Estudio fitosociológico y evaluación del banco de malezas del suelo en tres fincas maiceras del Estado Portuguesa, Venezuela

Los estudios fitosociológicos (EF) y bancos de semillas de malezas del suelo (BSMS) son una herramienta para el manejo de las malezas. El objetivo de esta investigación fue realizar un EF y evaluar el BSMS en tres fincas maiceras del estado Portuguesa, Venezuela, determinándose el índice de valor de importancia (IVI) y plántulas por superficie. Se encontraron diferencias entre la composición florística entre fincas y estudios realizados, detectándose un mayor número de especies en el EF. Las especies con mayor IVI en la finca 1 fueron Ludwigia decurrens Walter, Eclipta prostrata (L.) L., Euphorbia heterophylla L. y Amaranthus dubius Mart. ex Thell., mientras que en el BSMS las de más altas densidades fueron Torenia crustacea (L.) Cham. & Schltd., L. decurrens y Cyperus esculentus L., con 1809,95; 434,39 y 253,39 plántulas∙m-2, respectivamente. En la finca 2, Rottboellia cochinchinensis (Lour.) W.D. Clayton, E. prostrata, Eleusine indica (L.) Gaertn y Helianthus annuus L. tuvieron los más altos IVI, y en el BSMS las especies T. crustaceae, Ammannia latifolia L. y L. decurrens las densidades más altas (389,14; 181,00 y 126,70 plántulas∙m-2, respectivamente). En la finca 3, las malezas con mayores IVI fueron Murdannia nudiflora (L.) Brenan, Cyperus rotundus L. y E. indica, y el BSMS estuvo conformado principalmente por C. rotundus y E. indica con 687,78 y 171,95 plántulas∙m-2, respectivamente. En total, en los dos estudios se registraron 32 especies de malezas en 21 familias botánicas.

Murdannia nudiflora (doveweed).

M. nudiflora is classified as one of the world's worst weeds by Holm et al. (1977), infesting no less than 16 crops in 23 countries. It is a major weed species in rice and other crops (Moody, 1989), and is a moderately invasive weed species both in agricultural crops and non-agricultural areas in South and South-east Asia (Waterhouse, 1993). Its special ability to root easily at the nodes, propagating clonally through cut stems and dispersal during tillage and land preparation make this weed difficult to control. This trait coupled with its ability to adapt and survive a wide ecological window of soil types, pH, moisture availability and soil drainage makes M. nudiflora a weed to watch for potential spread into new areas in near future, and a species under the 'alert list' by the Invasive Species Specialist Group. Oliveira Pellegrini et al. (2016) recognize M. nudiflora as one of two Murdannia species invasive in the Neotropics.

Detection of grassy weeds in bermudagrass with deep convolutional neural networks

Spot spraying POST herbicides is an effective approach to reduce herbicide input and weed control cost. Machine vision detection of grass or grass-like weeds in turfgrass systems is a challenging task due to the similarity in plant morphology. In this work, we explored the feasibility of using image classification with deep convolutional neural networks (DCNN), including AlexNet, GoogLeNet, and VGGNet, for detection of crabgrass species (Digitaria spp.), doveweed [Murdannia nudiflora (L.) Brenan], dallisgrass (Paspalum dilatatum Poir.), and tropical signalgrass [Urochloa distachya (L.) T.Q. Nguyen] in bermudagrass [Cynodon dactylon (L.) Pers.]. VGGNet generally outperformed AlexNet and GoogLeNet in detecting selected grassy weeds. For detection of P. dilatatum, VGGNet achieved high F1 scores (≥0.97) and recall values (≥0.99). A single VGGNet model exhibited high F1 scores (≥0.93) and recall values (1.00) that reliably detected Digitaria spp., M. nudiflora, P. dilatatum, and U. distachya. Low weed density reduced the recall values of AlexNet at detecting all weed species and GoogLeNet at detecting Digitaria spp. In comparison, VGGNet achieved excellent performances (overall accuracy = 1.00) at detecting all weed species in both high and low weed-density scenarios. These results demonstrate the feasibility of using DCNN for detection of grass or grass-like weeds in turfgrass systems.

Doveweed (Murdannia nudiflora) response to metsulfuron-methyl, trifloxysulfuron-sodium, and bentazon combinations

