what animals live in the abyssopelagic zone

The only layer deeper than the abyssal zone is the hadalpelagic zone, which occurs from the seafloor into the deepest trenches, or vertical caverns, in the ocean. There are no plants in the abyssal zone because it is too deep for sunlight to penetrate, and the sunlight is necessary for plants to grow. In the abyssal zone, life appears ill-adapted to survive in a strange, harsh world. When scientists collect abyssal specimens for study, they very frequently find species that are completely new to science. . What are the conditions like in the abyssal zone? 230 lessons. Geologic Time and Earth Science: Tutoring Solution, Earth's Spheres and Internal Structure: Tutoring Solution, Weathering and Erosion: Tutoring Solution, Sedimentary Rocks - A Deeper Look: Tutoring Solution, Metamorphic Rocks - A Deeper Look: Tutoring Solution, Rock Deformation and Mountain Building: Tutoring Solution, Ocean Basins: Definition, Formation, Features & Types, Oceanic Ridge System: Formation & Distribution, Ocean Circulation: Patterns & Effect on Climate, Waves: Types, Features & Effect on Erosion, Contributing Factors of Longshore Transport: Beach Drift & Longshore Current, Environmental Science 101: Environment and Humanity, UExcel Pathophysiology: Study Guide & Test Prep, What is Alginic Acid? This surface layer is also called the sunlight zone and extends from the surface to 200 meters (660 feet). The communities are encased in perpetual darkness, and the temperatures are also cold, hovering near freezing, due to the lack of sunlight. In this lesson, we learned that the abyssal zone is the layer of the ocean from 13,000 feet to the seafloor at 20,000 feet. The only exception is around rifts, where tectonic plates are spreading apart and new seafloor is being formed. This part of the ocean is known as the Abyssal Zone, AKA Abyssopelagic Zone. Its like a teacher waved a magic wand and did the work for me. This zone starts at the bottom of the mesopelagic and stretches down to 4000 m (13,000 feet). Depths below 6000 m occur within ocean trenches and this is often classified as the Hadal Zone (in both pelagic and benthic divisions). A few examples of these adaptations include blindness to semi-blindness due to the lack of light, bioluminescence, and slow metabolism. After students have completed the worksheets, collect the worksheets and use the provided answer key to check students answers. If a media asset is downloadable, a download button appears in the corner of the media viewer. These include the anglerfish, cookiecutter shark, frill shark, viperfish, bristlemouths, lanternfish, and flashlight fish. - Structure, Solubility & Products, Arrow Pushing Mechanism in Organic Chemistry, Topicity in Stereochemistry: Relationships & Examples, Antarafacial & Suprafacial Relationships in Organic Chemistry, Working Scholars Bringing Tuition-Free College to the Community. The deepest known ocean depth is nearly 11,000 m (36,000 feet or almost 7 miles). 1996 - 2023 National Geographic Society. Even at the very bottom, life exists. Answer: There are many layers to the ocean floor but the one where 90% of all ocean life lives is the epipelagic, or euphotic zone. Invertebrates like jellyfish, squids, octopus and krill are . The deepest a fish have ever been found, Abyssobrotula galatheae, was in the Puerto Rico Trench at 8,372 meters (27,460 feet). Mesopelagic Zone Abyssopelagic Zone Try refreshing the page, or contact customer support. Because of the lack of light, bioluminescence begins to appear on organisms in this zone. Whether you need help solving quadratic equations, inspiration for the upcoming science fair or the latest update on a major storm, Sciencing is here to help. The abyssopelagic zone is extremely reliant on the frigid polar . Abyssal sediment in waters shallower than 4,000 m in equatorial to temperate regions is composed primarily of the calcareous shells of foraminiferan zooplankton and of phytoplankton