Drahtlose Sensornetze zur Erfassung des Blattflächenindex in der Präzisionslandwirtschaft

Bauer, Jan

17 July 2020

Die kontinuierliche Überwachung von Pflanzenparametern spielt eine wichtige Rolle in der Präzisionslandwirtschaft. Als in situ Monitoring-Systeme erscheinen drahtlose Sensornetzwerke (engl. Wireless Sensor Networks (WSNs)) geeignet, um den Zustand von Kulturpflanzen zu erfassen und diesen in stets aktuelle Parameterkarten zu transformieren. Derartige Karten können potenzielle wachstums- und ertragsmindernde Faktoren frühzeitig identifizieren und Entscheidungshilfen geben, die zu einer ortsdifferenzierten, zielgerichteten und nachhaltigen Bewirtschaftung landwirtschaftlicher Produktionsflächen beitragen. Die vorliegende kumulative Dissertation beschäftigt sich in diesem Zusammenhang mit der automatisierten und kosteneffizienten in situ Erfassung eines wichtigen Pflanzenparameters, dem sogenannten Blattflächenindex (engl. Leaf Area Index (LAI)). Mittels handelsüblicher WSN-Hardware wird zunächst ein kostengünstiger Sensor-Prototyp für eine passive, transmissionsbasierte LAI-Erfassung konzipiert und, begleitet durch Feldkampagnen, experimentell weiterentwickelt. Im Verlauf der Arbeit wird eine auf die spezielle Anwendung zugeschnittene Netzwerkarchitektur entworfen, die den Prototypen in ein ganzheitliches Langzeit-Monitoring-System überführt. Durch exemplarisch realisierte Deployments an zwei unterschiedlichen Standorten und den daraus erfassten empirischen Datensätzen wird das Potenzial drahtloser Sensornetzwerke für eine kontinuierliche und zeitlich hochauflösende LAI-Erfassung analysiert. Dabei werden effektive Methoden zur Prozessierung und Filterung von in situ Sensordaten entwickelt und untersucht, inwieweit diese die Qualität der abgeleiteten LAI-Schätzung verbessern. Ein Schwerpunkt der empirischen Potenzialanalyse liegt dabei auf der differenzierten Erfassung von sortenspezifischen und trockenstressbedingten Veränderungen. Weiterhin wird der Einfluss von Umwelt und Vegetation auf die Qualität drahtloser Verbindungen in landwirtschaftlichen WSN-Deployments betrachtet. Basierend auf dem empirischen Datensatz wird gezeigt, dass das Pflanzenwachstum die Qualität exemplarischer Verbindungen beeinträchtigt. Aus dieser Beobachtung wird ein Modell für ein signalstärkebasiertes Pflanzen-Monitoring abgeleitet und die generelle Machbarkeit dieses neuartigen Ansatzes untersucht.

Wireless Sensor Networks

Internet-of-Things

Leaf Area Index

Smart Farming

Precision Agriculture

54.89 - Angewandte Informatik: Sonstiges

H.4.3 - Communications Applications

ddc:500

Modelování intercepce sněhu ve smrkovém lese v povodí Ptačího potoka na Šumavě / Modelling of snow interception in the spruce forest in the Ptačí Brook basin, Šumava Mts.

Míka, Dominik

January 2021

Snow interception is one of the most important process of the hydrological balance of river basins. Measuring of snow interception is a very complex activity, therefore, models are frequently used to calculated snow interception from the vegetation structure and measured meteorological variables. A field research has been carried out in the Ptačí Brook basin in the Sumava Mts. to describe the canopy structure of the spruce forest using hemispherical images taken in the winter season 2020/21. The vegetation characteristics are essential for modelling of the snow interception. The mean Leaf area index calculated from the hemispherical images at the study plot reached 2.34 with the respective canopy closure equal to 86.16%. These values were further used as input values for the calculation of seasonal cumulative snow interception at the study plot for the winter season 2020/21. The original, more complex model was compared with two, less complex equations. Consequently, the model was applied to four consecutive winter seasons 2017-2021. The efficiency of the snow interception (a proportion of the intercepted snow to total snowfall water equivalent) ranged from 36.85% to 45.81% depending on the study season. The snow interception efficiency was considerably higher in the last winter season compared to...

Functional Ecology and Ecosystem Services of Urban Trees

Simovic, Milos

14 September 2020

No description available.

