicated that MAb B6.1, but not MAb B6, enhances ingestion and killing of yeast cells by PMN in the presence of serum complement.</jats:p