Doveweed is a problematic weed species in many agricultural ecosystems as well as on roadsides and rights-of-way. Effective POST chemical control options for doveweed are limited in many cropping systems. Greenhouse studies were conducted to evaluate the effectiveness of metsulfuron-methyl dose and the impact of mixtures and sequential applications of either trifloxysulfuron-sodium or bentazon with metsulfuron-methyl for doveweed control. By 14 d after the initial treatment, applying 0.04 kg ai ha−1 metsulfuron-methyl, either once or sequentially, provided 100% control of doveweed. Application of trifloxysulfuron-sodium at 0.04 kg ai ha−1 alone or in mixture with metsulfuron-methyl (0.04 kg ha−1) did not provide consistent doveweed control nor did it reduce biomass. Trifloxysulfuron-sodium applied alone at 0.08 kg ha−1 or in a mixture with metsulfuron-methyl (0.04 kg ha−1) provided consistent doveweed control (>80%). A single application of bentazon (0.56 kg ai ha−1) was ineffective at controlling doveweed. A single application of the bentazon and metsulfuron-methyl mixture (0.56 + 0.04 kg ha−1, respectively) or sequential applications of either bentazon alone (0.56 kg ha−1) or in mixture with metsulfuron-methyl (0.04 kg ha−1) provided excellent doveweed control (100%) by 35 d after treatment. Overall, single applications of metsulfuron-methyl (0.02 to 0.17 kg ha−1) or mixtures of metsulfuron-methyl with trifloxysulfuron-sodium (0.04 + 0.08 kg ha−1, respectively) or bentazon (0.04 + 0.56 kg ha−1, respectively) controlled doveweed and may be useful for enhancing the control spectrum for other weeds. Sequential applications of the bentazon and metsulfuron-methyl mixture (0.56 + 0.04 kg ha−1, respectively) provided doveweed control and are a resistance-management strategy for doveweed.

Biology and Management of Doveweed (Murdannia nudiflora) in Ornamental Crop Production

Doveweed is a common warm-season annual weed in Florida landscapes, container nurseries, and other agricultural production systems. This new 5-page article is written for green industry professionals and others to aid in the identification and management of doveweed in and around ornamental plants. Preemergence and postemergence herbicides are covered, as well as basic information on doveweed biology and growth. Written by Yuvraj Khamare, Chris Marble, Nathan Boyd, and Shawn Steed, and published by the UF/IFAS Environmental Horticulture Department. https://edis.ifas.ufl.edu/ep576

Induced cleistogamy: A strategy for reproductive assurance in Murdannia nudiflora (Commelinaceae)

Murdannia nudiflora (L.) Brenan is a day flower that is dependent on entomophilous pollination. Despite the lack of pollinator attractants and its short flower longevity, M. nudiflora shows high rates of fecundity, which lead to their rapid dispersal. In addition to monitoring the vegetative reproductive methods and the effect of select environmental parameters (atmospheric temperature, relative humidity, and precipitation rates) in M. nudiflora, we evaluated mating systems in this species via artificial crosses. This species has evolved to undergo autogamy to ensure reproductive success when pollinators are insufficient; cleistogamous flowers are produced for optimal pollinator activity when environmental conditions are unfavorable. The number of cleistogamous flowers produced was found to be positively correlated with humidity and precipitation rates, and negatively correlated with temperature. In addition, it was found that high humidity and precipitation always hinder insect pollinators. Therefore, the combination of vegetative reproduction, entomophily, and cleistogamous self-pollination helps this weedy species to propagate with maximum efficiency. Murdannia nudiflora employs pre-anthesis cleistogamy as a mating strategy for reproductive assurance while retaining mechanisms that promote out-crossing.

Seedling Morphology of some selected members of Commelinaceae and its bearing in taxonomic studies

Seedling morphology of eight species from four genera of the family Commelinaceae viz. Commelina appendiculata C.B. Clarke, C. benghalensis L., C. caroliniana Walter, C. paludosa Blume, Cyanotis axillaris (L.) D. Don ex Sweet, C. cristata (L.) D. Don, Murdannia nudiflora (L.) Brenan and Tradescantia spathacea Sw. are investigated using both light and scanning electron microscopy. The seedling morphological features explored include germination pattern, seed shape, surface and hilum, root system, cotyledon type, cotyledonary hyperphyll (apocole), cotyledonary hypophyll (cotyledonary sheath), hypocotyl, first leaf and subsequent leaves. All taxa studied had hypogeal and remote tubular cotyledons. However, differences in cotyledon structure (apocole, cotyledonary sheath), seed, hypocotyl, internodes, first leaf and subsequent leaves were observed. Variations of those characters were used to prepare an identification key for the investigated taxa. Commelina spp. and Murdannia nudiflora of the tribe Commelineae were found to differ from Cyanotis spp. and Tradescantia spathacea of tribe Tradescantieae in the petiolate first leaf with papillate margins on upper surface with 6-celled stomata and the glabrous epicotyl. The presence of an elongated cotyledonary sheath, long apocole and extended periblast region appear to be synapomorphies for Commelina spp. and T. spathacea. The affinity of the investigated taxa as revealed through multivariate analysis supports some of the relationships inferred by pollen morphology, floral morphology and DNA (rbc-L, 5S NTS, trnL-trnF) data stated by previous authors.