such as coccolithophores. succeed. The ocean is divided into five zones: the epipelagic zone, or upper open ocean (surface to 650 feet deep); the mesopelagic zone, or middle open ocean (650-3,300 feet deep); the bathypelagic zone, or lower open ocean (3,300-13,000 feet deep); the abyssopelagic zone, or abyss (13,000-20,000 feet deep); and the hadopelagic zone, or deep ocean . The epipelagic is home to all sorts of iconic animals, like whales and dolphins, billfishes, tunas, jellyfishes, sharks, and many other groups. [ bth-p-ljk ] A layer of the oceanic zone lying below the mesopelagic zone and above the abyssopelagic zone, at depths generally between about 1,000 and 4,000 m (3,280-13,120 ft).The bathypelagic zone receives no sunlight and water pressure is considerable. Amanda has taught high school science for over 10 years. }. This creepy scene is the abyssal zone. Anglerfish are one of the organisms found in the abyssal zone. The base of this mixing layer is the beginning of the transition layer called the thermocline. Unfortunately, some habitats are threatened by pollution, extreme weather, or deforestation. Scientists believe that this lure attracts other fish for its food or mating. Few organisms can successful survive in the harsh environment, and many of those that can have adapted to be transparent and eyeless due to the extreme darkness. You'll find animals that travel long distances and some that drift with the currents. Types of animals that live in the Abyssopelagic zone include algae, anemones, anglerfish, arrow worm, cookie-cutter shark, copepods, crabs, and other crustaceans, ctenophores, dinoflagellates, fangtooth, lantern fish (Myctophids), mussels, nudibranchs, some squid, segmented worms . The animals that live here have very slow metabolic rates due to the frigid temperatures of the ocean water and they only eat occasionally -- sometimes as seldom as once every few months. Zooplanktons are also found in this zone. This layer of the ocean is incredibly deep and doesn't get any sunlight from the surface. Animals in this zone include anglerfish, deep sea jellyfish, deep sea shrimp, cookiecutter shark, tripod fish, and abyssal octopus also known as the dumbo octopus. In addition to sharks, invertebrates such as squid, shrimp, sea spiders, sea stars, and other crustaceans are also included. Temperature changes are the greatest in this zone because it contains the thermocline,a region where water temperature decreases rapidly with increasing depth, forming atransition layer between the mixed layer at the surface and deeper water. The most common squid found in the bathyal zone is the vampire squid, so named for its hunting strategy of descending on prey and draping its tentacles over it like a cloak or net. Organisms in the bathypelagic live in complete darkness, 24 hours per day. The animals of the abyssal plain rely on this detritus for their food. The animals that live in this zone will eat anything since food is very scarce this deep down in the ocean. Caused by increasing water pressure, the abyssopelagic zone is much less explored than the shallower ocean zones, and it is frequent that scientists discover new species when exploring this area. The depth and strength of the thermocline varies from season to season and year to year. . Elicit from students that each zone has unique characteristics and animal and plant life. The next deepest zone is called the bathypelagic zone (or lower open ocean). Have a comment on this page? What animals live in the open ocean zone? The Epipelagic Zone is penetrated by sunlight which allows photosynthetic organisms like algae to undergo an energy-making process known as photosynthesis. . The inaccessibility of abyssal habitats has hampered the study of this topic. Above this zone lies the mesopelagic zone, below is located in the abyssal zone also known as the abyssopelagic zone. Ocean zones are regions of the ocean that contain distinctive plant and animal life. Organisms that live