Calagem, gessagem, culturas de cobertura e adubação nitrogenada em sistema plantio direto : características químicas do solo, estado nutricional e produtividade do milho /

Fernandes, Vinicius Cabrio.

January 2019

Orientador: Edson Lazarini / Resumo: No cerrado, o Sistema Plantio Direto assume importância devido ao não revolvimento do solo, utilizar culturas de cobertura e preconizar rotação de culturas. Em área experimental no município de Selvíria – MS implantou-se o sistema plantio direto no ano agrícola 2000/01, com o objetivo de avaliar os tratamentos com diferentes modos e épocas de aplicação de calcário, culturas de cobertura e doses de N, no comportamento das culturas de milho e soja. Os resultados abordados neste trabalho, referem-se aos anos agrícolas 2015/16, 2016/2017 e 2017/18, quando utilizou-se o milho como cultura principal, o milheto e a Crotalaria juncea como culturas de cobertura, diferentes doses de calcário aplicadas durante os anos anteriores, complementadas com a reaplicação de calcário na presença e ou ausência de gesso e doses de N em cobertura. A área experimental pertence a UNESP – Campus de Ilha Solteira, sendo o solo classificado como LATOSSOLO VERMELHO distrófico com textura argilosa. O delineamento experimental utilizado foi o em blocos casualizados com os tratamentos disposto em esquema fatorial. O calcário foi aplicado em 2001, 2007 e 2012, perfazendo um total de (T1) 4,66; (T2) 6,90; (T3) 5,47; (T4) 6,11 e (T5) 0,81 t ha-1. No ano de 2016, foi realizado uma nova reaplicação de calcário, aplicando respectivamente nos tratamentos, 2,26; 4,52; 2,26; 4,52 e 0 t ha-1, acrescido para os tratamentos T3 e T4, 1,7 t ha-1 de gesso. As plantas de cobertura forma mantidas e as doses de N utilizadas a... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: In the Cerrado region, the no-tillage system assumes importance because of no soil tillage, use of cover crops and crop rotation. In an experimental area in Selvíria county, Mato Grosso do Sul State, Brazil, the no-tillage system was implemented in the agricultural year 2000/01, aiming to evaluate the treatments with different modes and times of application of limestone, cover crops and N rates, on the behavior of corn and soybean crops. The results to be presented in this work refer to the agricultural years 2015/16, 2016/2017 and 2017/18, when maize was used as the main crop, millet and Crotalaria juncea as cover crops, different doses of limestone applied during the previous years, complemented by the reapplication of limestone in the presence and / or absence of gypsum and N rates in topdressing. The experimental area of UNESP - Ilha Solteira Campus has soil classified as dystrophic Red Latosol with clay texture. The experimental design was a randomized complete block with treatments arranged in a factorial scheme. Limestone was applied in 2001, 2007 and 2012, totaling (T1) 4.66; (T2) 6.90; (T3) 5.47; (T4) 6.11 and (T5) 0.81 t ha-1. In 2016, a new limestone reapplication was performed, applying respectively 2.26; 4.52; 2.26; 4.52 and 0 t ha-1, plus for treatments T3 and T4, 1.7 t ha-1 of gypsum. The cover crops were maintained and the doses of N used annually were 0, 90 and 180 kg ha-1, using urea as source. Evaluations were based on corn nutritional status, corn agronomi... (Complete abstract click electronic access below) / Mestre

Crotalaria.

Milheto.

Nitrogenio.

Calcario.

Gesso.

Zea mays

Sunn hemp

Millet

Nitrogen

Limestone

Sulfato de cálcio.

Honey bee foraging in agricultural landscapes / Sammelverhalten von Honigbienen in der Agrarlandschaft

