Ammonium Sulfate Improves the Efficacy of Glyphosate on South African Lovegrass (Eragrostis plana) Under Water Stress

Weed Science ◽  
2021 ◽  
pp. 1-43
Author(s):  
Marlon O. Bastiani ◽  
Nilda Roma-Burgos ◽  
Ana C. Langaro ◽  
Reiofeli A. Salas-Perez ◽  
Christopher E. Rouse ◽  
...  
Keyword(s):  
Water Stress ◽  
Ammonium Sulfate ◽  
South African ◽  
Main Tool ◽  
Management Program ◽  
Grass Species ◽  
Growth Stages ◽  
Management Options ◽  
Pasture Grass ◽  
Glyphosate Formulation

Abstract South African lovegrass (Eragrostis plana Nees) is the most important weed of native pastures in southern Brazil. Management options are limited under water stress conditions and glyphosate has been the main tool for control. This study compared four salts of glyphosate applied at three growth stages, and determined the glyphosate tolerance level. In addition, the performance of ammonium sulfate (AMS) under two soil moisture conditions (50% and 100% of water holding capacity), and the effect of AMS on absorption and translocation of radiolabeled 14C-glyphosate were evaluated. The potassium salt of glyphosate had the fastest activity across growth stages of E. plana, which is more vulnerable to glyphosate at panicle initiation stage. Isopropylamine salt was the slowest-acting glyphosate formulation. Younger plants were typically more easily controlled than older plants at full tillering stage. The addition of AMS increased the level of control of drought-stressed E. plana, compared to glyphosate alone, by increasing translocation out of the treated leaf and consequently increasing the concentration of glyphosate in the primary culm. This data can be used to plan an effective management program for E. plana considering the developmental stage of desired pasture grass species.

scholarly journals Effect of different pasture legumes on growth profile and forage production of the selected native pasture grasses mix at different growth stages

2021 ◽  
Vol 888 (1) ◽  
pp. 012061
Author(s):  
I G N Jelantik ◽  
I Benu ◽  
T T Nikolaus ◽  
G E M Malelak ◽  
A Firmanto ◽  
...  
Keyword(s):  
Vegetative Stage ◽  
Grass Species ◽  
Growth Stages ◽  
Forage Production ◽  
Forage Legumes ◽  
Pasture Grass ◽  
Growth Profile ◽  
Pasture Legumes ◽  
Native Pasture ◽  
Generative Stage

Abstract The present experiment aimed to investigate the effect of introducing different pasture legumes on the growth profile and forage production of the selected native pasture grass species at different stages of growth. In a completely randomized design with 5 treatments and 5 replications, the mixture of Sorghum plumosum (SP) and Bothriochloa pertusa (BP) was introduced respectively with one of the forage legumes ie. Alysicarpus vaginalis (AV), Pueraria phasoloides (PP), Desmodium incanum (DI), and Clitoria ternatea (CT). Growth profile and forage production were measured at 40, 60, and 80 days after planting. Results showed that CT and PP significantly improved the growth and DM production of SP and suppressed (P<0.05) the growth of BP during the early vegetative stage but did not during the late vegetative stage. Introduction of legumes reduced (P<0.05) DM production of SP and the total forage production but improved (P<0.001) the DM production of B. pertusa as well as a leaf:stem ratio of both types of grass at the generative stage. PP had the highest (P<0.05) contribution of legumes to the total DM forage production during early and vegetative stages, meanwhile AV and DI during the generative stage. In conclusion, the introduction of forage legumes did not improve the DM production of both grass species but modify their growth profile toward a better quality as shown by increased leaf:stem ratio. P. phasoloides provide the highest foliage during the vegetative stage and A. vaginalis and D. incanum during the generative stage.

scholarly journals Biology, Ecology, and Management of Rednecked Peanutworm (Lepidoptera: Gelechiidae)

2020 ◽  
Vol 11 (1) ◽  
Author(s):  
J R L Pinto ◽  
A L Boiça ◽  
O A Fernandes
Keyword(s):  
Control Strategies ◽  
Main Tool ◽  
Management Program ◽  
Current Control ◽  
Central American ◽  
Economic Threshold ◽  
Management Options ◽  
Attract And Kill ◽  
History Of ◽  
Lepidopteran Pest

