Browsing is a strong filter for savanna tree seedlings in their first growing season

Microhabitat environmental conditions are an important filter for seedling establishment, controlling the availability of optimal recruitment sites. Understanding how tree seedlings respond to warming soil temperature is critical for predicting population recruitment in the future hardwood forests of northeastern North America, particularly as environmental conditions and thus optimal microhabitat availabilities change. We examined the effect of soil warming of 5 °C during the first growing season on germination, survival, phenology, growth, and stem and root biomass allocation in Acer rubrum L. (red maple) seedlings. While there was no effect of soil warming on germination or survival, seedlings growing in warmer soils demonstrated significantly accelerated leaf expansion, delayed autumn leaf senescence, and an extended leaf production period. Further, seedlings growing in warmer soils showed larger leaf area and stem and root structures at the end of the first growing season, with no evidence of biomass allocation trade-offs. Results suggest that A. rubrum seedlings can capitalize on soil warming by adjusting leaf phenology and leaf production, resulting in a longer period of carbon uptake and leading to higher overall biomass. The absence of growth allocation trade-offs suggests that A. rubrum will respond positively to increasing soil temperatures in northeastern forests, at least in the early life stages.

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Is Competition for Soil Resources by Carex pensylvanica Restricting Tree Seedling Growth in a Temperate Northern Hardwood Forest?

Inquiry@Queen's Undergraduate Research Conference Proceedings ◽

10.24908/iqurcp.9297 ◽

2018 ◽

Author(s):

Raeya Jackiw

Keyword(s):

Seedling Growth ◽

Sugar Maple ◽

Growing Season ◽

Tree Seedlings ◽

Tree Seedling ◽

Belowground Competition ◽

Soil Resources ◽

Soil Resource ◽

Carex Pensylvanica ◽

Soil Resource Availability

In response to ecological disturbances, sedge species like Carex pensylvanica form dense monocultures on the forest floor. These “sedge mats” have been shown to severely inhibit plant growth, and limit understory species diversity. In recent years, concern has grown that they may also be restricting the regeneration of economically valuable tree species like sugar maple through belowground competition. To determine if and how Carex pensylvanica may be impacting tree seedling growth through belowground competition I located and exclosed 44 tree seedlings in areas of representatively dense sedge at two forest sites at the Queen’s University Biological Station. I removed sedge from half the plots, and measured soil resource availability and seedling growth response at all plots throughout the growing season. I predicted that sedge would negatively impact the growth of tree seedlings by decreasing the availability of soil resources. I found that the presence of sedge did not affect seedling growth over one growing season, but that it did impact soil resource availability by increasing the availability of surface soil moisture and decreasing the availability of soil nitrate, changes which may have implications for seedling growth beyond the single growing season studied. My results were also site specific, indicating that location is important when managing sedge impact on tree regeneration. Understanding the impact of sedge on tree seedling regeneration is important for predicting changes in the trajectory of forest communities and for informing the management of economically valuable species like sugar maple.

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Functional responses of recently emerged seedlings of an endemic Mexican oak (Quercus eduardii) under climate change conditions

Botanical Sciences ◽

10.17129/botsci.1988 ◽

2018 ◽

Vol 96 (4) ◽

pp. 582

Author(s):

Ernesto I. Badano ◽

Francisco A. Guerra-Coss ◽

Sandra M. Gelviz-Gelvez ◽

Joel Flores ◽

Pablo Delgado-Sánchez

Keyword(s):

Climate Change ◽

Seedling Emergence ◽

Canopy Cover ◽

Growing Season ◽

Climatic Conditions ◽

Tree Seedlings ◽

Functional Responses ◽

Climate Change Simulation ◽

Survival And Growth ◽

Growth Of Seedlings

Background: Climate change will increase temperature and reduce rainfall across temperate forests of Mexico. This can alter tree establishment dynamics within forest and in neighbouring man-made clearings.Hypotheses: Climate change will reduce emergence and survival of tree seedlings, and surviving plants will display functional responses matching with these changes. These effects should be more noticeable in clearings due to the lack of canopy cover.Studied species: Quercus eduardii (Fagaceae, section Lobatae) an oak species endemic to Mexico.Study site and years of study: Tree growing season 2015-2016 (rainy season) in a mature oak forest and a neighbouring clearing in Sierra de Álvarez, state of San Luis Potosí.Methods: In both habitats, we established control plots (under current climatic conditions) and climate change simulation plots (increased temperature and reduced rainfall). At the beginning of the growing season, we sowed acorns of Q. eduardii in these plots and monitored the emergence, survival and growth of seedlings. At the end of the growing season, we assessed functional responses on surviving seedlings.Results: Seedling emergence and survival were lower in climate change plots from both habitats. However, differences in survival between climate treatments were larger within the forest. Seedlings from climate change plots displayed functional responses indicating higher levels of thermal and water stress.Conclusions: This study indicates that climate change will constrain tree recruitment in Mexican oak forests. However, contrary to our expectations, it seems that these effects will be higher within forests than in man-made clearings.