Danner, Nadja

January 2017

1. Today honey bee colonies face a wide range of challenges in modern agricultural landscapes which entails the need for a comprehensive investigation of honey bees in a landscape context and the assessment of environmental risks. Within this dissertation the pollen foraging of honey bee colonies is studied in different agricultural landscapes to gain insight into the use of pollen resources and the influence of landscape structure across the season. General suggestions for landscape management to support honey bees and other pollinators are derived. 2. Decoding of waggle dances and a subsequent spatial foraging analysis are used as methods in Chapters 4 and 5 to study honey bee colonies in agricultural landscapes. The recently developed metabarcoding of mixed pollen samples was applied for the first time in honey bee foraging ecology and allowed for a detailed analysis of pollen, that was trapped from honey bees in front hive entrances (Chapter 6). 3. Pollen identification through molecular sequencing and DNA barcoding has been proposed as an alternative approach to light microscopy, which still is a tedious and error-prone task. In this study we assessed mixed pollen probes through next-generation sequencing and developed a bioinformatic workflow to analyse these high-throughput data with a newly created reference database. To evaluate the feasibility, we compared results from classical identification based on light microscopy from the same samples with our sequencing results. Abundance estimations from sequencing data were significantly correlated with counted abundances through light microscopy. Next-generation sequencing thus presents a useful and efficient workflow to identify pollen at the genus and species level without requiring specialized palynological expert knowledge. 4. During maize flowering, four observation hives were placed in and rotated between 11 landscapes covering a gradient in maize acreage. A higher foraging frequency on maize fields compared to other landuse types showed that maize is an intensively used pollen resource for honey bee colonies. Mean foraging distances were significantly shorter for maize pollen than for other pollen origins, indicating that effort is put into collecting a diverse pollen diet. The percentage of maize pollen foragers did not increase with maize acreage in the landscape and was not reduced by grassland area as an alternative pollen resource. Our findings allow estimating the distance-related exposure risk of honey bee colonies to pollen from surrounding maize fields treated with systemic insecticides. 5. It is unknown how an increasing area of mass-flowering crops like oilseed rape (OSR) or a decrease of semi-natural habitats (SNH) change the temporal and spatial availability of pollen resources for honey bee colonies, and thus foraging distances and frequency in different habitat types. Sixteen observation hives were placed in and rotated between 16 agricultural landscapes with independent gradients of OSR and SNH area within 2 km to analyze foraging distances and frequencies. SNH and OSR reduced foraging distance at different spatial scales and depending on season, with possible benefits for the performance of honey bee colonies. Frequency of pollen foragers per habitat type was equally high for SNH, grassland and OSR fields, but lower for other crops and forest. In landscapes with a small proportion of SNH a significantly higher density of pollen foragers on SNH was observed, indicating the limitation of pollen resources in simple agricultural landscapes and the importance of SNH. 6. Quantity and diversity of collected pollen can influence the growth and health of honey bee colonies, but little is known about the influence of landscape structure on pollen diet. In a field experiment we rotated 16 honey bee colonies across 16 agricultural landscapes (see also Chapter 5), used traps to get samples of collected pollen and observed the intra-colonial dance communication to gain information about foraging distances. Neither the amount of collected pollen nor pollen diversity were related to landscape diversity. The revealed increase of foraging distances with decreasing landscape diversity suggests that honey bees compensate for a lower landscape diversity by increasing their pollen foraging range in order to maintain pollen amount and diversity. 7. Our results show the importance of diverse pollen resources for honey bee colonies in agricultural landscapes. Beside the risk of exposure to pesticides honey bees face the risk of nutritional deficiency with implications for their health. By modifying landscape composition and therefore availability of resources we are able to contribute to the wellbeing of honey bees. Agri-environmental schemes aiming to support pollinators should focus on possible spatial and temporal gaps in pollen availability and diversity in agricultural landscapes. / 1. Honigbienen stehen heutzutage vor einer Vielzahl von Herausforderungen in der modernen Agrarlandschaft, was umfassende Untersuchungen von Honigbienen im Landschafskontext erforderlich macht. Im Rahmen dieser Arbeit wurde das Pollensammeln von Honigbienenvölkern in verschiedenen Agrarlandschaften studiert, um Einblick in die Nutzung von Pollenressourcen und auf den Einfluss der Landschaftsstruktur zu gewinnen. 