Global ETD Search

181	Contribution relative de la végétation du sous-bois dans la consommation en eau des placettes forestières soumises aux changements de climat et de pratiques / Contribution of understorey vegetation to forest water consumption in stand under climate change and new practices Gobin, Rémy 08 December 2014 (has links) Avec l'augmentation des sécheresses dans les forêts tempérées, la gestion sylvicole envisage de réduire la densité des peuplements adultes pour limiter le déficit hydrique. Cependant, la réduction de la canopée arborée augmente le rayonnement dans le sous-bois et permet le développement de la strate herbacée monopoliste. Nos objectifs étaient de caractériser l'évapotranspiration (ETu) de 4 herbacées monopolistes (Molinia caerulea, Calluna vulgaris, Pteridium aquilinum and Rubus sp.) et de quantifier leur impact sur la teneur en eau du sol (SWC) dans des peuplements de Quercus petraea. L’ETu des quatre herbacées cultivées en pot a été quantifiée en conditions semi-contrôlées caractérisées par deux niveaux d’éclairement relatif et 3 niveaux de SWC. In situ, le SWC, le microclimat et l’ETu de P. aquilinum et M. caerulea ont été mesurés sur 20 dispositifs dans les peuplements forestiers de Q. petraea présentant un gradient croissant de LAI. Chaque dispositif était subdivisé en 2 placettes, l’une était désherbée et l'autre enherbée. M. caerulea et C. vulgaris ont une faible régulation de leur ETu alors que P. aquilinum et Rubus sp. ont une stratégie conservatrice face au stress hydrique. SWC diminue plus rapidement quand le LAI de la strate herbacée augmente, ce qui est directement lié à l’ouverture du couvert arboré avec une valeur seuil de LAI de la strate arborée à 2-3, sous laquelle la contribution de la strate herbacée à l’évapotranspiration du peuplement pourrait compenser la diminution de celle de la strate arborée.Ces résultats montrent la nécessité de considérer la végétation du sous-bois dans la gestion sylvicole notamment lorsque la ressource hydrique est limitante. Ainsi, la réduction de la densité de la strate arborée doit être un compromis entre la réduction de la surface foliaire des arbres pour réduire l’ET, et le maintien d’une densité suffisante de la strate arborée pour limiter la croissance et l'ETu de la végétation du sous-bois. / In the context of ongoing increase of drought in temperate forests, forest managers consider the reduction of stand density to limit soil water depletion. The reduction of tree canopy density increases light below canopy and allows the development of monopolistic understorey vegetation. Our objectives were to characterize the evapotranspiration (ETu) of common understorey plants (Molinia caerulea, Calluna vulgaris, Pteridium aquilinum and Rubus sp.) and to quantify their impacts on soil water content (SWC) in mature oak stands (Quercus petraea).A first experiment was set up in a greenhouse where the 4 understorey species were potted and subjected to 2 levels of light transmittance and 3 levels of SWC. Microclimate and ETu were monitored. A second experiment was carried out on 20 plots (10 with M. caerulea and 10 with P. aquilinum) in oak stands with contrasted LAI. On each plot, two circular areas were set up, one weeded and the other untouched. SWC, microclimate and ETu were monitored.M. caerulea and C. vulgaris are more water spenders, whereas P. aquilinum and Rubus sp. are more water savers under water stress. Soil water depletion was faster with increasing understorey vegetation LAI, which was directly linked to tree canopy opening with a threshold of tree LAI of 2-3 below which the understorey contribution could offset the reduction of tree ET. The experimentations showed that the relative contribution of understory vegetation in the ecosystem water balance is significant, and depends on SWC and on the understorey species identity. These results show the necessity to consider understorey vegetation in forest management when water availability is an issue. Lower tree canopy density could increase the understorey ETu and soil water stress for trees. From a management perspective, thinning should be designed as a compromise between the reduction of tree leaf area to reduce ET, and maintaining sufficient tree canopy to restrict the growth and ETu of understorey vegetation. Evapotranspiration Végétation du sous-bois Surface foliaire Microclimat Changement climatique Molinia caerulea Calluna vulgaris Pteridium aquilinum Rubus sp. Quercus petraea Evapotranspiration Understorey vegetation Leaf area index Microclimate Climate change Molinia caerulea Calluna vulgaris Pteridium aquilinum Rubus sp. Quercus petraea 577.3