Doveweed (Murdannia nudiflora) Response to Environmental Resource Availability and Cultural Practices

Susceptibility of a system to colonization by a weed is in part a function of environmental resource availability. Doveweed [Murdannia nudiflora(L.) Brenan] can establish in a variety of environments; however, it is found mostly in wet or low-lying areas with reduced interspecies competition. Four studies evaluated the effect of mowing height, interspecies competition, and nitrogen, light, and soil moisture availability onM. nudifloraestablishment and growth. A field study evaluated the effect of mowing height onM. nudifloraestablishment. In comparison with unmowed plots, mowing at 2 and 4 cm reduced spread 46% and 30%, respectively, at 9 wk after planting. Effect of mowing height and nitrogen fertilization on ‘Tifway’ bermudagrass (Cynodon dactylonBurtt-Davy×C. transvaalensisL. Pers.) andM. nudiflorainterspecies competition was evaluated in a greenhouse trial.Murdannia nudifloracoverage was 62% greater in flats maintained at 2.6 cm than flats maintained at 1.3 cm. Supplemental application of 49 kg N ha−1mo−1increasedM. nudifloracoverage 75% in comparison with 24.5 kg N ha−1mo−1. A difference inM. nudifloracoverage could not be detected between flats receiving 0 and 24.5 kg N ha−1mo−1, suggesting moderate nitrogen fertilization does not encourageM. nudifloracolonization. Effect of light availability onM. nudifloragrowth and development was evaluated in a greenhouse study. Growth in a 30%, 50%, or 70% reduced light environment (RLE) did not affect shoot growth on a dry weight basis in comparison with plants grown under full irradiance; however, internode length was 28% longer in a 30% RLE and 39% longer in a 50% and 70% RLE. Effect of soil moisture onM. nudifloragrowth and development was evaluated in a greenhouse study. Plants maintained at 50%, 75%, and 100% field capacity (FC) increased biomass>200% compared with plants maintained at 12.5% or 25% FC.

Diversidad y análisis fitosociológico de malezas en un cultivo de musáceas del trópico ecuatoriano

<p>Uno de los primeros procesos para el desarrollo de nuevas herramientas<br />de control y manejo integrado de malezas, implica el conocimiento de la<br />composición y diversidad de la flora que incide en la producción del cultivo. El conocimiento de las especies de malezas dominantes es la base de la planificación de estrategias de control idóneas, que determinan el manejo del cultivo. Este trabajo analiza la diversidad de malezas y determina la identificación de las especies predominantes dentro del ecosistema de la localidad de Quevedo (Ecuador). Los resultados señalan que en el área monitoreada se encontraron 55 especies, incluidas en 22 familias, destacándose las Compositae, Poaceae y Euphorbiaceae con el mayor número. El ecosistema presenta diversidad levemente alta, dominancia alta y riqueza específica media. El análisis funcional revela 43 especies dicotiledóneas y 12 monocotiledóneas. Entre las especies de malezas dominantes se encontraron a la “piñita” (Murdannia nudiflora (L.) Brenan) que presenta nocividad media, seguida de la “caminadora” (Rottboellia exaltata L.f.) con alta nocividad y “tridax” (Tridax procumbens L.) con nivel medio de nocividad. Ninguna especie tiene un valor de importancia superior al 28,2 % en el área monitoreada. </p>

Biology and life history of Lema praeusta (Fab.) (Coleoptera: Chrysomelidae), a biocontrol agent of two Commelinaceae weeds, Commelina benghalensis and Murdannia nudiflora

We examined previous reports of Lema praeusta (Fab.) (Coleoptera: Chrysomelidae) as a minor pest of turmeric, eggplant, bottle gourd and pumpkin leaves, but no feeding damage by larvae and adults of L. praeusta were recorded by us on these leaves. We observed feeding by the larvae and adults of L. praeusta on ten species of Commelinaceae plants in no-choice tests. The biology, fecundity and life table parameters of L. praeusta on two Commelinaceae weeds, Commelina benghalensis L. and Murdannia nudiflora (L.) Brenan were determined under laboratory conditions (27 ± 1°C, 65 ± 5% RH and 12L:12D). Total larval development times of L. praeusta were 6.36 ± 0.07 and 7.28 ± 0.11 days (mean ± SE) on C. benghalensis and M. nudiflora, respectively. Adult females lived 106.25 ± 1.17 and 77.65 ± 0.91 days (mean ± SE) on C. benghalensis and M. nudiflora, respectively. Each female laid 272.95 ± 2.39 and 224 ± 1.74 eggs (mean ± SE) during a lifetime on C. benghalensis and M. nudiflora, respectively. The net reproductive rate (Ro), intrinsic rate of increase (rm), generation time (Tc), doubling time (DT) and finite rate of increase (λ) were 136.48, 0.14, 36.17, 5.10 and 1.41 on C. benghalensis, respectively, whereas Ro, rm, Tc, DT and λ were 112, 0.20, 23.64, 3.47 and 1.51 on M. nudiflora, respectively, suggesting that L. praeusta could be a potential biocontrol agent against C. benghalensis and M. nudiflora in the fields of rice, maize, sorghum, soybean, mung bean, peanut and cotton.