in the epipelagic zone may come into contact with the sea surface. If no button appears, you cannot download or save the media. copyright 2003-2023 Study.com. Explore these resources to teach students about marine organisms, their relationship with one another, and with their environment. Because of the lack of light, there are no plants producing oxygen, which comes mostly from ice that has melted long ago in the polar regions. Enrolling in a course lets you earn progress by passing quizzes and exams. To put this in perspective, humans can only tolerate 3 to 4 atmospheres of pressure (44-58 psi) when underwater. This activity is made possible by a generous grant from the National Oceanic and Atmospheric Administration (NOAA) National Marine Sanctuary Program. The monognathid eel has developed a single fang that is linked to a primitive venom gland, on which it impales prey. Bathypelagic Zone Sea spiders, anglerfish, and colossal squid (see Figure 1) are just some of the unique and puzzling creatures that visit the abyss. Earth Ocean Formation Theories | How Did the Oceans Form? What kind of animals live in the Abyssopelagic zone? On average, the ocean is about 12,100 feet (3,688 m) deep.1, 3. Three-quarters of the area of the deep-ocean floor lies in this zone. You. These are heterotrophic planktons that include most of the micro and macroorganisms. He has worked for bookshops and publishers in an editorial capacity and written book reviews for a variety of publications. Below the epipelagic zone is the mesopelagic zone, extending from 200 meters (660 feet) to 1,000 meters (3,300 feet). Privacy Notice| Newsroom| What type of animals lives in the abyssal zone? Students review what animal adaptations are, identify marine animal adaptations in a photo gallery, and predict how types of adaptations vary with ocean habitats. Abyssopelagic Zone - The next layer is called the abyssopelagic zone, also known as the abyssal zone or simply as the abyss. The decompsers that we can found in Abyssal zone are : 1. Some animals that live in the aphotic zone include the gulper eel, giant squid, smaller squids, anglerfish, vampire squid, and numerous jellyfish. It extends from 4,000 meters (13,124 feet) to 6,000 meters (19,686 feet). Generally speaking, this zone reaches from the sea surface down to approximately 200 m (650 feet). We are restoring the worlds wild fish populations to serve as a sustainable source of protein for people. Up to about 200 feet below the surface of the ocean is called the epipelagic zone. Due to its constant darkness, this zone is also called the midnight zone. Typical seawater temperature profile (red line) with increasing depth. The open ocean is an enormous place. Despite the harsh conditions, organisms still inhabit the abyssal zone, and you're more likely than not going to see some that are bioluminescent, meaning the ability to glow in the dark. It lies between the mesopelagic above, and the abyssopelagic below. region between the high and low tide of an area. Doing so under the cover of dark helps them to avoid daytime predators. To understand this, we must begin by exploring the five zones of the ocean. Mesopelagic animals play an important role in the global carbon cycle and ocean's food chain. . The ambient temperature is roughly 35-37 degrees Fahrenheit (2-3 degrees Celsius). Algae that live in the epipelagic zone are responsible for much of the original food production for the entire ocean and create at least 50% of the oxygen in the atmosphere (both through photosynthesis). The region of the ocean that lies between 3,000 and 6,000 meters (or 9,800 and 19,700 feet) below the ocean's surface is called the abyssal zone. A few of the organisms that live in this zone include zooplankton, shrimp, and other small fish. The abyssal zone is the deepest layer of the ocean near the seafloor, starting at 13,000 feet and going to about 20,000 feet. Marine ecosystems contain a diverse array of living organisms and abiotic processes. 