182	Estrutura do dossel, interceptação luminosa e acúmulo de forragem em pastos de Capim-Marandu submetidos a alturas de pastejo por meio de lotação contínua. / Sward structure, light interception and herbage acummulation of marandu grass swards submitted to grazing intensities by continuous stocking regimes. Leonardo Kehdi Molan 25 June 2004 (has links) Num ecossistema de pastagem a interceptação da luz incidente é o passo inicial de uma seqüência de eventos que resulta na produção de forragem. Vários são os fatores que interferem no processo de interceptação da luz e, dentre eles, os mais expressivos são aqueles relacionados com o índice de área foliar, com as características estruturais e com o arranjo espacial de componentes do dossel forrageiro. O presente experimento teve como objetivo estudar a estrutura do dossel, a interceptação luminosa e o acúmulo de forragem em pastos de Brachiaria brizantha cv. Marandu submetidos a lotação contínua por bovinos de corte. O experimento foi conduzido no Departamento de Zootecnia da USP/ESALQ. Os tratamentos corresponderam a quatro alturas de dossel (10, 20, 30 e 40 cm) mantidas constantes por meio de lotação contínua e taxa de lotação variável. O delineamento experimental foi o de blocos completos casualizados com quatro repetições. As variáveis estudadas foram: índice de área foliar (IAF), ângulo foliar, interceptação de luz, composição botânica/morfológica da forragem, distribuição vertical dos componentes do dossel forrageiro e acúmulo de forragem. A composição da massa de forragem dos pastos não apresentou grande variação entre tratamentos, principalmente no que diz respeito à porcentagem de hastes (27%) e de folhas (21%). A quantidade absoluta e a porcentagem de material morto em relação aos outros componentes morfológicos do dossel aumentaram do verão (30%) até o início da primavera (61%). Quanto maior a altura do dossel, maior foi o deslocamento dos componentes morfológicos ao longo de seu perfil vertical durante o ano. Reduções acentuadas nos valores de IAF dos pastos mantidos a 20 (5,2 para 1,6), 30 (7,0 para 1,5) e 40 cm (7,5 para 2,1) do verão ao início da primavera, respectivamente, não foram acompanhadas por reduções em interceptação luminosa, que se manteve consistentemente acima de 98%. O componente material morto interferiu de foma significativa na interceptação de luz, além de ter apresentado um padrão dinâmico de posicionamento no perfil vertical do dossel ao longo do ano. Essa variação na estrutura vertical do dossel foi tão maior quanto mais altos foram mantidos os pastos, e seu efeito sobre os padrões de interceptação luminosa provocou grandes variações na produção de forragem ao longo do ano. De toda a forragem produzida, 65 e praticamente 100% foi acumulada durante o final da primavera e verão nos pastos mantidos a 10 e 40 cm, respectivamente. A produção total de forragem não diferiu entre os pastos mantidos a 10, 20 e 30 cm (aproximadamente 24 ton.ha-1.ano-1), sugerindo haver grande flexibilidade de manejo para essa espécie forrageira. As modificações no sentido vertical e horizontal na estrutura do dossel forrageiro tiveram impacto maior sobre a distribuição estacional do que propriamente sobre a produção total de forragem. / In a pastoral ecossystem the interception of incident radiation is the first step of a sequence of events that results in herbage production. Several are the factors interfering on the light interception process including sward leaf area index, structure and architecture. The objective of this experiment was to study sward struture, light interception and herbage acummulation of Brachiaria brizantha cv. Marandu pastures submitted to continuous stocking by beef cattle. The experiment was carried out at Departamento de Zootecnia, USP/ESALQ. Treatments correspondended to four sward heights (10, 20, 30 and 40 cm) kept constant through continuous stocking and variable stocking rate, allocated to experimental units according to a complete randomized block design with four replications. The response variables evaluated were sward leaf area index (LAI), foliage angle, light interception, botanical