Abstract The rednecked peanutworm, Stegasta bosqueella (Chambers), is the main lepidopteran pest in South and Central American peanut fields. The species name was misspelled earlier in the literature and the incorrect name is still more cited. In this review, we revisit the history of S. bosqueella classification. Although the rednecked peanutworm is an important defoliator in some peanut producing countries, there is scarce information on some aspects of the biology as well as plant response to this insect species. Economic threshold levels are not yet well established and, consequently, decision making is compromised. Chemical control is the main tool used to control larval infestations. Moreover, some studies on host plant resistance, biological control, and attract-and-kill strategy were conducted to control the rednecked peanutworm. These tactics were promising and could be useful to enhance a peanut integrated pest management program. We present here a review of S. bosqueella life history, biology, ecology, and management options as well as needs for enhancing the current control strategies.

Stability and Yield of Cool-Season Pasture Grass Species Grown at Five Irrigation Levels

Crop Science ◽  
2002 ◽  
Vol 42 (3) ◽  
pp. 890 ◽  
Author(s):  
Blair L. Waldron ◽  
Kay H. Asay ◽  
Kevin B. Jensen
Keyword(s):  
Grass Species ◽  
Cool Season ◽  
Pasture Grass ◽  
Irrigation Levels

scholarly journals A global non-invasive methodology for the phenotyping of potato under water deficit conditions using imaging, physiological and molecular tools

Plant Methods ◽  
2021 ◽  
Vol 17 (1) ◽  
Author(s):  
M. Musse ◽  
G. Hajjar ◽  
N. Ali ◽  
B. Billiot ◽  
G. Joly ◽  
...  
Keyword(s):  
Water Stress ◽  
Water Deficit ◽  
Soil Conditions ◽  
Growth Stages ◽  
Dry Matter Content ◽  
Tuber Growth ◽  
Non Invasive ◽  
Potato Plants ◽  
Significant Difference

Abstract Background Drought is a major consequence of global heating that has negative impacts on agriculture. Potato is a drought-sensitive crop; tuber growth and dry matter content may both be impacted. Moreover, water deficit can induce physiological disorders such as glassy tubers and internal rust spots. The response of potato plants to drought is complex and can be affected by cultivar type, climatic and soil conditions, and the point at which water stress occurs during growth. The characterization of adaptive responses in plants presents a major phenotyping challenge. There is therefore a demand for the development of non-invasive analytical techniques to improve phenotyping. Results This project aimed to take advantage of innovative approaches in MRI, phenotyping and molecular biology to evaluate the effects of water stress on potato plants during growth. Plants were cultivated in pots under different water conditions. A control group of plants were cultivated under optimal water uptake conditions. Other groups were cultivated under mild and severe water deficiency conditions (40 and 20% of field capacity, respectively) applied at different tuber growth phases (initiation, filling). Water stress was evaluated by monitoring soil water potential. Two fully-equipped imaging cabinets were set up to characterize plant morphology using high definition color cameras (top and side views) and to measure plant stress using RGB cameras. The response of potato plants to water stress depended on the intensity and duration of the stress. Three-dimensional morphological images of the underground organs of potato plants in pots were recorded using a 1.5 T MRI scanner. A significant difference in growth kinetics was observed at the early growth stages between the control and stressed plants. Quantitative PCR analysis was carried out at molecular level on the expression patterns of selected drought-responsive genes. Variations in stress levels were seen to modulate ABA and drought-responsive ABA-dependent and ABA-independent genes. Conclusions This methodology, when applied to the phenotyping of potato under water deficit conditions, provides a quantitative analysis of leaves and tubers properties at microstructural and molecular levels. The approaches thus developed could therefore be effective in the multi-scale characterization of plant response to water stress, from organ development to gene expression.

scholarly journals Growth and dry matter partitioning response in cereal-legume intercropping under full and limited irrigation regimes

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Amanullah ◽  
Shah Khalid ◽  
Farhan Khalil ◽  
Mohamed Soliman Elshikh ◽  
Mona S. Alwahibi ◽  
...  
Keyword(s):  
Water Stress ◽  
Dry Matter ◽  
Dry Weight ◽  
Pigeon Pea ◽  
Growth Stages ◽  
Dry Matter Partitioning ◽  
Sole Crop ◽  
Irrigation Regimes ◽  
Storage Organs ◽  
Winter Crops

