Skuteczność chwastobójcza wybranych herbicydów stosowanych w jęczmieniu jarym

Celem prowadzonych badań była ocena skuteczności chwastobójczej wybranych herbicydów stosowanych w jęczmieniu jarym, odmiana Poldek. Doświadczenie przeprowadzono w latach 2012–2014. W doświadczeniu stosowano następujące kombinacje herbicydowe: kontrola (bez odchwaszczania), Pike 20 WG (metsulfuron metylu), Aurora 40 WG (karfentrazon etylu), Tayson 464 SL + Pike 20 WG (2,4-D + dikamba + metsulfuron metylu), Pike 20 WG + Aurora 40 WG (metsulfuron metylu + karfentrazon etylu), Galmet 20 SG + Galaper 200 EC (metsulfuron metylu + fluroksypyr), Granstar Ultra SX 50 WG (tifensulfuron metylu + tribenuron metylu). Ocenę skuteczności zwalczania najliczniej występujących gatunków chwastów przeprowadzono 30 dni po zastosowaniu preparatów metodą szacunkową. Dodatkowo dwa tygodnie przed zbiorem jęczmienia oceniono wtórne zachwaszczenie łanu metodą botaniczno-wagową, określając skład florystyczny, liczebność poszczególnych gatunków oraz powietrznie suchą masę chwastów. Gatunkami dominującymi w uprawie jęczmienia były: Galinsoga parviflora, Polygonum lapathifolium subsp. lapathifolium, Galium aparine, Matricaria maritima subsp. inodora, Chenopodium album i Stellaria media. Najbardziej skuteczne w zwalczaniu dominujących w jęczmieniu gatunków chwastów były kombinacje herbicydowe Tayson 464 SL + Pike 20 WG oraz Pike 20 WG + Aurora 40 WG, Galmet 20 SG + Galaper 200 EC. Po aplikacji tych kombinacji herbicydowych uzyskano również najwyższy plon ziarna jęczmienia.

Identification of sentinel plant species for evaluating phytotoxicity of veterinary antibiotics in mediterranean europe

Background Antibiotics used to treat livestock species enter agricultural fields when they are excreted by grazing animals or are present in manure that is added to fields as fertiliser. In the European Union, the potential effects of such antibiotics on terrestrial plants must be evaluated following the standardised OECD 208 method, which specifies the crop and wild species that should serve as “sentinels” for assessing antibiotic exposure. The present study aimed to compare this approved list of sentinel species against crop and wild plant species actually present in agricultural and pasture lands in Mediterranean Europe in order to identify the most appropriate sentinel plants for the region. The study focused on Spain as a region representative of Mediterranean Europe. Georeferenced layers for wild plant species and cultivated areas (crops), livestock density and land cover were combined, and then selection criteria were applied, leading to the identification of sentinel crop species for agriculture and pasture scenarios. Results In the agriculture scenario, the sentinel crop species were barley, wheat, corn, sunflower, dried pie, alfalfa, vetch, oilseed rape and sugar beet; the sentinel wild species were Papaver rhoeas, Galium aparine and Chenopodium album. In the pasture scenario, sentinel wild species were Bromus tectorum, Agrostis capillaris, Trifolium pratense, Lotus corniculatus and Galium aparine. The following common weed species in field boundaries or in pasture lands also emerged as potential sentinel species for risk assessment, even though they are not listed in the OECD 208 method: Sonchus oleraceus, Avena sterilis, Dactylis glomerata, Hordeun murinum and Lolium rigidum. Conclusions The sentinel species identified in this study may be useful in risk assessment procedures covering Mediterranean Europe. The method developed for this study could be useful for identifying sentinel species for other geographical areas.

Plant-like hooked miniature machines for on-leaf sensing and delivery

New sustainable strategies for preserving plants are crucial for tackling environmental challenges. Bioinspired soft and miniature machines have the potential to operate in forests and agricultural fields by adapting their morphology to plant organs like leaves. However, applications on leaf surfaces are limited due to the fragility and heterogeneity of leaves, and harsh outdoor conditions. Here, we exploit the strong shear-dependent leaf-attachment of the hook-climber Galium aparine to create miniature systems that enable precision anchoring to leaf tissues via multifunctional microhooks. We first study the anchoring forces of the microhooks and then fabricate a soft wireless multiparameter sensor to monitor the leaf proximity and degradable hooks for in-plant molecular delivery to the vascular tissues of the leaves. In addition, we use a soft robotic proof-of-concept demonstrator to highlight how our hooks enable ratchet-like motion on leaves. This research showcases opportunities for specifically designing multifunctional machines for targeted applications in plant ecosystems.

PALYNOMORPHOLOGICAL STUDY OF WEEDY MELLIFEROUS (BEE VISITED) PLANTS USING LIGHT MICROSCOPIC TECHNIQUES FROM SOUTHERN KHYBER PAKHTUNKHWA, PAKISTAN

Pollen morphology of 10 different weedy bee foraged plants belong to 10 various families from Southern Khyber Pakhtunkhwa were collected, identified and studied using light microscopy (LM). The plants were Asphodelus tenuifolius, Euphorbia helioscopia, Parthenium hysterophorus, Rhazya stricta, Datura innoxia, Eruca sativa, Convolvulus arvensis, Anagallis arvensis, Galium aparine, and Anethum graveolens. Slides for Light microscopic studies were prepared with the help of acetic acid, glycerin jelly and anthers of flowers. Pollen grain recorded ranged from monocolpate to hexacolporate and from psilate to echinate which were important systematic significance. Pollen size, shape, P/E ratio, exine thickness, number of colpi, number of pores, equatorial diameter, polar diameter, colpus width, colpus length, spines number, length and width of spines were examined with the help of light microscopy and all these values were analyzed statistically using software SPSS. This research provide a data to the optimal utilization of bee foraged weed plants by honeybees and identification of bee flora for the beekeeping business and honey production. Results revealed that weedy melliferous flora of study area is very helpful for botanical origin, geographical origin of bee species and adulterations found in honey.