and morphological composition and hebarge production. There was no significant change in hebarge mass composition with stems representing 27% and leaves 21% of the sward. Quantity and proportion of dead material relative to the other sward morphological components increased from Summer (30%) to early Spring (61%). The taller the swards, the larger was the shift in the position of the morphological components across the vertical sward profile throughout the year. Significant reductions in LAI values for the 20 cm (5,2 to 1,6), 30 cm (7,0 to 1,5) and 40 cm swards (7,5 to 2,1) from Summer to early Spring were not followed by reduction in light interception, which remained above 98% consistent by through out the year around. The dead material component played an important role on sward light interception, and its placement across the vertical sward profile exhibited a dynamic pattern of variation. This variation was more evident in taller swards and affected sward light interception, resulting in varying seasonalities of herbage production. From the total herbage yield, 65 and 100% was produced during late Spring and Summer on the 10 and 40 cm swards, respectively. There was no difference in total herbage production among swards maintained at 10, 20 and 30 cm (24 ton.ha-1.year-1), sugesting that there is a large flexibilitty in grazing management for Brachiaria brizantha cv. Marandu. Modifications in both vertical and horizontal structure of the sward were more effective in changing the seasonal pattern of herbage production than determining herbage yield. bovinos de corte capim braquiária capim marandu dossel (botânica) efeito da luz forragem índice de área foliar pastagem pastejo beef cattle braquiaria grass grazing herbage leaf area index light effect marandu grass pasture sward/canopy
183	Impacto do método de pastejo sobre o acúmulo de forragem, estrutura do dossel e respostas morfofisiológicas da Brachiaria híbrida Convert HD 364 / Impact of stocking method on forage accumulation, canopy structure and morphophysilogical responses of Mulato II brachiriagrass Solange Garcia Holschuch 07 February 2018 (has links) Apesar de muitos estudos dos diferentes métodos de lotação, a definição de estratégias de manejo eficientes geralmente é embasada em respostas de experimentos realizados com cada método individualmente, e não com ambos impostos sob uma mesma base de comparação. Com o objetivo de fundamentar os argumentos existentes, este estudo avaliou os impactos dos métodos de lotação contínua e intermitente impostos sob duas metas de alturas médias em pastagem de capim Convert HD 364, com avaliações da estrutura e das características morfofisiologicas do dossel, assim como do acúmulo (AF) e taxa de acúmulo (TAF) de forragem durante o verão agrótológico. O delineamento experimental utilizado foi o de blocos completos casualizados, com três repetições, seguindo um arranjo fatorial 2 x 3 entre duas metas de altura média de dossel (20 e 30 cm) e três métodos de lotação: 1) lotação contínua (LC) mimetizada, com taxa de lotação variável; 2) lotação intermitente (i.e., pastejo rotativo) com desfolhação leniente (remoção de ~ 40% da altura de dossel no pré-pastejo) (LIDL); e 3) lotação intermitente (i.e., pastejo rotativo) com desfolhação severa (remoção de ~ 60% da altura de dossel no pré-pastejo) (LIDS), respectivamente impostos por amplitudes de ±10, 25 e 40% entorno das metas de altura média de dossel, totalizando 18 unidades experimentais (piquetes) de 200 m2. Pastos manejados sob LC apresentaram maior AF e TAF (7410 kg MS ha-1 e 87 kg MS ha-1 dia-1, respectivamente). A interceptação de luz pelo dossel foi maior nos pastos sob LC (97%) do que naqueles sob LIDL e LIDS (93,7%) quando comparados nas metas de altura média do dossel (20 e 30 cm). No entanto, em pré-pastejo, os pastos sob LIDL e LIDS apresentaram 99% de interceptação de luz pelo dossel. Alterações com o mesmo padrão de respostas foram registradas para as proporções dos componentes da massa de forragem e índice de área foliar (IAF), com incremento significativo das proporções de lâmina foliar e colmos, assim como do IAF, e redução das proporções de material morto à medida que os pastos eram manejados sob menor intensidade em lotação contínua, ou havia o incremento da altura de pré-pastejo em lotação intermitente. Os métodos de lotação e as respectivas metas de altura não