2. These biome conditions have resulted in the ultimate lucrative hiding spot for creatures like the colossal squid, the angler fish, and giant sea spiders. The eyes on the fishes are also larger and generally upward directed, most likely to see silhouettes of other animals (for food) against the dim light. The abyssopelagic zone: below 4000 m, where the only animals are those specially adapted to survive dark, cold, extreme pressures and a dearth of food. Then point out to students that the top three zones together are called the pelagic zone, or open ocean. Let us know. The hadal zone is the deepest region of the ocean, extending from approximately 6,000 meters to 11,000 meters below the sea surface. In the case of the deep open ocean, organisms never even see sunlight. These organisms migrate in massive number to the oceans surface at dusk in search of food. The Abyssopelagic Zone (or abyssal zone) extends from 13,100 feet (4,000 meters) to 19,700 feet (6,000 meters). It also. Zone of the Epipelagic Zone This is the zone of the ocean that is most exposed to light, and as a result, it has the largest populations of marine life. The main sediment constituents below 4,000 m are brown clays and the siliceous remains of radiolarian zooplankton and phytoplankton such as diatoms. The upper bound of this zone is defined by a complete lack of sunlight. This plume provides nutrients to the bacteria that live inside the worm. The abyssal zone is so deep that it cannot receive sunlight, so there is no photosynthesis and no plant light. National Geographic Headquarters What is the Abyssal Zone of the Ocean, AKA Abyssopelagic Zone? The long, pinkish-colored hagfish, for example, can go as long as seven months without eating because their metabolism is so slow. You will find sharks, tuna, jellyfish, and sea turtles. Ocean animals have unique adaptations depending on what ocean habitat they live in. Anglerfish, for example, physically attach themselves to a female, using her blood as food and fertilizing her eggs in return. And then we also must consider that abyssopelagic means open ocean as opposed to the abyssal plain which is the ocean bottom at those depths. Animals in this zone include anglerfish, deep sea jellyfish, deep sea shrimp, cookiecutter shark, tripod fish, and abyssal octopus also known as the dumbo octopus. These include the epipelagic zone (sunlight zone), mesopelagic zone (twilight zone), bathypelagic zone (midnight zone), abyssopelagic zone (abyssal zone), and the hadalpelagic zone. They often have special adaptations to help them reproduce since finding mates in the dark and sparsely-populated world of the abyssal plain can be difficult. The brine sinks due to its high density and flows slowly toward the Equator along the bottom. The upper boundary between the abyssal zone and the overlying bathyal zone is conveniently defined as the depth at which the temperature of the water reaches 4C (39F); this depth varies between 1,000 and 3,000 m. Waters deeper than 6,000 m are considered the hadal realm by ecologists. Explain that the abyssopelagic, or abyssal benthic, zone is the region that includes the ocean floor. Many open ocean organisms live out their existence without ever coming into contact with the shore, the seafloor, or the waters surface. Promoting Physical Activity in School & the Community. The lack of sunlight in this zone also makes it aphotic, so there is no energy being produced from photosynthesis. Bacteria. As far as we know, the ocean is 36,200 feet (11,000 m or almost 7 miles) deep at its deepest point. Three-quarters of the area of the deep-ocean floor lies in this zone. Most of these animals feed on minimal plants and small fish and shrimp. Because light does not reach this part of the ocean, it is impossible for plants to grow, but there are . The only light at this depth and lowercomes from the bioluminescence of the animals themselves. The vampire squid's tentacles are lined with sharp spines to catch