The effects of foliar diseases and irrigation on root development, yield and yield components of wheat (Triticum aestivum L.)

Balasubramaniam, Rengasamy

January 1985

Studies were conducted on three field trials of wheat cv. Kopara to investigate the lack of compensation by later determined components of yield because of early disease constraints. The investigation was based on the hypothesis that early disease reduces root development and thus causes the plants to be water constrained at later growth stages when soil water deficits usually occur. The reduced root development and soil water deficits may reduce the ability of the plant to compensate for reductions in early determined components. The hypothesis was tested by the application of irrigation to alleviate water stress. In a disease free crop, the possible phytotonic effects of the fungicides benomyl and triadimefon on wheat were investigated. These fungicides had no phytotonic effects on shoot, root growth, or yield under the prevailing conditions. The effect of disease on root development was analysed by root length measurements. Disease present in the crop at any stage of growth affected root development. Root development in the upper zones of the soil profile was reduced more by disease compared to those zones below 35 cm. A full disease epidemic reduced root development more than an early or late disease epidemic. The early and late disease epidemics had similar effects on root length. Alleviation of early disease constraints enabled greater development of roots to offset any earlier reductions. Soil water deficits increased root development in the lower zones of the nil disease plants. The presence of adequate soil water from irrigation reduced the requirement for further root growth in all treatments. In the 1981-1982 field trial a full disease epidemic reduced yield by 14% whereas an early disease epidemic reduced yield by 7%. The reduction in yield was attributed to a lower grain number. With irrigation the yield reduction in the full disease plants was 12% whereas in the early disease plants the reduction was only 2.4%. This indicated that plants affected by the early disease epidemic were water constrained. In this study, the results suggested that, for conditions prevailing in Canterbury, the supply of water at later growth stages increased grain weight in plants which were subject to early disease epidemics. This suggests that reduced root development caused by early disease and soil water deficits may prevent compensation by grain weight. Water use was similar in all disease treatments. After irrigation the irrigated plants of all treatments used more water. Disease affected water use in relation to yield production however, and was better expressed by water use efficiency. Water use efficiency was reduced in the full disease plants. A stepwise regression analysis suggested that water use efficiency was affected directly by disease at later growth stages, and indirectly via an effect on total green leaf area at early growth stages. This study partially proves the hypothesis that reductions in root development caused by an early disease epidemic may constrain the plants at later growth stages when water deficits usually occur. It was shown that the reduction in root development caused by disease could be counteracted by irrigation. In this respect, water served as a tool to study the effect of disease constraints on the yield of wheat. A knowledge of cereal crop physiology, root growth and function is used to explain and discuss the observations made in this research programme. The results are discussed in relation to the way in which disease affects yield through its effect on root development. The possible reasons for the continued effects of disease even after the control of disease at later growth stages are discussed. The economic use of fungicides and water in diseased crops are also outlined. Suggestions for future studies on disease-yield loss relationships are provided. The repetition of these experiments in different sites and climatic regions could provide information which may be incorporated in disease-yield loss simulation models. This could then be used to predict root development and water requirements of diseased plants, and provide a basis for economic use of fungicides and water, and for better disease management programmes.

wheat

foliar disease

disease assessment

root development

fungicides

phytotonic

water use

water use efficiency

water deficit

stripe rust

speckled leaf blotch

yield

yield components

Resposta do arroz de terras altas a diferentes doses de carvão vegetal: desenvolvimento da planta e deficiência hídrica / Resposta do arroz de terras altas a diferentes doses de carvão vegetal: desenvolvimento da planta e deficiência hídrica / Response of upland rice to different doses of charcoal, plant development and water deficit / Response of upland rice to different doses of charcoal, plant development and water deficit