afetaram a taxa de fotossíntese de folhas individuais, mas a maior fotossíntese do dossel (69,35 μmol CO2 m-2 s-1) foi obtida nos pastos manejados sob LIDS com meta de altura média de 30 cm. Os pastos manejados sob LC apresentaram taxas de fotossíntese do dossel constantes (47 μmol CO2 m-2 s-1), o que resultou em maiores TAF e AF dentre os métodos de lotação estudados. / In spite of the great number of studies evaluating plant responses to different stocking methods, the definition of more efficient management strategies is generally based on the results of studies evaluating each stocking method separately. With the purpose of substantiating existing arguments, the present study evaluated the impacts of three stocking methods (1 - mimicked continuous stocking with variable stocking rate - CS; 2 - rotational stocking with lenient defoliation - removal of ~40% of pre-grazing canopy height - RSLD; 3 - rotational stocking with severe defoliation - removal of ~60% of pre-grazing canopy height - RSSD, respectively imposed by ±10, 25 and 40% variations) combined in a factorial arrangement with two mean canopy heights (20 and 30 cm) of Mulato II brachiariagrass, on canopy structure, morphophysiological characteristics, forage accumulation (FA) and forage accumulation rate (FAR) during the summer growing season. The experimental design was a randomized complete block with three replications, totaling 18 experimental units (paddocks) of 200 m2. Paddocks in CS treatments presented greater FA and FAR (7410 kg DM ha-1 and 87 kg DM ha-1 d-1, respectively). Canopy light interception was greater for paddocks in CS (97%) than for those in RSLD and RSSD (93.7%) for the two mean canopy heights. However, at pre-grazing, paddocks under RSLD and RSSD presented 99% of canopy light interception. The same response pattern was observed for forage mass composition and for leaf area index (LAI), with significant increases in the proportions of leaves and stems, as well as in LAI, and decreases in the proportions of dead material, as the grazing intensity decreased in CS, or as the pre-grazing height increased in the rotational stocking treatments. Neither the stocking methods, nor the mean canopy heights affected the photosynthesis rates of individual leaves, but the greatest canopy photosynthesis (69.35 μmol CO2 m-2 s-1) was obtained in paddocks under RSSD with mean canopy heights of 30 cm. Paddocks in CS presented constant canopy photosynthesis rates (47 μmol CO2 m-2 s-1), what lead to the greatest FAR and FA among the investigated stocking methods. Urochloa spp Assimilação de carbono Lotação contínua Lotação intermitente Mulato II Urochloa spp. Brachiaria hybrid Canopy height Canopy light interception Defoliation severity Leaf area index Mulato II brachiariagrass Post-grazing Pre-grazing
184	Monitoring Crop Evapotranspiration in the Western Lake Erie Basin Using Optical Sensors Marambe Kodippili Arachchilage, Yahampath Anuruddha Marambe 26 November 2018 (has links) No description available. Geology Geobiology Earth Ecology Environmental Geology Remote Sensing Agriculture Agronomy BEPS ET Evapotranspiration WLEB Landsat Sentinel Leaf Area Index Enhanced Vegetation Index Classification Corn Soybean Alfalfa Spatial ET Boreal Ecosystem Productivity Simulator Land cover Crop frequency Crop evapotranspiration
185	Evaluation of Multi-Platform LiDAR-Based Leaf Area Index Estimates Over Row Crops Behrokh Nazeri (10233353) 05 March 2021 (has links) <div>Leaf Area Index (LAI) is an important variable for both for characterizing plant canopy and as an input to many crop models. It is a dimensionless quantity broadly defined as the total one-sided leaf area per unit ground area, and is estimated over agriculture row crops by both direct and indirect methods. Direct methods, which involve destructive sampling, are laborious and time-consuming, while indirect methods such as remote sensing-based approaches have multiple sources of uncertainty. LiDAR (Light Detection and Ranging) remotely sensed data acquired from manned aircraft and UAVs’ have been investigated to estimate LAI based on physical/geometric features such as canopy gap fraction. High-resolution point cloud data acquired with a laser scanner from any platform, including terrestrial laser scanning and mobile mapping systems, contain random noise and outliers. Therefore, outlier detection in LiDAR data is