Long-term monitoring program for forest herbs at Mammoth Cave National Park

Jones, Bobette Elaine

January 1997

A monitoring program of forest herbs was initiated at Mammoth Cave National Park (MCNP). The objectives of this project were to produce a quantitative description of the current forest herb communities which can be used as a baseline for monitoring future change as well as a foundation for making informed management decisions. Herbaceous vegetation in previously established permanent forest monitoring plots was characterized during the summers of 1993-94. In the future, these baseline data can be used to detect changes in forest herb communities that might result from natural succession, management decisions and/or environmental changes. The landuse history for these plots was evaluated as a factor affecting the present diversity, richness and cover of the forest herbs at Mammoth Cave National Park. Prior to the establishment of MCNP, landuse consisted of a mosaic of agriculture, logging, and grazing. The park provides unique natural experiment to study the recovery of vegetation following a variety of human influenced disturbances.Thirty-two permanent plots were used to collect species presence and cover in early spring and mid-summer. Five forest herb communities were classified for spring and summer. All plots for the spring and summer community classification were the same except for two. Environmental variables, overstory vegetation, and previous landuse are identified as variables that have significant associations with herbaceous composition. Herbaceous cover, richness, and diversity were higher in areas that were forested before park establishment. The results of this study support the contention that human induced disturbances have more detrimental effect on forest herbs compared to overstory tree species. / Department of Biology

Phenology, reproductive potential, seed dispersal and predation, and seedling establishment of three invasive plant species in a Hawaiian rain forest

Medeiros, Arthur C

January 2004

Thesis (Ph. D.)--University of Hawaii at Manoa, 2004. / Includes bibliographical references (leaves 205-240). / Also available by subscription via World Wide Web / xv, 240 leaves ill., maps 29 cm

Invasive plants -- Hawaii -- Maui

Weeds -- Hawaii -- Maui

Rain forest plants -- Hawaii -- Maui

Clidemia hirta -- Hawaii -- Maui

Hedychium gardnerianum -- Hawaii -- Maui

Psidium cattleianum -- Hawaii -- Maui

The ecological value of hedgerows for conserving temperate forest herbs in agricultural landscapes /

Roy, Valérie, 1981-

January 2006

No description available.

Biodiversity and sustainability in the Bulungan Research Forest, East Kalimantan, Indonesia : the response of plant species to logging

Samsoedin, Ismayadi

January 2007

This study reports forest structure, regeneration and the soil properties from unlogged and logged forest in the Bulungan Research Forest, Malinau District, East Kalimantan, Indonesia. Four sites were compared by using four 1-ha replicate plots in each of primary forest (PF), 5, 10 and 30-yr old logged forest (LF-5, LF-10, LF- 30). The tree species composition differ among forest types, as it was shown that the mean value of similarity indices for all pairs were 0.215 (for the Jaccard index) and 0.353 (for the Sorensen index). The low values for similarities among forest types were most probably caused by low numbers of species shared between each forest type. Both correlation values, r = 0.023 for Jaccard index and r = 0.031 for Sorensen index, showed no strong correlation between the similarity index (C) and the distance between forest types. This supports the use of a chronosequence approach. A total of 914 tree species with ³ 10 cm dbh were recorded from 223 genera and 65 families. There were no significant differences in mean species numbers (166 – 180/ha) among treatments. Mean density of species was lower in LF-5 and LF-10 (501/ha) than in PF or LF-30 (605/ha and 577/ha); similarly to mean basal area (LF-5, 28.5 m2/ha; LF-10, 32.6 m2/ha) vs. PF (45.8 m2/ha) and LF-30 (46.9 m2/ha). Dead wood on the forest floor was significantly higher in LF-10 (75 m3/ha) than in the other treatments. Seedlings (< 2 cm dbh) of 1,022 species were recorded from 408 genera and 111 families. The mean number of tree seedling species ranged between 170-206; the mean density of seedlings was about two-fold lower in LF-10 (2790/ha) than in the other treatments. Saplings (>2 – 9.9 cm dbh) of 802 species belonged to 241 genera and 65 families. There was a high variability in species richness across treatments (89 – 191/ha), but not in stem numbers. The Dipterocarpaceae family was dominant in all treatments, followed by the Euphorbiaceae. The soils were acidic, low in nutrients and had low to very low fertility. Both primary and logged forest areas are marginal or not suitable for sustained production of plantation crops. Logging caused soil compaction in LF-30. Although in terms of number of species and trees, amount of BA, number of saplings and seedlings LF-30 appeared to have satisfied prescriptions for a second harvest, ecologically the forest is far from mature. The Indonesian Selective Cutting and Replanting (TPTI) system may need to be revised to a 35 – 45 year cycle to ensure long-term forest productivity in terms of not only timber but other goods and ecosystem services, the value of which are never quantified in monetary terms, but can be higher than the timber revenue.