it prey with. Immediately following the epipelagic zone is the mesopelagic zone, where sunlight is very faint and you can find creatures that glow in the dark or are bioluminescent. Box Jellyfish Anatomy & Movement | What are Box Jellies? Sea surface temperatures over three years: 2012-14 (2.6 mb), Sea surface temperatures over six years: 2009-14 (5.4 mb), National Oceanic and Atmospheric Administration, The Positive and Negative Side of Lightning, Tsunami Preparedness and Mitigation: Individuals (You!). Photosynthesis in the ocean takes place in the sunlit upper layers. About Us; View Products; Contact; Blog; Openweathermap Java Api Maven, Properties Of A Table In Database, Edreams Booking Reference, Kiwi Shoe Polish White, Cecily Strong This Will All Be Over Soon, Custom Thank You Bags With Logo, Cream And Beige Living Room Ideas, Sunlight does not penetrate the eternal darkness below 1,000 meters (3,280 feet), an area known as the aphotic zone, which includes the midnight zone (or bathypelagic zone) between 1,000 and 4,000 meters (3,280 and 13,123 feet), the abyss (or abyssopelagic zone) between 4,000 and 6,000 meters (13,123 and 19,685 feet), and the hadal zone (or . One example is the deep sea anglerfish, which uses a light attached to the end of its head to attract prey, as shown here in this image: Many organisms use bioluminescence, lighting up to attract prey and navigate the darkness. which strongly influences the types of plant and animal life that live there. [1,000-4,000 m]), the abyssopelagic zone (about 13,000-20,000 ft [4,000-6,000 m]), and the hadalpelagic . What animals live in the abyssopelagic zone? The Abyssal Zone is the ocean's fourth deepest and darkest layer. I feel like its a lifeline. Not including the hadal zone, which is the water in the oceans trenches, this is the lowest zone. What is lurking in the deepest and darkest parts of the ocean? Get unlimited access to over 88,000 lessons. Twilight zone (mesopelagic zone) 3. However, it is believed that humans have impacted every part of the ocean with waste and chemical pollution.5. There is no sunlight reaching this layer of the ocean because its so deep. (3,300-13,000 feet deep); the abyssopelagic zone, or abyss (13,000-20,000 feet deep); and the . It is a species of great size, being able to reach more than a meter in length. Plus, get practice tests, quizzes, and personalized coaching to help you Although the abyssal zone is so vast, very few animals can handle the extreme conditions. The abyssal salinities are between 34.6 and 35.0 parts per thousand, and temperatures are between 0 and 4 C (32 and 39 F). This detritus provides food to the animals of the abyssal plain. These ocean surface waters typically extend 50 to 100 meters in depth, but may be as deep as 200 meters. Nekton Types & Examples | What is Nekton? Abyssal life includes chemosynthetic bacteria, tubeworms, and small fish that are dark in color or transparent. Temperatures here are frigid, and pressures are hundreds of times greater than at the surface of the ocean. The animals that live in this zone will eat anything since food is very scarce this deep down in the ocean. Usually, the abyssal realm is far enough from land that the sediment contains mostly microscopic plankton remains, produced in the food chain in the overlying waters. At depths of 3,000 to 6,000 metres (9,800 to . The next zone is the bathyal zone. There are organisms that eat detritus directly, as well as organisms that eat detritus indirectly. Many of these organisms have similar characteristics, such as soft bodies, long lifespans, and long gestation periods. https://bit.ly/30iztqY, LnRiLWhlYWRpbmcuaGFzLWJhY2tncm91bmR7cGFkZGluZzowfQ==, .tb-container .tb-container-inner{width:100%;margin:0 auto} .wp-block-toolset-blocks-container.tb-container[data-toolset-blocks-container="4fd9260d946fa69c9cdf324e5a76a9f0"] { padding: 25px 25px 0 25px;margin-top: 0;margin-bottom: 0;display:ms-flexbox !important;display:flex !important;-ms-flex-direction:column;flex-direction:column;-ms-flex-pack:center;justify-content:center; } .wp-block-toolset-blocks-container.tb-container[data-toolset-blocks-container="4fd9260d946fa69c9cdf324e5a76a9f0"] > .tb-container-inner { max-width: 900px; } .tb-container .tb-container-inner{width:100%;margin:0 auto} .wp-block-toolset-blocks-container.tb-container[data-toolset-blocks-container="76cfbaf85b873b6ff363538aea0fded7"] { padding: 0;margin: 0;display:ms-flexbox !important;display:flex !important;-ms-flex-direction:column;flex-direction:column;-ms-flex-pack:center;justify-content:center; 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}  .tb-container .tb-container-inner{width:100%;margin:0 auto} .wp-block-toolset-blocks-container.tb-container[data-toolset-blocks-container="593a123453207911b415c1856ccebd52"] { background: url('https://oceana.org/wp-content/uploads/sites/18/shutterstock_1021392640_1-scaled.jpg') center center no-repeat;background-size:cover;padding: 0;margin: 0;min-height: 600px; } .tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wp-block-toolset-blocks-grid.tb-grid[data-toolset-blocks-grid="3ebae1068c85e288213a99e2e00709e9"] { grid-template-columns: minmax(0, 0.825fr) minmax(0, 0.175fr);grid-column-gap: 0px;grid-row-gap: 0px;grid-auto-flow: row } .wp-block-toolset-blocks-grid.tb-grid[data-toolset-blocks-grid="3ebae1068c85e288213a99e2e00709e9"] > .tb-grid-column:nth-of-type(2n + 1) { grid-column: 1 } .wp-block-toolset-blocks-grid.tb-grid[data-toolset-blocks-grid="3ebae1068c85e288213a99e2e00709e9"] > .tb-grid-column:nth-of-type(2n + 2) { grid-column: 2 } .wp-block-toolset-blocks-grid-column.tb-grid-column[data-toolset-blocks-grid-column="ee63a4574e3dfdb50cf18021b4211a22"] { background-color: rgba( 5, 139, 235, 0.64 );padding: 25px;margin: 0;display: flex; } .tb-container .tb-container-inner{width:100%;margin:0 auto} .wp-block-toolset-blocks-container.tb-container[data-toolset-blocks-container="52eecc86e411002c9792368e926bddb8"] { padding: 0 0 100px 0;margin: 0 0 20px 0; } .tb-social-share__network{display:inline-block;text-align:center;vertical-align:top;margin-right:7px;margin-bottom:7px}.tb-social-share--092 .tb-social-share__facebook__share-button{cursor:pointer;display:inline-block;background-size:contain;background-color:#3b5998;}.tb-social-share--092 .tb-social-share__linkedin__share-button{cursor:pointer;display:inline-block;background-size:contain;background-color:#007fb1;}.tb-social-share--092 .tb-social-share__twitter__share-button{cursor:pointer;display:inline-block;background-size:contain;background-color:#00aced;}.tb-social-share--092 .tb-social-share__pinterest__share-button{cursor:pointer;display:inline-block;background-size:contain;background-color:#cb2128;}.tb-social-share--092 .tb-social-share__telegram__share-button{cursor:pointer;display:inline-block;background-size:contain;background-color:#37aee2;}.tb-social-share--092 .tb-social-share__reddit__share-button{cursor:pointer;display:inline-block;background-size:contain;background-color:#5f99cf;}.tb-social-share--092 .tb-social-share__viber__share-button{cursor:pointer;display:inline-block;background-size:contain;background-color:#7c529e;}.tb-social-share--092 .tb-social-share__email__share-button{cursor:pointer;display:inline-block;background-size:contain;background-color:#7f7f7f;}.tb-social-share--round .SocialMediaShareButton{border-radius:50%}.tb-social-share__excerpt{display:none}.tb-social-share .SocialMediaShareButton--disabled{opacity:0.65} .tb-social-share[data-toolset-blocks-social-share="016b45efab630d1f6403f62204e6963f"] .SocialMediaShareButton { width: 40px;height: 40px; } .tb-container .tb-container-inner{width:100%;margin:0 auto} .wp-block-toolset-blocks-container.tb-container[data-toolset-blocks-container="52824e00c3a841be0ea0d58fa987113d"] { padding: 0;margin: 0 0 20px 0; } .tb-heading[data-toolset-blocks-heading="0bab12a5c078fe25e693fb8d125f6074"]  { font-size: 20px;line-height: 22px;color: rgba( 255, 255, 255, 1 );padding-top: 