often useful prior to analysis. Applications in agriculture are particularly challenging, as there is typically no prior knowledge of the statistical distribution of points, description of plant complexity, and local point densities, which are crop dependent. This dissertation first explores the effectiveness of using LiDAR data to estimate LAI for row crop plants at multiple times during the growing season from both a wheeled vehicle and an Unmanned Aerial Vehicle (UAV). Linear and nonlinear regression models are investigated for prediction utilizing statistical and plant structure-based features extracted from the LiDAR point cloud data and ground reference obtained from an in-field plant canopy analyzer and leaf area derived from destructive sampling. LAI estimates obtained from support vector regression (SVR) models with a radial basis function (RBF) kernel developed using the wheel-based LiDAR system and UAVs are promising, based on the value of the coefficient of determination (R2) and root mean squared error (RMSE) of the residuals. </div><div>This dissertation also investigates approaches to minimize the impact of outliers on discrete return LiDAR acquired over crops, and specifically for sorghum and maize breeding experiments, by an unmanned aerial vehicle (UAV) and a wheel-based ground platform. Two methods are explored to detect and remove the outliers from the plant datasets. The first is based on surface fitting to noisy point cloud data based on normal and curvature estimation in a local neighborhood. The second utilizes the deep learning framework PointCleanNet. Both methods are applied to individual plants and field-based datasets. To evaluate the method, an F-score and LAI are calculated both before and after outlier removal for both scenarios. Results indicate that the deep learning method for outlier detection is more robust to changes in point densities, level of noise, and shapes. Also, the predicted LAI was improved for the wheel-based vehicle data based on the R2 value and RMSE of residuals. </div><div>The quality of the extracted features depends on the point density and laser penetration of the canopy. Extracting appropriate features is a critical step to have accurate prediction models. Deep learning frameworks are increasingly being used in remote sensing applications. In the last objective of this study, a feature extraction approach is investigated for encoding LiDAR data acquired by UAV platforms multiple times during the growing season over sorghum and maize plant breeding experiments. LAI estimates obtained with these inputs are used to develop support vector regression (SVR) models using plant canopy analyzer data as the ground reference. Results are compared to models based on estimates from physically-based features and evaluated in terms of the coefficient determination (R2). The effects of experimental conditions, including flying height, sensor characteristics, and crop type, are also investigated relative to the estimates of LAI.</div><div><br></div> Leaf Area Index LiDAR Remote sensing Machine learning Deep learning Outlier removal Autoencoder Mobile Mapping System UAV remote sensing Phenotyping
186	Growth Response of Mixed Native Grass Stands to Simulated Grazing In Mississippi: Forage Yield and Species Dynamics Temu, Vitalis Wilbald 06 August 2011 (has links) Some native warm-season forage grasses [indiangrass (IG, Sorghastrum nutans), big bluestem (BB, Andropogon gerardii) and little bluestem (LB, Schizachyrium scoparium)] are gaining popularity for improving summer forage production and wildlife habitat in the southeastern USA. Paucity of information about appropriate harvest management limits their restoration success. An experiment was conducted to assess effects of harvest intervals (30-, 40-, 60-, 90 or 120-d) and harvest duration on forage yield and quality, plant growth, sward structure and botanical composition of their mixed stands at Bryan Farms, Clay County, MS. Total season forage was greatest for 30-d and more from first (8472 kg ha-1) than second year plots (7627 kg ha-1). Yield was reduced by up to 43% in the second harvest year. Forage quality (crude protein content and in vitro digestibility) decreased with lengthening of harvest interval and across the harvest season. Tiller weight increased while specific leaf area and relative growth rate decreased with lengthening of