Ecology

Environmental Science

Botany

Statistics

Urban Forestry

functional traits

urban ecology

ecosystem services

urban forests

carbon sequestration

leaf area index

ontogeny

phenology

ESTIMATION OF LEAF AREA INDEX (LAI) IN MAIZE PLANTING EXPERIMENTS USING LIDAR AND HYPERSPECTRAL DATA ACQUIRED FROM A UAV PLATFORM

Purnima Jayaraj (12185213)

26 April 2023

<p> </p> <p>Leaf Area Index (LAI) is commonly defined as the total area of a leaf per unit area of the ground. LAI is an important variable for characterizing plant canopy related to the interception of solar radiation. Direct measurement of LAI by destructive sampling is tedious, time-consuming, and labor-intensive. With the advance of remote sensing, studies have explored multispectral and hyperspectral remote sensing image data and LiDAR point clouds as individual sources to estimate LAI indirectly. This study investigates the estimation of LAI for maize row crops over the growing season based on features derived from high resolution LiDAR and hyperspectral data acquired simultaneously from a UAV platform. Support Vector Regression (SVR) models are developed using cross validation and evaluated relative to the contribution of the multi-modality remote sensing data. The study is based on data acquired for experiments in plant breeding and evaluation of nitrogen management practice trials conducted at the Agronomy Center for Research and Education (ACRE) in 2021 and 2022, respectively. Reference data for the models were collected using a LI-COR® LAI-2200-C Plant Canopy Analyzer. Including both LiDAR and hyperspectral data sources in the SVR model improved the 𝑅_ref^2 (relative to 1:1 comparison line), RMSE and Relative RMSE (rRMSE) values for both the plant breeding and nitrogen management practice experiments, although incremental gains were small overall. More importantly, it was observed that the contributions of the LiDAR vs hyperspectral inputs to the models also varied throughout the growing season. </p>

Photogrammetry and remote sensing

Leaf area index (LAI)

LiDAR

Remote Sensing

Machine Learning

UAV remote sensing

Hyperspectral

Remote sensing of leaf area index in Savannah grass using inversion of radiative transfer model on Landsat 8 imagery: case study Mpumalanga, South Africa

Masemola, Cecilia Ramakgahlele

03 1900

Savannahs regulate an agro-ecosystem crucial for the production of domestic livestock, one of the main sources of income worldwide as well as in South African rural communities. Nevertheless, globally these ecosystem functions are threatened by intense human exploitation, inappropriate land use and environmental changes. Leaf area index (LAI) defined as one half the total green leaf area per unit ground surface area, is an inventory of the plant green leaves that defines the actual size of the interface between the vegetation and the atmosphere. Thus, LAI spatial data could serve as an indicator of rangeland productivity. Consequently, the accurate and rapid estimation of LAI is a key requirement for farmers and policy makers to devise sustainable management strategies for rangeland resources. In this study, the main focus was to assess the utility and the accuracy of the PROSAILH radiative transfer model (RTM) to estimate LAI in the South African rangeland on the recently launched Landsat 8 sensor data. The Landsat 8 sensor has been a promising sensor for estimating grassland LAI as compared to its predecessors Landsat 5 to 7 sensors because of its increased radiometric resolution. For this purpose, two PROSAIL inversion methods and semi- empirical methods such as Normalized difference vegetation index (NDVI) were utilized to estimate LAI. The results showed that physically based approaches surpassed empirical approach with highest accuracy yielded by artificial neural network (ANN) inversion approach (RMSE=0.138), in contrast to the Look-Up Table (LUT) approach (RMSE=0.265). In conclusion, the results of this study proved that PROSAIL RTM approach on Landsat 8 data could be utilized to accurately estimate LAI at regional scale which could aid in rapid assessment and monitoring of the rangeland resources. / Environmental Sciences / M. Sc. (Environmental Science)

Leaf area index (LAI)

Radiative transfer models

PROSAIL

LUT

ANN

Vegetation Indices

Empirical methods

Landsat 8 imagery

577.40968271

Landsat satellites

Radiative transitions

Growth and development of 'Pasja' and kale crops with two methods and four rates of phosphorus (P) application