2. Die Dekodierung von Schwänzeltänzen und eine anschließende räumliche Analyse des Sammelverhaltens werden als Methoden in den Kapiteln 4 und 5 eingesetzt, um Bienenvölker in Agrarlandschaften zu untersuchen. Das kürzlich entwickelte Metabarcoding von gemischten Pollenproben wurde zum ersten Mal in der Honigbienenökologie angewandt und ermöglichte eine detaillierte Analyse von Pollenproben, die per Pollenfallen vor den Stockeingängen gesammelt wurden (Kapitel 6). 3. Pollenbestimmung durch molekulare Sequenzierung und DNA Barcoding wurde als Alternative zur Lichtmikroskopie vorgeschlagen, die immer noch sehr mühsam und fehlerbehaftet ist. In dieser Studie bestimmten wir gemischte Pollenproben durch Next-Generation-Sequenzierung und entwickelten einen bioinformatischen Arbeitsablauf um diese Hochdurchsatz-Daten mit einer neu kreierten Referenzdatanbank zu analysieren. Um die Durchführbarkeit zu evaluieren verglichen wir Ergebnisse aus der klassischen Identifizierung via Lichtmikroskopie derselben Proben mit unseren Sequenzier-Ergebnissen. Häufigkeitsschätzungen auf Basis der Sequenzierdaten waren signifikant mit den gezählten Häufigkeiten via Lichtmikroskopie korreliert. Next-Generation-Sequenzierung stellt daher einen nützlichen und effizienten Arbeitsablauf dar, um Pollen auf dem Gattungs- und Artniveau zu bestimmen ohne spezielles palynologisches Expertenwissen zu benötigen. 4. Während der Maisblüte wurden vier Beobachtungsstöcke in 11 Landschaften mit einem Maisflächengradienten platziert und zwischen diesen rotiert. Maisfelder wurden intensiver genutzt als Flächen anderer Landnutzungstypen. Die mittleren Sammeldistanzen waren signifikant niedriger für Maispollen als Pollen anderer Herkunft, was darauf hinweist, dass Aufwand in das Sammeln einer diversen Pollendiät gesetzt wird. Der Anteil an Maispollensammlerinnen stieg nicht mit der Maisanbaufläche in der Landschaft und wurde nicht durch Grünlandfläche als alternative Pollenressource reduziert. Unsere Ergebnisse ermöglichen die Schätzung des entfernungsbezogenen Expositionsrisikos von Honigbienenvölker auf Pollen aus den umliegenden Maisfeldern, die mit systemischen Insektiziden behandelt werden. 5. Es ist nicht bekannt, wie eine Zunahme von Massentrachten wie Raps (OSR) oder eine Abnahme von halbnatürlichen Habitaten (SNH) die zeitliche und räumliche Verfügbarkeit von Pollenressourcen für die Honigbienen, und damit Sammeldistanzen und -frequenzen in verschiedenen Lebensraumtypen verändert. Sechzehn Beobachtungsstöcke wurden in 16 Agrarlandschaften mit unabhängigen Gradienten an OSR- und SNH-Fläche innerhalb von 2 km platziert und regelmäßig rotiert, um Sammeldistanzen und -frequenzen zu analysieren. SNH und OSR reduzierten die Sammeldistanzen auf verschiedenen räumlichen Skalen und je nach Saison, mit möglichen Vorteilen für die Leistungsfähigkeit von Bienenvölkern. Die Häufigkeit der Pollensammler pro Habitattyp war gleich hoch für SNH, Grünland und OSR, aber niedriger für andere Kulturen und Wald. In Landschaften mit einem kleinen Anteil von SNH wurde eine deutlich höhere Dichte von Pollensammlerinnen auf SNH beobachtet, was auf die Begrenzung der Pollenressourcen in einfachen Agrarlandschaften und die Bedeutung von SNH hinweist. 6. Menge und Diversität des gesammelten Pollens können das Wachstum und die Gesundheit von Honigbienenvölkern beeinflussen, aber es ist wenig über den Einfluss der Landschaftsstruktur auf die Pollendiät bekannt. In einem Feldexperiment rotierten wir 16 Honigbienenkolonien über 16 Agrarlandschaften (siehe auch Kapitel 5), nutzten Pollenfallen um Proben des gesammelten Pollens zu nehmen und beobachteten die intrakoloniale Tanzkommunikation, um Informationen über die Sammeldistanzen zu erhalten. Weder Pollenmenge noch -diversität waren von der Landschaftsdiversität abhängig. Der offenbarte Anstieg von Sammeldistanzen mit abnehmender Landschaftsdiversität legt nahe, dass Honigbienen durch die Erweiterung des Pollensammelbereichs eine niedrigere Landschaftsdiversität kompensieren, um Pollenmenge und -diversität zu erhalten. 7. Unsere Ergebnisse zeigen die Bedeutung eines diversen Pollenangebots für Bienenvölker in der Agrarlandschaft. Neben dem Risiko einer Exposition gegenüber Pestiziden, stehen Bienenvölker vor der Gefahr von Mangelernährung mit Auswirkungen auf ihre Gesundheit. Durch eine Änderung der Landschaftzusammensetzung und damit der Verfügbarkeit von Ressourcen können wir zum Wohlergehen der Honigbienen beitragen. Agrarumweltmaßnahmen mit dem Ziel Bestäuber zu unterstützen, sollten sich auf mögliche räumliche und zeitliche Lücken in der Pollenverfügbarkeit und Vielfalt in der Agrarlandschaft konzentrieren.