harvest interval in first and second year plots. Harvesting reduced sward heights the following May, but treatment did not affect sward heights. Season mean sward heights were shorter for short harvest intervals. Light interception was greatest in the control and decreased with shortening of harvest intervals. Continuous harvesting controlled Solidago canadensis, increased herbaceous forbs, and LB, but decreased IG without substantial effect on BB. Rotational harvesting at 30- or 40-d intervals may improve forage production without compromising breeding cover during recovery. Studies on other management practices including fertilizer application and timing of harvest are needed. cover composition digestibility fiber crude protein growth rate Forage warm-season grass defoliation frequency harvest sward stand height. leaf area assimilation ground-nestig wildlife habitat recovery summer harvest little bluestem big bluestem indiangrass canopy
187	Simulating Evapotranspiration in the Lower Maumee River Watershed Using a Modified Version of the Boreal Ecosystem Productivity Simulator (BEPS) Model and Remote Sensing Senevirathne, Chathuranga K. 21 September 2021 (has links) No description available. Remote Sensing Ecology Hydrology Geology Evapotranspiration ET Modeling BEPS Ecosystem Productivity Simulator Satellite Remote Sensing Stomatal Conductance Based ET Models C3 and C4 Crops Lower Maumee River Watershed Land Cover Sensitivity Analysis LAI Leaf Area Index
188	What to plant and where to plant it; Modeling the biophysical effects of North America temperate forests on climate using the Community Earth System Model Ahlswede, Benjamin James 21 July 2015 (has links) Forests affect climate by absorbing CO₂ but also by altering albedo, latent heat flux, and sensible heat flux. In this study we used the Community Earth System Model to assess the biophysical effect of North American temperate forests on climate and how this effect changes with location, tree type, and forest management. We calculated the change in annual temperature and energy balance associated with afforestation with either needle leaf evergreen trees (NET) or broadleaf deciduous trees (BDT) and between forests with high and low leaf-area indices (LAI). Afforestation from crops to forests resulted in lower albedo and higher sensible heat flux but no consistent difference in latent heat flux. Forests were consistently warmer than crops at high latitudes and colder at lower latitudes. In North America, the temperature response from afforestation shifted from warming to cooling between 34° N and 40° N for ground temperature and between 21° N and 25° N for near surface air temperature. NET tended to have lower albedo, higher sensible heat flux and warmer temperatures than BDT. The effect of tree PFT was larger than the effect of afforestation in the south and in the mid-Atlantic. Increasing LAI, a proxy for increased management intensity, caused a cooling effect in both tree types, but NET responded more strongly and albedo decreased while albedo increased for BDT. Our results show that forests' location, tree type, and management intensity can have nearly equal biophysical effects on temperature. A forest will have maximum biophysical cooling effect if it is in the south, composed of broadleaf PFT, and is managed to maximize leaf area index. / Master of Science temperate forests climate biophysical albedo latent heat flux sensible heat flux forest management leaf area index (lai) community earth system model (cesm) needleleaf evergreen broadleaf deciduous ground temperature air temperature
189	Estimation cohérente de l'indice de surface foliaire en utilisant des données terrestres et aéroportées / Consistent forest leaf area index retrieval using ground and airborne data Hu, Ronghai 27 August 2018 (has links) L’indice de surface foliaire (Leaf Area Index, LAI), défini comme la moitié de la surface foliaire par unité de surface de sol, est un paramètre clé du cycle écologique de la Terre, et sa précision d'acquisition a toujours la nécessité et la possibilité d'amélioration. La technologie du scanner laser actif offre une possibilité d'obtention cohérente du LAI à plusieurs échelles, car le scanner laser terrestre et le scanner laser aéroporté fonctionnent sur le même mécanisme physique. Cependant, les informations tridimensionnelles du scanner laser ne sont pas complètement