Chakwizira, Emmanuel

January 2008

*‘Pasja’ (Brassica campestris x napus) and kale (Brassica oleracea var. acephala L.) were grown at Lincoln, Canterbury, New Zealand in 2008 with different levels of phosphorus (P) fertiliser. Banded or broadcast P fertiliser was applied at 0, 20, 40 and 60 kg P/ha at establishment. Total dry matter (DM) production, the proportion of the leaf and stem and leaf area development were measured over time and related to the biophysical environment. For ‘Pasja’, final DM increased with P rate from 3730 kg DM/ha to ~4900 kg DM/ha at 60 kg P/ha. For kale the increase was from 8710 kg DM/ha for the control to ~11000 kg DM/ha for all P treatments. The leaf to stem ratio declined from 22-31 at 17 days after emergence to 10.4 at the final harvest for ‘Pasja’, which meant the crop was effectively made up mainly of leaf (~90%). The ratio for kale declined from 2.7 at 24 days after emergence to 0.64 at the final harvest. The leaf to stem ratio for both species did not respond to either the method of application or rate of P. Seedling DM accumulation increased with applied P over the first 10 to 17 DAE for ‘Pasja’ and kale respectively. The crops went from shoot growth priority to root growth. The phyllochron of both species was unaffected by P application but responded linearly to the temperature above 0°C. For ‘Pasja’ the phyllochron was 60°Cd compared with 109°Cd for kale. As a consequence ‘Pasja’ developed its canopy and reached critical leaf area index (LAIcrit) earlier than kale. Leaf area index (LAI) for the control crops of both species was lower than for P fertiliser treatments with a maximum of 3.6 for ‘Pasja’ and 3.8 for kale. There was no difference in leaf area indices among the P fertiliser treatments for ‘Pasja’, while kale LAI differed with the rate of P application up to 40 kg P/ha. Total accumulated intercepted solar radiation (RIcum) was 8 and 11% greater for ‘Pasja’ and kale crops respectively when P was applied compared with the control. Thus, the difference in total dry matter yield due to P application was attributed to the difference in RIcum. Neither the method of application or rate of P applied affected the radiation use efficiency (RUE) of either crop. For ‘Pasja’ the RUE was 1.1 g DM/MJ PAR and for kale 1.33 g DM/MJ PAR. Based on this research, it was concluded that P application increased RIcum as a result of increased LAI. The difference in total DM yield was attributed to differences in RIcum. It is recommended that farmers growing ‘Pasja’ and kale under similar conditions to this experiment should apply 40 kg P/ha for ‘Pasja’ and band 20 kg P/ha for kale. *‘Pasja’ is considered both as a species and cultivar in this document as it marketed as such in New Zealand. Technically ‘Pasja’ is a leaf turnip.

Brassica campestris L.

Brassica oleracea acephala L.

critical leaf area index

DM accumulation

extinction coefficient

leaf area index

leaf to stem ratio

method of application

phyllochron

radiation use efficiency

solar radiation

Remote sensing of leaf area index in Savannah grass using inversion of radiative transfer model on Landsat 8 imagery : case study Mpumalanga, South Africa

Masemola, Cecilia Ramakgahlele

03 1900

Savannahs regulate an agro-ecosystem crucial for the production of domestic livestock, one of the main sources of income worldwide as well as in South African rural communities. Nevertheless, globally these ecosystem functions are threatened by intense human exploitation, inappropriate land use and environmental changes. Leaf area index (LAI) defined as one half the total green leaf area per unit ground surface area, is an inventory of the plant green leaves that defines the actual size of the interface between the vegetation and the atmosphere. Thus, LAI spatial data could serve as an indicator of rangeland productivity. Consequently, the accurate and rapid estimation of LAI is a key requirement for farmers and policy makers to devise sustainable management strategies for rangeland resources. In this study, the main focus was to assess the utility and the accuracy of the PROSAILH radiative transfer model (RTM) to estimate LAI in the South African rangeland on the recently launched Landsat 8 sensor data. The Landsat 8 sensor has been a promising sensor for estimating grassland LAI as compared to its predecessors Landsat 5 to 7 sensors because of its increased radiometric resolution. For this purpose, two PROSAIL inversion methods and semi- empirical methods such as Normalized difference vegetation index (NDVI) were utilized to estimate LAI. The results showed that physically based approaches surpassed empirical approach with highest accuracy yielded by artificial neural network (ANN) inversion approach (RMSE=0.138), in contrast to the Look-Up Table (LUT) approach (RMSE=0.265). In conclusion, the results of this study proved that PROSAIL RTM approach on Landsat 8 data could be utilized to accurately estimate LAI at regional scale which could aid in rapid assessment and monitoring of the rangeland resources. / Environmental Sciences / M. Sc. (Environmental Science)