AbstractThe dry matter partitioning is the product of the flow of assimilates from the source organs (leaves and stems) along the transport route to the storage organs (grains). A 2-year field experiment was conducted at the agronomy research farm of the University of Agriculture Peshawar, Pakistan during 2015–2016 (Y1) to 2016–2017 (Y2) having semiarid climate. Four summer crops, pearl millet (Pennisetum typhoidum L.), sorghum (Sorghum bicolor L.) and mungbean (Vigna radiata L.) and pigeonpea (Cajanus cajan L.) and four winter crops, wheat (Triticum aestivum L.), barley (Hordeum vulgare L.), fababean (Vicia faba) and rapeseed (Brassica napus) were grown under two irrigation regimes (full vs. limited irrigation) with the pattern of growing each crop either alone as sole crop or in combination of two crops in each intercropping system under both winter and summer seasons. The result showed that under full irrigated condition (no water stress), all crops had higher crop growth rate (CGR), leaf dry weight (LDW), stem dry weight (SDW), and spike/head dry weight (S/H/PDW) at both anthesis and physiological maturity (PM) than limited irrigated condition (water stress). In winter crops, both wheat and barley grown as sole crop or intercropped with fababean produced maximum CGR, LDW, SDW, S/H/PDW than other intercrops. Among summer crops, sorghum intercropped either with pigeon pea or with mungbean produced maximum CGR, LDW, SDW, and S/H/PDW at both growth stages. Sole mungbean and pigeon pea or pigeon pea and mungbean intercropping had higher CGR, LDW, SDW, S/H/PDW than millet and sorghum intercropping. On the other hand, wheat and barley grown as sole crops or intercropped with fababean produced maximum CGR, LDW, SDW, and S/H/PDW than other intercrops. Fababean grown as sole crop or intercropped with wheat produced higher CGR, LDW, SDW, and S/H/PDW at PM than intercropped with barley or rapeseed. From the results it was concluded that cereal plus legume intercropping particularly wheat/fababean in winter and sorghum/pigeon pea or sorgum/mungbean in summer are the most productive intercropping systems under both low and high moisture regimes.

THE EFFECT OF INTENSITY OF DEFOLIATION ON ROOT DEVELOPMENT AND PRODUCTION IN SOME PASTURE-GRASS SPECIES

1937 ◽  
pp. 140-146
Author(s):  
W.A. Jacques
Keyword(s):  
Root System ◽  
Root Development ◽  
Grass Species ◽  
Pasture Grass ◽  
Rest Periods ◽  
Pasture Plants

There are many points of approach to a consideration of root development in pasture plants, but I wish to confine myself to this effect on the root system of different rest periods between the removal of leaves and outline the plants reaction to them

scholarly journals Reference transcriptome assembly and annotation for perennial ryegrass

Genome ◽  
2017 ◽  
Vol 60 (12) ◽  
pp. 1086-1088 ◽  
Author(s):  
Hiroshi Shinozuka ◽  
Noel O.I. Cogan ◽  
German C. Spangenberg ◽  
John W. Forster
Keyword(s):  
Perennial Ryegrass ◽  
Transcriptome Assembly ◽  
Genotyping By Sequencing ◽  
Whole Genome Sequence ◽  
Grass Species ◽  
Rna Seq ◽  
Pasture Grass ◽  
Tissue Samples ◽  
Genome Sequence Assembly ◽  
Transcriptome Resource

RNA-Seq methodology has been used to generate a comprehensive transcriptome sequence resource for perennial ryegrass, an important temperate pasture grass species. A total of 931 547 255 reads were obtained from libraries corresponding to 19 distinct tissue samples, including both vegetative and reproductive stages of development. Assembly of data generated a final filtered reference set of 48 713 contigs and scaffolds. The transcriptome resource will support whole genome sequence assembly, comparative genomics, implementation of genotyping-by-sequencing (GBS) methods based on transcript sampling, and identification of candidate genes for multiple biological functions.

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