explorées dans les méthodes actuelles et les théories traditionnelles ont besoin d'adaptation. Dans cette thèse, le modèle de distribution de longueur de trajet est introduit pour corriger l'effet d’agrégation, et il est appliqué aux données du scanner laser terrestre et du scanner laser aéroporté. La méthode d'obtention de la distribution de longueur de trajet de différentes plates-formes est étudiée et le modèle de récupération cohérent est établi. Cette méthode permet d’améliorer la mesure du LAI des arbres individuels dans les zones urbaines et la cartographie LAI dans les forêts naturelles, et ses résultats sont cohérents à différentes échelles. Le modèle devrait faciliter la détermination cohérente de l'indice de surface foliaire des forêts à l'aide de données au sol et aéroportées. / Leaf Area Index (LAI), defined as one half of the total leaf area per unit ground surface area, is a key parameter of vegetation structure for modeling Earth's ecological cycle and its acquisition accuracy always has the need and opportunity for improvement. Active laser scanning provides an opportunity for consistent LAI retrieval at multiple scales because terrestrial laser scanning (TLS) and airborne laser scanning (ALS) have the similar physical mechanism. However, the three-dimensional information of laser scanning is not fully explored in current methods and the traditional theories require adaptation. In this thesis, the path length distribution model is proposed to model the clumping effect, and it is applied to the TLS and ALS data. The method of obtaining the path length distribution of different platforms is studied, and the consistent retrieval model is established. This method is found to improve the individual tree measurement in urban areas and LAI mapping in natural forest, and its results at consistent at different scales. The model is expected to facilitate the consistent retrieval of the forest leaf area index using ground and airborne data. Indice de surface foliaire Effet d’agrégation Scanner laser terrestre Scanner laser aéroporté Arbre individuel urbain Forêt naturelle Leaf area index Clumping effect Path length distribution model Terrestrial laser scanner Airborne laser scanning Urban individual tree Natural forest 551 621.367
190	Carbon assimilation, herbage accumulation, nutritive value, and grazing efficiency of Mulato II brachiariagrass under continuous stocking / Assimilação de carbono, acúmulo de forragem e eficiência de pastejo do Capim Mulato II sob lotação contínua Silva, Valdson José da 25 May 2016 (has links) Grazed pastures are the backbone of the Brazilian livestock industry and grasses of the genus Brachiaria (syn. Urochloa) are some of most used tropical forages in the country. Although the dependence on the forage resource is high, grazing management is often empirical and based on broad and non-specific guidelines. Mulato II brachiariagrass (Convert HD 364, Dow AgroSciences, São Paulo, Brazil) (B. brizantha × B. ruziziensis × B. decumbens), a new Brachiaria hybrid, was released as an option for a broad range of environmental conditions. There is no scientific information on specific management practices for Mulato II under continuous stocking in Brazil. The objectives of this research were to describe and explain variations in carbon assimilation, herbage accumulation (HA), plant-part accumulation, nutritive value, and grazing efficiency (GE) of Mulato II brachiariagrass as affected by canopy height and growth rate, the latter imposed by N fertilization rate, under continuous stocking. An experiment was carried out in Piracicaba, SP, Brazil, during two summer grazing seasons. The experimental design was a randomized complete block, with a 3 x 2 factorial arrangement, corresponding to three steady-state canopy heights (10, 25 and 40 cm) maintained by mimicked continuous stocking and two growth rates (imposed as 50 and 250 kg N ha-1 yr-1), with three replications. There were no height × N rate interactions for most of the responses studied. The HA of Mulato II increased linearly (8640 to 13400 kg DM ha-1 yr-1), the in vitro digestible organic matter (IVDOM) decreased linearly (652 to 586 g kg-1), and the GE decreased (65 to 44%) as canopy height increased. Thus, although GE and IVDOM were greatest at 10 cm height, HA was 36% less for the 10- than for the 40-cm height. The leaf carbon assimilation was