Apis mellifera

Zea mays

Resource Use

Exposure Risk

Oilseed Rape

ddc:570

Etude biogéochimique du transfert du sélénium dans un système eau-plante-atmosphère : conséquences sur la physiologie du Zea mays subsp. mays (L.)

Longchamp, Melanie

12 September 2012

Le sélénium (Se) est un antioxydant et un oligo-élément pour les animaux et les humains. Néanmoins, l'intervalle de concentration entre carence et toxicité est très étroit. Ce métalloïde est introduit indirectement dans la chaine alimentaire via son accumulation dans les plantes. La littérature sur ce sujet est encore restreinte et incomplète, s'effectuant couramment sur des plantes modèles et en présence de fortes concentrations en Se. Cette thèse porte sur le transfert du Se dans une plante de grande culture, le Zea mays, et les conséquences de cette accumulation sur la physiologique de la plante à travers l'étude de l'accumulation des cations essentiels (Ca, Mg, Fe, Zn, Mn, Cu). Des expérimentations en milieu contrôlé (cultures en hydroponie) ont donc été réalisées pour obtenir un ensemble d'échantillons analysés ensuite par des techniques d'analyse adéquates et sensibles (CRC-ICP-MS par exemple). Diverses modalités influençant le transfert du Se dans la plante ont ainsi été étudiées : la concentration et forme du Se source ainsi que le stade de développement de la plante. Les résultats ont montré que l'absorption racinaire, la concentration au sein de la plante ainsi que le degré de métabolisation du Se, et par conséquent les apports en Se pour les populations animales et humaines, sont fortement influencés par les trois facteurs énoncés. De plus, cette étude a mis en évidence que l'accumulation des cations au sein des plantes dépendent du Se. Ces effets peuvent être associés au déséquilibre du système de détoxification des espèces oxygénées réactives des cellules, en cohérence avec le caractère ambivalent du Se: antioxydant ou pro-oxydant selon sa concentration.

Sélénium

Spéciation

Zea mays

Accumulation

Translocation

Cations essentiels

Aux abords de l'identité latino-américaine /

Olivera Grotti, Gladys.

January 2003

Texte remanié de: Th. doct--Litt. et civilisation latino-américaines--Toulouse 2, 2002. Titre de soutenance : Le problème de l'identité dans la philosophie latino-américaine. / Bibliogr. p. 311-317. Index.

X-ray crystallographic analysis of three proteins : the novel structures of the corn Hageman factor inhibitor, the G-protein coupled receptor rhodopsin, and the ultra-high resolution structure of carbonic anhydrase /

Behnke, Craig A.

January 2000

Thesis (Ph. D.)--University of Washington, 2000. / Vita. Includes bibliographical references (leaves 73-77).

The role of host plants and parasitoids on the abundance of spring populations of Heliothis spp. in Arizona

Rathman, Robin Jean

January 1981

No description available.

Host-parasite relationships.

Insect-plant relationships.

Heliothis zea.

Insect populations -- Arizona.