Leaf area index (LAI)

Radiative transfer models

PROSAIL

LUT

ANN

Vegetation indices

Empirical methods

Landsat 8 imagery

577.4096827

Landsat satellites

Radiative transitions

Human impact, plant communities, diversity and regeneration in Budongo Forest Reserve, Northwestern Uganda

Mwavu, Edward Nector

21 May 2008

Budongo Forest Reserve (BFR) is a flagship reserve for primate conservation due to its abundant chimpanzee (Pan troglodytes) population, and its current management policy for multiple economic, conservation and environmental benefits. The identification and better understanding of the structure and dynamics of the forest/plant community types, patterns of species distribution and quantitative properties of their diversity is important to the conservation and sustainable management of tropical rainforests. This study seeks to contribute to a better understanding of the BFR forest community types, species diversity patterns and environmental correlates, as well as natural regeneration processes (i.e. seedling establishment and sprouting). Data on vegetation and environmental variables were collected using rectangular 50 x 100m (0.5 ha) plots, sub-divided into five equal contiguous (20 x 50 m) 0.1 ha sub-plots. Data on land-use/cover changes, and relevant associated socio-economic parameters were collected through the analysis of multi-temporal satellite imagery and field observations, as well as interviews of local households and key informants. The study revealed significant land-use/cover changes, with the area under sugarcane cultivation increasing over 17-fold, from 690 ha in 1988 to 12729 ha in 2002, with a concomitant loss of about 4680 ha (8.2% loss) of forest/woodland, mainly in the southern part of BFR. These changes are attributed to agricultural expansion, a rapidly increasing human population, exacerbated by large influxes of refugees, lack of alternative sources of income, conflicts of interest and political interference in the management of BFR, and an unclear land tenure system. The need for more land for agricultural expansion and the loss of woodlands (a source of building materials and fuelwood for the local communities) is leading to the invasion of and encroachment on BFR, which threatens plant and wild animal conservation. The study revealed that the vegetation of BFR is formed by a mosaic of plant communities, with the major forest types being; Pseudospondias microcarpa Swamp Forest, Funtumia elastica - Pouteria altissima, Lasiodiscus mildbraedi - Khaya anthotheca and Cynometra alexandri - Rinorea ilicifolia forest communities. Canonical correspondence analysis (CCA) indicated that soil nutrients (Si, Ca, N, Fe and Li) and anthropogenic disturbances are the main factors controlling forest community patterns. The variances explained as a proportion of total inertia were relatively high (0.53 and 0.56 for basal area and abundance, respectively), showing how well the measured variables explained species composition. These plant communities differed significantly in terms of woody species diversity and richness; being highest in the Pseudospondias microcarpa swamp and lowest in the Cynometra alexandri-Rinorea ilicifolia forest. However, about 48 species were shared between the forest community types. A total of 269 species representing 171 genera and 51 families was recorded. Fisher’s alpha-diversity ranged 4.45-30.59 and 3.07-29.7 for stem diameters ≥2.0 cm and ≥10 cm, respectively, being significantly higher for stem diameters ≥2.0 cm. The use of stem diameters ≥2.0 cm unveiled 53 more species (19.7%), with only 216 species recorded for the standard ≥10 cm dbh minimum size usually applied in tropical forests. A SHE analysis also showed greater richness (ln(S)) and H diversity for the >2.0 cm than the ≥10cm stem diameters. Hence, the study reaffirmed that the use of 10 cm as a minimum dbh in woody plant diversity studies in forests, where many tree species rarely exceed 10 cm stem diameter, is highly likely to underestimate diversity and richness, potentially biasing the understanding of diversity patterns. The most speciose families were Euphorbiaceae, Fabaceae, Rubiaceae, Moraceae, Meliaceae, Rutaceae, Annonaceae, and Flacourtiaceae, accounting for 147 species. Families with the highest Familial Importance values (FIV) were; Fabaceae (17.5), followed by Euphorbiaceae (16.3), and Ulmaceae (8.35). The BFR exhibits characteristics intermediate between log-normal and log-series species-abundance distributions, indicating a community with a small number of abundant species and a relatively large proportion of rare species. Both Whittaker’s (βw) and the Morisita-Horn Index measures of β-diversity consistently showed higher β-diversity for logged and arboricide