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Effects of Container Size and Transplanting Date on the Growth of Tree Seedlings

Journal of Environmental Horticulture ◽

10.24266/0738-2898-1.4.91 ◽

1983 ◽

Vol 1 (4) ◽

pp. 91-93 ◽

Cited By ~ 1

Author(s):

Bonnie Lee Appleton ◽

Carl E. Whitcomb

Keyword(s):

Growing Season ◽

Tree Seedlings ◽

Coniferous Trees

Superior growth was obtained from deciduous and coniferous trees seeded into the largest volume propagation container. This effect remained evident through the second growing season for all species. In a second experiment, larger containers were in some cases better, but attempts to improve growth by means other than an increase in propagation volume proved futile. Earlier transplant dates were much less important than container size.

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Effect of waterlogging on boreal forest tree seedlings during dormancy and early growing season

Dissertationes Forestales ◽

10.14214/df.224 ◽

2017 ◽

Vol 2016 (224) ◽

Author(s):

Ai-Fang Wang

Keyword(s):

Boreal Forest ◽

Growing Season ◽

Forest Tree ◽

Tree Seedlings

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Growing season

PsycEXTRA Dataset ◽

10.1037/e541672004-001 ◽

1992 ◽

Author(s):

Nicholas Wellington

Keyword(s):

Growing Season

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Irrigation regime and water consumption of potatoes in the Republic of Bashkortostan, depending on the reclamation condition of lands

Melioration and Water Management ◽

10.32962/0235-2524-2019-6-13-19 ◽

2020 ◽

Vol 0 (6) ◽

pp. 13-19

Author(s):

Guzel Gumerova ◽

Georgiy Gulyuk ◽

Dmitry Kucher ◽

Anatoly Shuravilin ◽

Elena Piven

Keyword(s):

Water Consumption ◽

Weather Conditions ◽

Growing Season ◽

Vegetation Period ◽

Forest Steppe ◽

Total Water ◽

Total Water Consumption ◽

Republic Of Bashkortostan ◽

Irrigated Lands ◽

The Republic

Data of long-term researches (2015–2018) in southern forest-steppe zone of the Republic of Bashkortostan, is justified theoretically and experimentally the mode of irrigation of potatoes on leached chernozems of unsatisfactory, satisfactory and good ameliorative condition of irrigated lands. For the growing periods of potatoes with different heat and moisture supply, the number of watering, the timing of their implementation, irrigation and irrigation norms are established. On lands with unsatisfactory meliorative state the number of irrigation depending on weather conditions of potato vegetation period varied from 0 to 3 (1.5 on average) with average irrigation norm – 990 m3/ha. With satisfactory meliorative state of lands the number of irrigation on average increased from 0 to 4 (2.3 on average) with irrigation norm – 1305 m3/ha. On lands with good meliorative state the number of irrigation was the highest – from 1 to 5 (3 on average) with average irrigation irrigation norm is 1653 m3/ha. It was noted that in the dry periods of potato vegetation the greatest number of watering was carried out (3–5 watering), and in the wet periods (2017) watering was not carried out except for the area with a good reclamation state, where only one irrigation was carried out by the norm of 550 m3/ha. Water consumption of potato was studied in dynamics as a whole during the growing season and the months of the growing season depending on weather conditions of vegetation period and land reclamation condition of irrigated lands, as well as in the control (without irrigation). The lowest total water consumption was in the area without irrigation and averaged 226.8 mm. In irrigated areas, its values increased to 319-353.4 mm. The average daily water consumption varied from 2.12 to 3.3 mm. The highest rates of potato water consumption were observed in June and July, and the lowest – in May and August. In the total water consumption of potatoes on the site without irrigation, the largest share was occupied by atmospheric precipitation and in addition to them the arrival of moisture from the soil. Irrigation water was used in irrigated areas along with precipitation, the share of which was 30.2–46.1 %.