Mechanisms of field-evolved Cry1Ac resistance in Helicoverpa zea

Zhang, Min

January 2014

Global large-scale adoption of Bt transgenic crops has provided effective management of key insect pests and have greatly reduced insecticide use. However, some field populations of several insect species have evolved resistance to Bt crops in the field, which threatens the continuing success of Bt crops. The cotton bollworm (Helicoverpa zea) is among the first pest reported to have field-evolved resistance to Cry1Ac and Cry2Ab, but the underlying mechanisms remain largely unknown. To determine the current resistance status of the field populations of H. zea and to elucidate the mechanisms of Bt resistance in this pest, I conducted a series of experiments including bioassays of field populations as well as biochemical and molecular comparisons of midgut proteases and putative Cry1Ac receptors between Cry1Ac-susceptible and -resistant strains. Diet incorporation bioassays of six field populations of H. zea collected from Tifton, Georgia USA in 2008 and 2009 indicated that, comparing to LAB-S, a susceptible laboratory strain, all six field populations were significantly resistant to Cry1Ac toxin and one of three field strains was significantly resistant to Cry2Ab toxin. Across the five populations, survival on leaf-discs producing Cry1Ac was positively correlated to the lethal concentration that kills 50% of the population (LC₅₀) for Cry1Ac from diet bioassays. These results support previous findings of field-evolved resistance to Bt crops in H. zea and suggest an overall increase in resistance to Cry1Ac from 2002 to 2009.One of the six field population, which was designed as GA and had 55-fold resistance to Cry1Ac, was further selected with Cry1Ac in the laboratory to generate a more resistant strain, which was designated as GA-R and had 560-fold resistance to Cry1Ac. Total protease activity of the midgut extracts from GA-R and GA strains is significantly lower than that from the susceptible laboratory strain LAB-S. Among the proteases contributing to the total activity, trypsin-like and chymotrypsin-like activities of GA-R and GA midgut extracts are significantly lower than that from the susceptible strain, while no difference in elastase-like activity is evident. Decreased proteolytic activity was correlated to the decreased Cry1Ac activation rate of midgut extracts of the GA-R and GA strains. Cytotoxicity assays with H. zea midgut cells show that the product of Cry1Ac protoxin digested with GA-R and GA midgut extracts has significantly lower cytotoxicity when compared with that digested with the susceptible strain midgut extracts. Transcriptional analysis of a limited number of protease genes did not identify specific proteases involved in the decline in Cry1Ac activation in GA-R and GA. These results indicate that the decreased Cry1Ac activation rate by midgut proteases is involved in the field originated Cry1Ac resistance in the H. zea GA-R and GA strains. I also compared the cDNA sequences and expression levels of the putative Cry1Ac receptors cadherin, aminopeptidase 1 (APN1), alkaline phosphatase 2 (ALP2) and ATP-binding cassette subfamily C member 2 (ABCC2) in LAB-S and GA-R. No indels (insertions and deletions) were found in the cDNA sequences of the resistant alleles of the four receptors, relative to those of the susceptible alleles. While there were no amino acid point mutations in the resistant alleles of ALP2 and ABCC2, we found 2 and 14 consistent amino acid point mutations in the resistant alleles of cadherin and APN1, respectively. However, neither cadherin nor APN1 point mutations were genetically linked to Cry1Ac resistance in GA-R. Quantitative RT-PCR analysis revealed no differences in the transcripts of the four receptors between the two strains. Taken together, these results indicate that the four receptors are not involved in Cry1Ac resistance in the GA-R strain of H. zea.

Cry1Ac receptor

Field-evolved resistance

Helicoverpa zea

Proteases

Entomology

Bacullus thuringiensis

Impact de l'inoculation de micro-organismes phytobénéfiques sur le métabolisme secondaire de Zea mays L.