0;padding-bottom: 0;margin-top: 0;margin-bottom: 0; }  h2.tb-heading[data-toolset-blocks-heading="60011b8d1dbe10583f230b52e310416b"]  { font-size: 16px;padding-top: 0;padding-bottom: 0;margin-top: 0;margin-bottom: 0; }  .wp-block-toolset-blocks-grid-column.tb-grid-column[data-toolset-blocks-grid-column="011e6bf10e521e471c117e86a296d3cb"] { display: flex; } .tb-container .tb-container-inner{width:100%;margin:0 auto} .wp-block-toolset-blocks-container.tb-container[data-toolset-blocks-container="dfddddb3c5092606610b2f0af49af85a"] { padding: 0;margin: 0;border-bottom: 1px solid rgba( 240, 240, 240, 1 );min-height: 10px; } .wp-block-toolset-blocks-container.tb-container[data-toolset-blocks-container="dfddddb3c5092606610b2f0af49af85a"] > .tb-container-inner { max-width: 100%; } .tb-container .tb-container-inner{width:100%;margin:0 auto} .wp-block-toolset-blocks-container.tb-container[data-toolset-blocks-container="25692ef3eb86edee5c0347eb26c779de"] { padding: 0;margin: 0; } .tb-container .tb-container-inner{width:100%;margin:0 auto} .wp-block-toolset-blocks-container.tb-container[data-toolset-blocks-container="754b20bcc24b363267cec7272c07cd9d"] { background: rgba( 239, 240, 240, 1 );padding: 25px;margin-top: 0;margin-bottom: 0;min-height: 180px;display:ms-flexbox !important;display:flex !important;-ms-flex-direction:column;flex-direction:column;-ms-flex-pack:center;justify-content:center; } .tb-heading[data-toolset-blocks-heading="1a4d2eeb82c14f25064d2af644170166"]  { font-size: 22px;font-style: italic;color: rgba( 157, 157, 157, 1 );text-align: center;padding-top: 0;padding-bottom: 0;margin-top: 0;margin-bottom: 0; }  .tb-heading[data-toolset-blocks-heading="62020c3b60d182f18899c1a1e43722b1"]  { font-size: 36px;color: rgba( 34, 34, 34, 1 );text-align: center;padding-top: 0;padding-bottom: 0;margin-top: 0;margin-bottom: 0; }  h2.tb-heading[data-toolset-blocks-heading="0960bb88d3a27e8f5ae82672152a62fd"]  { font-size: 22px;color: rgba( 5, 140, 235, 1 );text-align: center;padding-top: 0;padding-bottom: 0;margin-top: 0;margin-bottom: 0; }  @media only screen and (max-width: 781px) { .tb-container .tb-container-inner{width:100%;margin:0 auto}.tb-container .tb-container-inner{width:100%;margin:0 auto}.tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wp-block-toolset-blocks-grid.tb-grid[data-toolset-blocks-grid="85ea832c87c73fa7ebf70e857a1d6199"] { grid-template-columns: minmax(0, 0.3333fr) minmax(0, 0.3333fr) minmax(0, 0.3333fr);grid-auto-flow: row } .wp-block-toolset-blocks-grid.tb-grid[data-toolset-blocks-grid="85ea832c87c73fa7ebf70e857a1d6199"] > .tb-grid-column:nth-of-type(3n + 1) { grid-column: 1 } .wp-block-toolset-blocks-grid.tb-grid[data-toolset-blocks-grid="85ea832c87c73fa7ebf70e857a1d6199"] > .tb-grid-column:nth-of-type(3n + 2) { grid-column: 2 } .wp-block-toolset-blocks-grid.tb-grid[data-toolset-blocks-grid="85ea832c87c73fa7ebf70e857a1d6199"] > .tb-grid-column:nth-of-type(3n + 3) { grid-column: 3 } .tb-button{color:#f1f1f1}.tb-button--left{text-align:left}.tb-button--center{text-align:center}.tb-button--right{text-align:right}.tb-button__link{color:inherit;cursor:pointer;display:inline-block;line-height:100%;text-decoration:none !important;text-align:center;transition:all 0.3s ease}.tb-button__link:hover,.tb-button__link:focus,.tb-button__link:visited{color:inherit}.tb-button__link:hover .tb-button__content,.tb-button__link:focus .tb-button__content,.tb-button__link:visited .tb-button__content{font-family:inherit;font-style:inherit;font-weight:inherit;letter-spacing:inherit;text-decoration:inherit;text-shadow:inherit;text-transform:inherit}.tb-button__content{vertical-align:middle;transition:all 0.3s ease}.tb-button__icon{transition:all 0.3s ease;display:inline-block;vertical-align:middle;font-style:normal !important}.tb-button__icon::before{content:attr(data-font-code);font-weight:normal !important}.tb-button__link{background-color:#444;border-radius:0.3em;font-size:1.3em;margin-bottom:0.76em;padding:0.55em 1.5em 