634.9

Semeadura direta e plantio de mudas para recuperação de nascentes no rio Piauitinga-SE / Direct sowing and planting seedlings to nascent recovery in the river Piauitinga-SE

Oliveira, Andreza dos Santos

27 July 2013

Due to the intense suppression of native vegetation in nascent areas of the State of Sergipe, one can notice a significant environmental degradation. Thus, it becomes necessary the adoption of practices aimed at the restoration of the vegetation and these can be carried through artificial regeneration with direct seeding or planting seedlings. Therefore, the study was carried to evaluate the development of native species in the Piauitinga watershed in Salgado-SE, with the artificial regeneration methods (direct sowing and planting seedlings), using the native forest species Anadenanthera macrocarpa (Benth.) Bren, Ceiba speciosa (A. St. Hill), Hymenaea stigonocarpa (Mart.) Hayne, Psidium guajava L. and Tabebuia aurea (Manso) Benth. & Hook. Initially, were held the physical and physiological quality of the seeds analysis in laboratory and subsequently a field experiment was established in a randomized block delimitation (RBD) in a factorial design with four replications, in an area previously occupied by pasture, located in Salgado-SE. The sowing was carried in holes (30x30x30cm), with spacing of 1,5 m x 1,5 m with 9 plants for species in every block and the planting of seedlings occurred similarly, totaling 90 plants per block, occupying an area of 0,1024 hectares. Were evaluated the percentage of emergence and seedling survival in the field, the initial development of seedlings and Relative Growth Rate (RGR) until 300 days after implantation. The species that showed better rates of emergence and survival was H. stigonocarpa with 74,44% and 48,89% respectively. Any plant of A. macrocarpa survived. In the of characteristics evaluation of growth in the field in relation to tillage, there was greater growth in height for P. guajava (25,84 cm) and diameter, T. aurea (6,51 mm). In planting seedlings, the more growth on the height was in the C. speciosa (93,26 cm) and the specie T. aurea presented greater increment in diameter (20,92 mm). There was statistical difference in the RGR of plants for planting two strategies. The species T. aurea, C. speciosa and H. stigonocarpa characteristics presented viable for use by direct seeding and planting seedlings in the recuperation of degraded areas of nascent. The strategy of planting that had higher averages for the parameters evaluated was the planting of seedlings in recuperation of the area studied. / Devido à intensa supressão da vegetação nativa em áreas de nascentes do Estado de Sergipe, pode-se notar um significativo quadro de degradação ambiental. Dessa forma, torna-se necessária a adoção de práticas que visem à recomposição da vegetação e estas podem ser realizadas através da regeneração artificial, com a semeadura direta ou plantio de mudas. Diante o exposto, o trabalho foi realizado com o objetivo de avaliar o desenvolvimento de espécies florestais nativas em área de nascente na bacia hidrográfica do rio Piauitinga, no município de Salgado-SE, com relação aos métodos de regeneração artificial (semeadura direta e plantio de mudas), utilizando-se as espécies florestais nativas Anadenanthera macrocarpa (Benth.) Bren, Ceiba speciosa (A. St. Hill), Hymenaea stigonocarpa (Mart.) Hayne, Psidium guajava L. e Tabebuia aurea (Manso) Benth. & Hook. Análises da morfometria, determinação da umidade e qualidade fisiológica das sementes foram previamente realizadas em laboratório. O experimento em campo foi implantado em Delineamento em Blocos Casualizados (DBC), em esquema fatorial com quatro repetições, em uma área anteriormente ocupada por pastagem, localizada no município de Salgado-SE. A semeadura direta e o plantio de mudas foram realizados em covas (30x30x30cm), com espaçamento de 1,5m x 1,5m, contendo 9 plantas por espécie em cada bloco, totalizando 90 plantas por bloco, ocupando uma extensão de 0,1024 hectares. Foram avaliadas as porcentagens de emergência e sobrevivência das plântulas em campo, desenvolvimento inicial das mudas e Taxa de Crescimento Relativo (TCR) até os 300 dias após a implantação. A espécie que apresentou melhores índices de emergência e sobrevivência foi H. stigonocarpa com 74,44% e 48,89%, respectivamente. Na semeadura direta, nenhuma planta de A. macrocarpa sobreviveu. Na avaliação das características de crescimento em campo em relação à semeadura direta, observou-se maior crescimento em altura para P. guajava (25,84cm) e para diâmetro, T. aurea (6,51mm). No plantio de mudas, o maior crescimento em altura foi na C. speciosa (93,26cm) e a espécie T. aurea apresentou maior incremento em diâmetro (20,92mm). Houve diferença estatística na TCR das plantas, para as duas estratégias de plantio. As espécies T. aurea, C. speciosa e H. stigonocarpa apresentaram características viáveis para serem utilizadas por meio da semeadura direta e plantio de mudas em projetos de recuperação em áreas de nascentes degradadas. A estratégia de plantio que apresentou maiores médias em relação aos parâmetros avaliados foi o plantio de mudas, na recuperação da área estudada.