Walker, Vincent

08 October 2010

Les plantes dans leur environnement établissent des interactions avec des micro-organismes du sol. Parmi ces interactions nous pouvons distinguer les symbioses associatives mettant en jeu des bactéries PGPR (Plant Growth Promoting Rhizobacteria). L'impact de ces microorganismes phytobénéfiques (Azospirillum, Pseudomonas...) sur le métabolisme de la plante hôte est encore mal connu. Le modèle d'étude que nous avons choisi dans le cadre de ce travail est Zea mays L. qui peut établir de nombreuses symbioses associatives avec des PGPR. Pour étudier les effets de ces micro-organismes sur le maïs, deux approches ont été développées faisant notamment appel à des outils de profilage métabolique pour i) déterminer l'impact de la simple inoculation micro-organismes sur le métabolisme secondaire racinaire et des parties aériennes de la plante hôte, et ii) évaluer les effets physiologiques de consortia microbiens comprenant Azsopirillum, Pseudomonas et Glomus. Les résultats de ce travail démontrent la place prépondérante des composés de type benzoxazinoide (benzoxazolinone et benzoxazinone) dans les interactions et la modulation de leur synthèse induite par les inocula. Par ailleurs nos travaux mettent également en évidence que la réponse métabolique de la plante à l'interaction avec les micro-organismes est dépendante de l'espèce et de la souche bactérienne considérée suggérant ainsi un phénomène de reconnaissance entre les deux organismes

Zea mays L

PGPR

Azospirillum

Pseudomonas

Glomus

Métabolites secondaires

Benzoxasinoïdes

Métabolome

Aspects of Interspecifc Competition in Maize (Zea mays L.)

Page, Eric

10 December 2009

Interspecific competition is comprised of both resource dependant and resource independent processes. While many studies have focused on the role that resource dependant competition plays in reducing crop yields, few have investigated whether resource independent effects, such as light or hormonal signaling, may contribute to these yield losses. The focus of this thesis was to investigate the role of the shade avoidance response in determining the onset and outcome of crop-weed competition in maize (Zea mays L.). The results of greenhouse and field trials demonstrate that shade avoidance in maize can be induced shortly after seedling emergence and that the effects of this early response can be detected throughout the entire life cycle of the crop. Seedlings exposed to a weedy or low red to far-red light (R/FR) environment at emergence displayed an initial increase in plant height and a reduction in the root-to-shoot ratio. These effects were followed by a reduction in the rate of leaf appearance (RLA) and a linear decline in biomass and leaf area (LA) as the duration of time spent in a weedy environment increased. Conversely, seedlings emerging in a weed-free or ambient R/FR environment were unaffected regardless the duration of time spent in the weedy environment. These effects of early crop-weed competition are distinct from those of plant population density (i.e., intraspecific competition). Results of a field trial demonstrated that intraspecific competition at a conventional density of 8 plants m-2 did not negatively impact RLA or biomass accumulation until well after the defined critical period for weed control. Moreover, intraspecific competition at 16 plants m-2 was not detected until the 12th leaf tip stage, suggesting that the effects of crop density are more closely associated with canopy closure than an early shade avoidance response. At maturity, seedlings that expressed shade avoidance at early stages of development set fewer kernels and partitioned less biomass to the developing ear. Shade avoidance also doubled the plant-to-plant variability in yield parameters without affecting the mean or frequency distribution of shoot biomass at maturity. When taken together, the results of these studies indicate that shade avoidance destabilizes stand productivity by increasing plant-to-plant variability in reproductive effort prior to intra- or interspecific competition for resources.

competition

harvest index

kernel number

fitness

red to far-red ratio.

light quality

corn

Zea mays

DEVELOPMENT OF SEQUENCE-SPECIFIC MOLECULAR MARKERS BASED ON PHENYLPROPANOID PATHWAY GENES FOR RESISTANCE TO FUSARIUM GRAMINEARUM [SCHWABE] IN ZEA MAYS (L.)

Martin, Christopher Joseph

30 September 2011

The fungus Fusarium graminearum (Schwabe) causes Gibberella ear rot in maize, resulting in accumulation of harmful mycotoxins in the grain. Disease severity and pericarp/aleurone dehydrodiferulic acid content are negatively correlated. Furthermore, quantitative trait locus mapping (QTL) identified colocalization between QTL for both traits. A candidate gene approach was employed to identify the genes responsible for the observed colocalization. Candidate genes selected on the basis of their putative involvement in various aspects of cell wall DFA accumulation were mapped in silico using the maize genome sequence. Polymorphisms were discovered in putative genes and converted to molecular markers. The in silico mapping effort was successful in predicting map locations of the analyzed sequences, and the segregation of certain marker alleles could explain variation for Gibberella ear rot severity and pericarp-aleurone DFA content.

fusarium graminearum

molecular marker

quantitative trait locus

linkage map

ferulic acid

phenylpropanoid metabolism

zea mays