greater for the shortest canopy (10 cm), but canopy assimilation was less than in taller canopies, likely a result of less leaf area index (LAI). The reductions in HA, plant-part accumulation, and LAI, were not associated with other signs of stand deterioration. Leaf was the main plant-part accumulated, at a rate that increased from 70 to 100 kg DM ha-1 d-1 as canopy height increased from 10 to 40 cm. Mulato II was less productive (7940 vs. 13380 kg ha-1 yr-1) and had lesser IVDOM (581 vs. 652 g kg-1) at the lower N rate. The increase in N rate affected plant growth, increasing carbon assimilation, LAI, rates of plant-part accumulation (leaf, stem, and dead), and HA. The results indicate that the increase in the rate of dead material accumulation due to more N applied is a result of overall increase in the accumulation rates of all plant-parts. Taller canopies (25 or 40 cm) are advantageous for herbage accumulation of Mulato II, but nutritive value and GE was greater for 25 cm, suggesting that maintaining &sim;25-cm canopy height is optimal for continuously stocked Mulato II. / As pastagens são o elemento central da pecuária brasileira, sendo as gramíneas do gênero Brachiaria (sin. Urochloa) as plantas forrageiras tropicais mais utilizadas. O capim Mulato II (Convert HD 364, Dow AgroSciences, São Paulo, Brazil) (B. brizantha × B. ruziziensis × B. decumbens) foi lançado como uma opção para diversas condições ambientais e de manejo. Entretanto não existem informações de práticas de manejo específicas para o capim Mulato II sob lotação contínua no Brasil. Os objetivos desse estudo foram descrever e explicar variações na assimilação de carbono, acúmulo de forragem (AF), acúmulo de componentes morfológicos no dossel, valor nutritivo e eficiência de pastejo (EP) do capim Mulato II em resposta a alturas do dossel mantidas constantes e taxas de crescimento impostas por doses de nitrogênio sob lotação contínua. Um experimento foi conduzido em Piracicaba- SP, durante dois verões agrostológicos, utilizando o delineamento experimental de blocos completos casualizados com arranjo fatorial 3 × 2, correspondendo a três alturas (10, 25 e 40 cm) e duas doses de N (50 e 250 kg N ha-1 ano-1), com três repetições. A maior parte das variáveis estudadas não foram afetadas pela interação altura × dose de N. O AF do capim Mulato II aumentou linearmente (de 8640 para 13400 kg MS ha-1 ano-1), a digestibilidade in vitro da matéria orgânica (DIVMO) reduziu linearmente (de 652 para 586 g kg-1), e a EP foi reduzida (efeito linear e quadrático) de 65 para 44% com o aumento da altura do dossel. Com isso, embora a EP e a DIVMO tenham sido maiores em dosséis mantidos a 10 cm, o AF foi reduzido em 36% em comparação com aquele a 40 cm. As taxas de assimilação de carbono de folhas foi maior nos dosséis mantidos a 10 cm, mas a assimilação do dossel foi maior nos dosséis mais altos devido ao maior índice de área foliar (IAF). A redução do AF, do acúmulo de componentes morfológicos e do IAF não foram associados com outros sinais de deterioração do dossel. Folha foi o principal componente morfológico acumulado e a taxa de acúmulo aumentou linearmente de 70 para 100 kg DM ha-1 dia-1 quando a altura de manejo aumentou de 10 para 40 cm. O capim Mulato II foi menos produtivo (7940 vs. 13380 kg ha-1 ano-1) e apresentou menor DIVMO (581 vs. 652 g kg-1) na menor dose de N. O aumento na dose de N afetou o crescimento da planta, resultando em aumentos na assimilação de carbono, IAF, acúmulo de componentes morfológicos e AF. Os resultados indicam que o aumento nas taxas de acúmulo de material morto devido a maior dose de N foi resultado do aumento nas taxas de acúmulo de todos os componentes morfológicos do dossel. A manutenção do dossel mais alto (25 ou 40 cm) pode ser vantajosa devido ao aumento no AF do capim Mulato II, embora o valor nutritivo e EP tenha sido maior a 25 cm, sugerindo que esse capim deve ser mantido na altura de &sim;25-cm quando manejado sob lotação contínua. Brachiaria hybrid Urochloa spp Urochloa spp Altura do dossel Canopy height CONVERT HD 364 CONVERT HD 364 Defoliation Doses de nitrogênio Fotossíntese Grazing intensity Grazing management Growth rates Híbrido de Brachiaria Índice de area foliar Intensidade de pastejo Leaf Leaf area index Manejo do pastejo Nitrogen rates Photosynthesis Taxas de crescimento

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