Plantio de florestas

Reflorestamento

Plantas florestais

Rios - Recuperação

Estratégias de plantio

Desenvolvimento em campo

Espécies florestais

Afforestation

Forest plants

Reforestation

Stream restoration

Planting strategies

Field on development

Forest species

CNPQ::CIENCIAS AGRARIAS::AGRONOMIA

Comportamento ecofisiologico de clones de Eucalyptus / Ecophysiological behavior of Eucalyptus clones

Tonello, Kelly Cristina

15 August 2018

Orientador: Jose Teixeira Filho / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Agrícola / Made available in DSpace on 2018-08-15T15:44:54Z (GMT). No. of bitstreams: 1 Tonello_KellyCristina_D.pdf: 3209931 bytes, checksum: ad807b85c48d80b43bb9c5e89fb27160 (MD5) Previous issue date: 2010 / Resumo: O crescimento e o desenvolvimento dos vegetais é conseqüência de vários processos fisiológicos controlados pelas condições ambientais e características genéticas de cada espécie vegetal. Este estudo teve por objetivo caracterizar o comportamento ecofisiológico da transpiração (E) e condutância estomática (Gs) de dois clones de Eucalyptus grandis x Eucalyptus urophylla (C041 e P4295) sob diferentes condições de disponibilidade hídrica no solo e em função de variáveis ambientais como radiação global (Rg), radiação fotossinteticamente ativa (Qleaf) e déficit de pressão de vapor da atmosfera (DPV). As aferições foram realizadas ao longo do período de fevereiro de 2007 a agosto de 2008 em três escalas de estudo designadas como vaso, parcela e bacia hidrográfica. Medidas de potencial hídrico antemanhã (?pd) foram realizadas para o acompanhamento das disponibilidades hídricas no solo. Após o conhecimento do comportamento ecofisiológico dos clones em função das variáveis ambientais e ?pd, buscou-se relacionar as respostas obtidas na escala vaso com as escalas parcela e bacia hidrográfica por meio de modelos ecofisiológicos desenvolvidos para a mudança de escala ao nível de folha. De acordo com os resultados, as variáveis ecofisiológicas estiveram diretamente associadas às variáveis ambientais e ao ?pd tanto para o clone C041 quanto para o clone P4295. Foram observados entre os clones comportamentos ecofisiológicos distintos quando associados à Qleaf, DPV e ?pd. Os clones apresentaram-se diferentes na amplitude de resposta de E e Gs em função de Qleaf e DPV entre as escalas, porém, observou-se a mesma tendência de comportamento, com exceção da relação Gs x DPV para o clone C041, entre escala vaso e parcela/bacia hidrográfica. Os modelos propostos para a mudança de escala de folha para folha mostraram-se satisfatórios, principalmente nas relações envolvendo a radiação fotossinteticamente ativa. Contudo, não apresentaram bons resultados para a extrapolação das respostas ecofisiológicas de Gs em função do DPV / Abstract: The growth and development of plants is a consequence of several physiological processes controlled by environmental conditions and genetic characteristics of each plant species. This study aimed to characterize the ecophysiological behavior of transpiration (E) and stomatal conductance (Gs) of two clones of Eucalyptus grandis x urophylla (C041 and P4295) under different soil water conditions and according to environmental variables such as global radiation (Rg), photosynthetic active radiation (Qleaf) and a vapor pressure deficit of the atmosphere (VPD). The measurements were performed during the period February 2007 to August 2008 on three scales of study designated as a pot, plot and watershed. Predawn leaf water potential (?pd) measurements were performed to monitor water availability in the soil. After the knowledge of the ecophysiological behavior of the clones on the basis of environmental variables and ?pd, sought to link the responses obtained in the pots scale with pot and watershed through ecophysiological models developed for scaling up leaf from leaf. According to the results, the ecophysiological behavior were directly associated with environmental variables and the ?pd both to the C041 as for P4295. Were observed among different clones ecophysiological behavior when associated with Qleaf, VPD and ?pd. The clones were different in amplitude of E and Gs as function of Qleaf and VPD between the scales, however, showed the same pattern of behavior, except for Gs x VPD for clone C041 between pot and plot / watershed scale. The proposed models for the scaling up from leaf to leaf were satisfactory, especially in relationships involving the Qleaf. However, they not provided good results for the extrapolation of ecophysiological responses of Gs as a function of VPD / Doutorado / Agua e Solo / Doutor em Engenharia Agrícola