0.55em}.tb-button{color:#f1f1f1}.tb-button--left{text-align:left}.tb-button--center{text-align:center}.tb-button--right{text-align:right}.tb-button__link{color:inherit;cursor:pointer;display:inline-block;line-height:100%;text-decoration:none !important;text-align:center;transition:all 0.3s ease}.tb-button__link:hover,.tb-button__link:focus,.tb-button__link:visited{color:inherit}.tb-button__link:hover .tb-button__content,.tb-button__link:focus .tb-button__content,.tb-button__link:visited .tb-button__content{font-family:inherit;font-style:inherit;font-weight:inherit;letter-spacing:inherit;text-decoration:inherit;text-shadow:inherit;text-transform:inherit}.tb-button__content{vertical-align:middle;transition:all 0.3s ease}.tb-button__icon{transition:all 0.3s ease;display:inline-block;vertical-align:middle;font-style:normal !important}.tb-button__icon::before{content:attr(data-font-code);font-weight:normal !important}.tb-button__link{background-color:#444;border-radius:0.3em;font-size:1.3em;margin-bottom:0.76em;padding:0.55em 1.5em 0.55em}.tb-button{color:#f1f1f1}.tb-button--left{text-align:left}.tb-button--center{text-align:center}.tb-button--right{text-align:right}.tb-button__link{color:inherit;cursor:pointer;display:inline-block;line-height:100%;text-decoration:none !important;text-align:center;transition:all 0.3s ease}.tb-button__link:hover,.tb-button__link:focus,.tb-button__link:visited{color:inherit}.tb-button__link:hover .tb-button__content,.tb-button__link:focus .tb-button__content,.tb-button__link:visited .tb-button__content{font-family:inherit;font-style:inherit;font-weight:inherit;letter-spacing:inherit;text-decoration:inherit;text-shadow:inherit;text-transform:inherit}.tb-button__content{vertical-align:middle;transition:all 0.3s ease}.tb-button__icon{transition:all 0.3s ease;display:inline-block;vertical-align:middle;font-style:normal !important}.tb-button__icon::before{content:attr(data-font-code);font-weight:normal !important}.tb-button__link{background-color:#444;border-radius:0.3em;font-size:1.3em;margin-bottom:0.76em;padding:0.55em 1.5em 0.55em}.wp-block-toolset-blocks-grid-column.tb-grid-column[data-toolset-blocks-grid-column="e0c62ef28c440411136281632d5a8d63"] { display: flex; } .tb-button{color:#f1f1f1}.tb-button--left{text-align:left}.tb-button--center{text-align:center}.tb-button--right{text-align:right}.tb-button__link{color:inherit;cursor:pointer;display:inline-block;line-height:100%;text-decoration:none !important;text-align:center;transition:all 0.3s ease}.tb-button__link:hover,.tb-button__link:focus,.tb-button__link:visited{color:inherit}.tb-button__link:hover .tb-button__content,.tb-button__link:focus .tb-button__content,.tb-button__link:visited .tb-button__content{font-family:inherit;font-style:inherit;font-weight:inherit;letter-spacing:inherit;text-decoration:inherit;text-shadow:inherit;text-transform:inherit}.tb-button__content{vertical-align:middle;transition:all 0.3s ease}.tb-button__icon{transition:all 0.3s ease;display:inline-block;vertical-align:middle;font-style:normal !important}.tb-button__icon::before{content:attr(data-font-code);font-weight:normal !important}.tb-button__link{background-color:#444;border-radius:0.3em;font-size:1.3em;margin-bottom:0.76em;padding:0.55em 1.5em 0.55em}.tb-container .tb-container-inner{width:100%;margin:0 auto} .tb-container .tb-container-inner{width:100%;margin:0 auto}.tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wp-block-toolset-blocks-grid.tb-grid[data-toolset-blocks-grid="3ebae1068c85e288213a99e2e00709e9"] { grid-template-columns: minmax(0, 1fr);grid-column-gap: 0px;grid-row-gap: 0px;grid-auto-flow: row } .wp-block-toolset-blocks-grid.tb-grid[data-toolset-blocks-grid="3ebae1068c85e288213a99e2e00709e9"]  > .tb-grid-column:nth-of-type(1n+1) { grid-column: 1 } .wp-block-toolset-blocks-grid-column.tb-grid-column[data-toolset-blocks-grid-column="ee63a4574e3dfdb50cf18021b4211a22"] { background-color: rgba( 0, 0, 0, 0 );display: flex; 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