The effect of vegetation in apple orchard edges on the phenology of parasitoids from the subfamily Pimplinae (Hymenoptera, Ichneumonidae)

Wild vegetation neighbouring orchards may be a factor attracting imagines of parasitoids from the subfamily Pimplinae into fruit tree plantations and thus increase both their species diversity and population size in this habitat. For this reason in the years 2008–2010 a study was initiated on the phenology of 8 dominant Pimplinae species in apple orchards and on their edges, which included shrubberies and roadside avenues of trees and shrubs. Slightly higher numbers of Pimplinae were recorded in orchards compared to their edges. At strong correlation was observed between the counts of Pimplinae in both habitats. The preference of selection of orchards by Pimplinae was observed in the autumn period, while no such preference was found in the spring or summer months. Analyses showed that flowering plants in the orchard edges such as Tilia cordata, Symphoricarpos albus, Cirsium arvense and Galium aparine may have attracted Pimplinae to the orchards.

Selectivity and efficacy of herbicide GF-3488, containing synthetic auxins halauxifen-methyl and clopyralid, in winter oilseed rape crops in Ukraine

Halauxifen-methyl is a new synthetic auxin, which in combination with another auxin-like herbicide clopyralid is the active ingredient of complex herbicide GF-3488, that is used for dicotyledonous weeds control in winter oilseed rape crops. The reason of this study was a necessity to test crop selectivity and efficacy of GF-3488 to control dicotyledonous weeds in winter oilseed rape crops in Ukraine and also the possibility of GF-3488 application in the tank mixture with graminicide or/and insecticide to control monocotyledonous weeds and insects. A randomized block experiment was conducted in 2015—2017 in 4 locations. It was found that under spring applying, the GF-3488 is not inferior to another widely used herbicide Galera Super on selectivity to the crop. Herbicide GF-3488 at the rate 1.0 l/ha was significantly better than Galera Super at the rate 0.3 l/ha in controlling of annual dicotyledonous weeds Papaver rhoeas L., Galium aparine L., Consolida regalis S.F. Gray and was effective to control of certain types of cruciferous weeds, which are resistant to Galera Super. Adding graminicide Fusilade Forte and insecticide Nurelle D did not affect the GF-3488 selectivity to the crop and had no negative impact on dicotyledonous weeds control. Efficacy of monocotyledonous weeds control by graminicide did not change in the mixture with GF-3488. It was concluded that herbicide GF-3488 is effective on winter oilseed rape against dicotyledonous weed species. Therefore for the simultaneous control of dicotyledonous and monocotyledonous weeds in winter oilseed rape in the spring after the renewal of the crop vegetation herbicide GF-3488 is advisable to be used in a tank mixture with graminicides, and for simultaneous protection against weeds and pests it can be mixed with insecticides.

If phenolic compounds in the soil with buckwheat residues affect the emergence and growth of weed seedlings?

This study was conducted to determine if common buckwheat (Fagopyrum esculentum Moench) residues affect a phenolics composition in soil, and are effective for limiting emergence, growth and metabolic changes in barnyard grass (Echinochloa crus-galli (L.) P. Beauv.), wild oat (Avena fatua L.), yellow foxtail (Setaria pumila Schult.), silky windgrass (Apera spica-venti L.), catchweed bedstraw (Galium aparine L.), scentless mayweed (Matricaria inodora L.), and tiny vetch (Vicia hirsuta L.). In the study, the residues of 14-day-old buckwheat plants were used (cv. Hruszowska). After removal of the above-ground parts, the buckwheat root residues (BRR) remained in the soil for an additional 7 days before the weeds were sown. For comparison, under the same cultivation conditions, the effect of entire buckwheat plant residues (BPR) in soil was assessed. BPR and BRR in the soil caused a decrease in the emergence of all weed species except the tiny vetch. The growth of barnyard grass, wild oat, yellow foxtail, catchweed bedstraw, and scentless mayweed was inhibited by BRR, but not BPR. BRR had a particularly strong inhibitory effect on the growth of scentless mayweed (SM) and catchweed bedstraw (CB). Thirty-day-old SM and CB control plants were about 4 and 3.5 times higher, respectively, than plants growing in the presence of BRR. Furthermore, chlorophyll and carotenoid contents in the barnyard grass and catchweed bedstraw were more prominently reduced by BRR than BPR. Stressful conditions caused by buckwheat residues in the soil increased the level of phenolic compounds in the tissues of weeds examined. Soil with buckwheat residues contained a low level of phenolic compounds, which may indicate their slow release from the residue or rapid utilisation by microorganisms. These phenolic compounds probably cannot be directly responsible for allelopathic inhibition of weed emergence and growth.