Plantas - Transpiração

Ecofisiologia vegetal

Eucalipto - Cultivo - Brasil

Plantas - Relações hidricas

Plants - Transpiration

Plant physiological ecology

Eucalyptus - Cultivation - Brazil

Plants - Water relations

Apports des modèles de métapopulation hors équilibre : application à l'évaluation de la dynamique des plantes forestières / Contributions of non-equilibrium metapopulation models : application to the assessment of forest plant dynamics

Lalechère, Etienne

08 December 2017

Les modèles de métapopulations permettent de prédire l'occupation des habitats au sein desquels elles évoluent en fonction de la configuration spatiale du paysage. La destruction et la création d'habitats peuvent induire une dette d'extinction ou un crédit d'immigration, c'est-à-dire des dynamiques d'espèces qui ne sont pas immédiates mais décalées dans le temps par rapport cette rotation des habitats. La présence d'un délai temporel signifie que les espèces ne sont pas à l'équilibre avec les paysages actuels. Cette thèse a pour objectif d'évaluer l'apport de modèles de métapopulations hors équilibre pour comprendre ces dynamiques décalées dans le temps de façon théorique et à partir de données empiriques sur les plantes forestières. A ces fins, nous avons évalué la robustesse d'une méthode d'inférence de paramètres de dynamique de métapopulations hors équilibre, adaptée à l'échelle régionale. Elle a ensuite été appliquée sur des données contemporaines de plantes forestières et de séries temporelles de cartographies des forêts dans les départements de la Seine-et-Marne et de l'Eure-et-Loir. A partir des modèles utilisés, nous avons pu reproduire certaines caractéristiques de la répartition des espèces qui sont dues à l'évolution historique des surfaces forestières. En effet, certaines espèces sont plus fréquentes en forêt anciennes et d'autres en forêt récentes, ce qui s'explique en partie par les traits des espèces et leurs affinités pour des conditions environnementales spécifiques. A partir de projections à long-terme de leurs dynamiques, nous avons montré que les délais de réponse de ces espèces peuvent être de plusieurs siècles et dépendent fortement de la connectivité fonctionnelle des habitats. Des scénarios virtuels de rotation des habitats ont été simulés pour pallier l'analyse des seules zones d'études. Associé à des projections de dynamiques de métapopulations, qui permettent de contrôler les paramètres à étudier, nous avons testé l'importance relative de la distance de dispersion des espèces et de la configuration spatiale de la rotation des habitats sur ces dynamiques. Le temps de retour à l'équilibre des métapopulations ne s'explique pas uniquement par l'amplitude de la dette d'extinction ou du crédit d'immigration mais dépend aussi de ces deux facteurs. Ces résultats mettent en évidence l'importance d'approfondir nos connaissances sur les effets de perturbations successives qui rendent le retour théorique à l'équilibre des espèces très incertain. / Metapopulation models are used to predict the occupancy of habitats from landscape spatial configuration. Habitat destruction and creation can lead to an extinction debt or an immigration credit that are time-delayed species dynamics following habitat turnover. Such delays mean that species are not in equilibrium with the current landscape structures. The aim of this thesis is to evaluate the contribution of non-equilibrium metapopulation models to understand time-delayed dynamics theoretically and from empirical datasets about forest plants. For this purpose, we assessed the robustness of the method used to infer metapopulation parameters at the regional scale. Then, we applied this method from contemporary plant inventories and time-series of forest maps of the Seine-et-Marne and the Eure-et-Loir french regions. Models satisfactorily reproduced some characteristics of forest plant spatial structure that are due to historical changes in forest areas. Indeed, some species are more frequent in ancient forests and some others are more frequent in recent forests notably due to species traits and their affinity for specific environmental characteristics. From long-term projections of species dynamics, we showed that the delays in forest plant dynamics are several centuries following habitat turnover and strongly depend on habitat functional connectivity. Virtual scenarios of habitat turnover were simulated to assess other study cases than the two study areas. We projected metapopulation dynamics, while controlling for some metapopulation parameters, to test the relative effects of species dispersal distance and the spatial configuration of habitat turnover on these dynamics. Metapopulation return time towards equilibrium not only depends on the magnitude of the extinction debt or on the magnitude of the immigration credit but also on these two variables.These results put forward the need to improve our knowledge on the effects of successive perturbations that make species return towards equilibrium unsure.

Changements à long-terme

Dynamiques de paysage

Dette d'extinction

Crédit d'immigration

Métapopulation

Modèles stochastiques

Recrutement

Dispersion

Communauté

Plantes forestières

Non-equilibrium biodiversity dynamics

Long-term changes

Landscape dynamics

Extinction debt

Immigration credit

Metapopulation

Stochastic models

Recruitement

Dispersal

Community

Forest plants