PEREIRA, Rogério Gomes

14 February 2011

Made available in DSpace on 2014-07-29T16:24:18Z (GMT). No. of bitstreams: 1 Dissertacao Rogerio Gomes Pereira.pdf: 1311913 bytes, checksum: 594d4803b27bb1b817ac16d754681cbb (MD5) Previous issue date: 2011-02-14 / The average national rice yield was 11,3 million tones, with a harvested area of about 2,7 million hectares (IBGE 2010). Part of this comes from upland production systems in savannas that have high acidity, low fertility, with low phosphorus and potassium levels, low cation exchange capacity and high aluminum saturation. Upland rice in the Brazilian savannas (Cerrados) experiences multiple abiotic stresses and is characterized by high levels of uncertainty caused by rainfall variability. The increasing consumption of plant biomass to generate energy has produced products and by-products with high potential for agricultural use. Among these products is charcoal, that, due to its physical-chemical and molecular properties, have beneficial effects for the physical, chemical and biological soil characteristics. The objective of this work was to investigate the effect of charcoal on soil chemical properties and on the development of upland rice, and on the transpiration rate response of upland rice as an alternative to decrease the effect of drought on its growth and development. Two pot experiments were carried out using a random split-plot experimental design. The main treatments (plots) were water stress (WS) and no-water stress (NWS) and the sub treatments (subplots) were different biochar doses, 0% or control (T1), 6% (T2), 12% (T3) and 24% (T4) in growing medium (sand). The plastic pots were randomized within the sub plots with six replications. The total transpirable soil water (TTSW), the p factor, defined as the average fraction of TTSW that can be depleted from the root zone before reduction in transpiration occurs and the normalized transpiration rate (NTR) were determined. Charcoal significantly increased dry matter accumulation and leaf area of rice plants in both experiments and positively affected the chemical and physical soil properties such as water retention and nitrate availability to the plants. Biochar addition increased TTSW, p factor and reduced NTR. Consequently, biochar addition was able to change the moisture threshold (p factor) of the growing medium, up to a maximum concentration of 12%, hence delaying the point where transpiration declines and affects yield. / A safra nacional de arroz foi de 11,3 milhões de toneladas, com uma área colhida de aproximadamente 2,7 milhões hectares (IBGE 2010). Parte desta produção é cultivada em sistema de sequeiro sob solos de cerrados que é caracterizado por apresentar elevada acidez e baixa fertilidade natural, com baixos teores de fósforo, potássio, capacidade de troca catiônica e elevada saturação por alumínio. O arroz de terras altas cultivado no Brasil Central (Cerrados) experimenta múltiplos estresses abióticos e sua produtividade é caracterizada pela incerteza devido à variabilidade na precipitação. O crescente consumo de biomassa vegetal para a geração de energia tem disponibilizado subprodutos com alto potencial para o uso agrícola. Dentre esses subprodutos, destaca-se o carvão vegetal, que devido as suas características físico-químicas e moleculares, tem-se mostrado benéfico para as propriedades físicas, químicas e biológicas do solo. O objetivo deste estudo foi analisar os efeitos de diferentes doses de carvão vegetal de eucalipto na produção de matéria seca na cultura do arroz de terras altas e nas características físico-químicas e hídricas em substrato areia, e na resposta da taxa de transpiração do arroz de terras altas como uma alternativa para minimizar os efeitos da seca no seu desenvolvimento e crescimento. Dois experimentos em vasos foram realizados por meio do delineamento em parcela sub-dividida. A parcela principal foi constituída pelo tratamento deficiência hídrica (WS) e não deficiência hídrica (NWS) e as sub-parcelas pelas diferentes doses de carvão; 0% (controle, T1), 6% (T2), 12% (T3) e 24% (T4) adicionadas no substrato (areia). Os vasos foram inteiramente casualizados nas sub-parcelas com seis repetições por dose de carvão. A quantidade de água transpirável no solo (TTSW), o fator de depleção (p), definido como a fração de água disponível no solo que pode ser retirada da zona radicular antes de ocorrer a redução da taxa de transpiração, e a taxa de transpiração normalizada (NTR) foram determinadas. A adição de carvão ao substrato proporcionou um aumento significativo na produção de matéria seca e área foliar das plantas de arroz em ambos os experimentos. Nos tratamentos T2, T3 e T4, a adição de carvão vegetal alterou significativamente as características químicas e físico-hídricas do solo, aumentando a retenção de água e a disponibilidade de nitrato para as plantas. A adição de carvão aumentou a TTSW, o fator p e reduziu a NTR. Conseqüentemente, o carvão foi responsável por modificar o fator p, até uma concentração máxima de 12% e retardar o ponto no qual o declínio da transpiração afeta o rendimento.

Oryza sativa

biomassa seca

área foliar

retenção de água

nitrogênio mineral

estresse abiótico

cultivar BRSMG Curinga

deficiência hídrica

Oryza sativa

eucalypt (Eucalyptus sp.) charcoal

, dry biomass

leaf area

soil water retention

mineral nitrogen

abiotic stress

BRSMG Curinga

water deficit

CNPQ::CIENCIAS AGRARIAS::AGRONOMIA

Modulation de la manipulation du peuplier par le puceron lanigère, Phloeomyzus passerinii (Sign.), via la résistance de l’hôte et l’environnement / Modulation of poplar manipulation by the woolly aphid, Phloeomyzus passerinii (Sign.), via host resistance and environment