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Dynamics of CO2 emission from chernozems under agricultural use

Agricultural science and practice ◽

10.15407/agrisp4.03.043 ◽

2017 ◽

Vol 4 (3) ◽

pp. 43-49

Author(s):

M. Miroshnychenko ◽

O. Siabruk

Keyword(s):

Carbon Dioxide ◽

Agricultural Practices ◽

Growing Season ◽

Warm Period ◽

Direct Seeding ◽

Soil Tillage ◽

Plant Residues ◽

Hydrothermal Conditions ◽

Organic Mineral ◽

Mineral System

Aim. The comparison of the effect of hydrothermal conditions and various agricultural practices on the emission of CO 2 from chernozems in the Left-Bank Forest-Steppe of Ukraine. Methods. The dynamics of the intensity of carbon dioxide emissions from chernozem calcic (typical chernozem – in Ukrainian classifi cation) was studied during the growing season of 2011–2012. The observations were based on two fi eld experiments with various methods of soil till- age (6–7 years from the beginning of the experiment) and fertilization systems (21–22 years from the beginning of the experiment). Particularly, plowing at 20–22 cm, disking at 10–12 cm, cultivation at 6–8 cm and direct seeding using Great Plains drill were studied among the soil tillage methods. Mineral system (N 45 P 50 K 45 ), organic system (manure 8 t/ha) and combined organic-mineral system (manure 8 t/ha + N 45 P 50 K 45 ) were studied among fertilization systems. The intensity of CO 2 fl ux was determined using the non-stationary respiratory chambers by the alkaline absorption method, with averaging of the results during the day and the frequency of once a month. Results. During the warm period, the emission of carbon dioxide from the soil changes dynamically depending on temperature and humidity. The maximum of emission coincides with the periods of warm summer showers in June-July, the minimum values are characteristic for the late autumn period. The total emission losses of carbon in chernozems over the vegetation period ranged from 480 to 910 kg/ha and varied depending on the methods of tillage ± (4.0–6.0) % and fertilization systems ± (3.8–7.1) %. The changes in the intensity of CO 2 emission from the soil under different methods of soil tillage are associated with hydrothermal regime and the depth of crop residues location. The biggest difference is observed im- mediately after tillage, but in the spring period the differences are only 12–25 %, and after drying of the top layer of soil become even less. Direct seeding technology provides the greatest emission of CO 2 from chernozem, which is fa- cilitated by better water regime and more complete mineralization of plant residues on the soil surface. Annual losses of carbon are the least under disking of soil at 10–12 cm. The changes in the intensity of CO 2 emission from the soil under different fertilization systems are associated with the involvement of the additional organic matter from plant residues and manure to the microbiological decomposition. The greatest emission was observed under the organic- mineral fertilization system, which increased the loss of carbon by 7–8 % in comparison with the mineral system in the unfavorable hydrothermal year and by 11–15 % in the more favorable year. These differences are observed mainly during the fi rst half of the growing season when there is a clear tendency to increase the intensity of soil respiration. Conclusions. The hydrothermal conditions of the warm period of the year are decisive in the formation of the CO 2 emission fl ow from chernozems. Due to the improvement of agricultural practices, emissions might be reduced but not more that by 15 % of natural factor contribution.

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Irrigation scheduling and water requirements for cowpea using evaporation pan at middle of Iraq

Journal of Aridland Agriculture ◽

10.25081/jaa.2018.v4.3445 ◽

1970 ◽

pp. 13-17

Author(s):

Saifuldeen A. Salim ◽

Isam Kudhier Hamza ◽

Laith Farhan Jar

Keyword(s):

Water Productivity ◽

Irrigation Treatment ◽

Growing Season ◽

Irrigation Scheduling ◽

Water Requirements ◽

Applied Water ◽

Fresh Seed ◽

Irrigation Interval ◽

Biological Yield ◽

Evaporation Pan

The present study was conducted to find out the water requirements and most suitable irrigation frequencies for cowpea (Vigna unguiculata L.) var grown under drip irrigation. The treatments were based on the IW:CPE ratio at different empirical pan factors 0.6 , 0.8, 1.0, 1.,1.4 , and 1.6 Ef (where Ef = IW/CPE). It was observed that the irrigation interval was variable values decreased by increasing Ef value and with the progress of the growing season. The 1.2 and 1.0 IW: CPE treatments with approximately 4 days irrigation interval were achieved the best results. The total amount of applied water during Cowpea growing season was varied between 247.7 and 266.5mm with 254.8mm as a mean. Irrigation treatment with Ef1.2 was superior over the rest of other treatments in fresh seed yield (5.13 ton.hec.-1), crop water productivity (2.14 kg.m-3), biological yield (6.88 ton.hec.-1) , fresh pod yield (7.33 ton.hec.-1), weight of 100 seed (31.28gm), number of seed/pod (9.34) and netting percentage (37.1). The lowest values of the most parameters used in this study were obtained by Ef 0.6 irrigation treatment.

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Development of Efficient Production Systems for Forest Tree Seedlings

JAPAN TAPPI JOURNAL ◽

10.2524/jtappij.73.120 ◽

2019 ◽

Vol 73 (2) ◽

pp. 120-122

Author(s):

Naoki Negishi ◽

Katsuhiko Nakahama ◽

Nobuyuki Urata ◽

Toshiaki Tanabe

Keyword(s):

Production Systems ◽

Forest Tree ◽

Efficient Production ◽

Tree Seedlings

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