treated areas, followed by logged only, and then nature reserve historical management practice types. β-diversity was relatively high at the total forest community scale, but lower for stem diameter ≥2.0 cm than ≥10.0 cm data. Environmental variables significantly explained 66.5% and 61.9% of the variance in species composition for stem diameter ≥2.0 cm and ≥10.0 cm data, respectively. Hence, the variation in species composition of BFR is characterised by significant spatial patterns, and the patterns in β-diversity are to a great extent associated with environmental heterogeneity (i.e. soil nutrients, topographic and light gradients) and anthropogenic disturbances. Investigation of natural regeneration showed that sprouting is generally common among the woody species, with both canopy and sub-canopy trees sprouting prolifically. Of the 122 species affected by ii harvesting, and tree and branch fall disturbances, 199 (97.5%) from 31 families sprouted from the cut stumps, with only Caloncoba crepiniana (De Wild. & Th.Dur.) Gilg exhibiting both stem and root sprouting. Stump basal diameter, height, bark-thickness, and height of stump above the ground at which the first sprout emerged, were significant predictors of sprouting ability among individuals. Number of sprouts/stump differed significantly among families, species, and stump size-classes. Of the 241 seedling species, representing 46 families, about 30.3% were rare (only 2-10 individuals); while 12% were very rare (only 1 individual each). Cynometra alexandri C.H. Wright and Lasiodiscus mildbraedii Engl. were the most abundant seedlings and also among the most widely distributed species in the forest. Analysis of similarity (ANOSIM) revealed significant differences in seedling composition between transects, but not between topographic positions or historical management practice types. Canonical Correspondence Analysis (CCA) showed that the measured environmental variables significantly explained 59.4% of the variance in seedling species distributions, with the three most important variables being organic matter, titanium and leaf area index (LAI; an indicator of light availability below the canopy). Hence, the important mechanisms influencing regeneration via seedlings in BFR operate through the soil system, and the ground and canopy vegetation characteristics. Nine of the 15 intensively studied multiple-use species, namely L. mildbraedii, Celtis Mildbraedii Engl., Pouteria altissima (A. Chiev.) Aubrev. & Pellegr., Chrysophyllum albidum G. Don., C. alexandri, Diospyros abyssinica (Hiern) F. White, Funtumia elastica (Preuss) Stapf., Chrysophyllum perpulchrum Hutch. & Dalz, and Antiaris toxicaria (Pers.) Lesch. had highly negative size-class distribution (SCD) slopes and substantial seedling regeneration. While Alstonia boonei De Wild. and Cordia millenii Bak. had weakly negative SCD slopes and pulsed or sporadic regeneration patterns. The wide distribution of seedlings for a variety of species, and with most of the intensively studied species having population structures showing healthy regeneration patterns, suggests that BFR is currently experiencing a continuous regeneration phase. In conclusion, the gradients in the vegetation of BFR are a reflection not only of site conditions as shown by the edaphic and abiotic factors, but also the history of human interventions.

alpha diversity

ANOSIM

beta-diversity

Canonical Correspondence Analysis

cluster analysis

human impact

land-use/cover change

leaf area index (LAI)

logging

plant communities

tropical semi-deciduous forest

seedling regeneration

SIMPER

size-class distributions (SCDs)

sprouting

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

Holschuch, Solange Garcia

07 February 2018

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 &mu;mol 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 &mu;mol 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 &mu;mol 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 &mu;mol CO2 m-2 s-1), what lead to the greatest FAR and FA among the investigated stocking methods.

Urochloa spp

Urochloa spp.

Assimilação de carbono

Brachiaria hybrid

Canopy height

Canopy light interception

Defoliation severity

Leaf area index

Lotação contínua

Lotação intermitente

Mulato II

Mulato II brachiariagrass

Post-grazing

Pre-grazing

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.

Molan, Leonardo Kehdi

25 June 2004

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.

beef cattle

bovinos de corte

braquiaria grass

capim braquiária

capim marandu

dossel (botânica)

efeito da luz

forragem

grazing

herbage

índice de área foliar

leaf area index

light effect

marandu grass

pastagem

pastejo

pasture

sward/canopy