Dardeau, France

08 December 2014

Phloeomyzus passerinii est un important ravageur des peupleraies en Europe. Ce puceron se développe sur les troncs de peuplier, avec un mode nutrition mal connu, et présente des performances variables selon les génotypes de peuplier. Dans une optique de gestion de cet insecte, il était nécessaire de clarifier la nature de ses interactions trophiques avec son hôte. En complément, nous avons étudié comment la résistance de l’hôte et des facteurs environnementaux, comme la fertilisation et une contrainte hydrique, pouvaient affecter ces interactions. Des approches histologiques et biochimiques ont permis de mettre en évidence l’induction par l’insecte d’un tissu organise dans l’écorce d’un génotype sensible (I-214), qualifiable de pseudo-galle, où les composés phénoliques solubles disparaissent mais ou des acides aminés s’accumulent. Des approches complémentaires ont montré que le comportement de nutrition du puceron était optimisé sur ces tissus modifiés, et son développement larvaire amélioré. Concernant les mécanismes de résistance, dans un génotype très résistant (Brenta), la formation de la pseudogalle était totalement inhibée, suite à une lignification intense et étendue des tissus, empêchant l’installation du puceron. Dans un génotype de résistance intermédiaire (I-45/51), la formation était seulement partiellement inhibée, diminuant les performances démographiques et comportementales de l’insecte, et la capacité du tissu modifié à accumuler des acides aminés. Pour étudier l’impact environnemental, nous avons considéré les effets de trois niveaux de fertilisation et de trois niveaux d’irrigation du sol. La fertilisation n’a pas modifié les performances du puceron, probablement à cause d’une accumulation d’acides aminés par la pseudogalle d’autant plus forte que la fertilisation était faible. Le déficit hydrique a affecté les interactions, notamment au travers d’un effet génotype dépendant, favorisant le développement de l’insecte lors d’une contrainte intermédiaire chez le génotype résistant seulement et affectant négativement le développement chez les génotypes sensible et résistant lors d’une contrainte élevée. / Phloeomyzus passerinii is an important pest of cultivated poplar stands in Europe. It develops onpoplar trunks, thanks to an undefined feeding mode, and exhibits variable performances depending on poplargenotypes. To develop efficient management strategies, we have investigated the trophic interactions betweenthis pest and its host. In addition, we have studied how host resistance and environmental factors, like fertilizationand water deficit, could affect these interactions. Histological and biochemical approaches highlighted theinduction by the aphid of an organized tissue in the bark of a susceptible poplar genotype (I-214), considered as apseudogall, where soluble phenolic compounds disappear but amino acids accumulate. Behavioral andphysiological approaches showed that the aphid nutrition behavior is optimized on these modified tissues, andthat its nymphal development is improved. Regarding resistance mechanisms, on a highly resistant genotype(Brenta), pseudogall formation was totally inhibited, due to an intense and extended lignification, preventing aphidsettlement. On a moderately resistant genotype (I-45/51), pseudogall formation was only partially inhibited,reducing demographic and behavioral performances of the insect, and the ability of the pseudogall to accumulateamino acids. To study environmental impacts, we considered the effects of three soil fertilization levels and threeirrigation levels. Fertilization did not modify aphid performances, probably due to an increase in amino acidsaccumulation by the pseudogall when fertilization decreased. Water deficit affected the interactions, through agenotype dependant effect, favoring insect development under an intermediate deficit on the resistant genotypeonly, and negatively affecting the development on both susceptible and resistant genotypes during a severe waterdeficit.

Interactions plante-insecte

Galle

Manipulation

Nutrition

Comportement

Parenchyme cortical

Fertilisation

Déficit hydrique

Acides aminés

Histologie

Biochimie

Electropénétrographie

Ecophysiologie

Aphididae

Populus x canadensis

Plant-insect interactions

Gall

Manipulation

Nutrition

Behaviour

Cortical parenchyma

Fertilization

Water deficit

Amino acid

Histology

Biochemistry

Electropenetrography

Ecophysiology

Aphididae

Populus x canadensis

571.999

Využití laboratorní a obrazové spektroskopie pro hodnocení odolnosti borovice lesní vůči suchu a rozlišení jejich ekotypů / Use of laboratory and image spectroscopy to evaluate drought resistance of Scots pine and to distinguish its ecotypes

Raasch, Filip

January 2021

The aim of this study was to propose a non-destructive method for measuring Pinus sylvestris seedlings, to determine whether water stress would be evident in laboratory spectra of pines, to compare whether the response of pines would differ by ecotype, and to investigate whether two ecotypes of Pinus sylvestris could be distinguished using laboratory and image spectroscopy. For these purposes, hyperspectral images of seed orchards from August 2020 were processed and a three-month laboratory experiment was conducted, in which stress from water deficit was induced in two-year-old pine seedlings from the upland and hilly ecotypes. Spectral data were analysed using mixed statistical models, analysis of variance, principal component analysis, training of supervised pixel classifiers, vegetation indices, and linear regression. Based on the analyses, it was found that water stress can be detected in severely stressed Pinus sylvestris seedlings. The most sensitive spectral bands to water content were observed in the region between 1000-2500 nm. The initial response to water stress did not differ by ecotype, but a faster recovery was observed at the upland ecotype after the period of draught. The two Pinus sylvestris ecotypes were distinguished with high accuracy from both laboratory and image spectral...