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to participate in the presentation i'm going to share my screen can everyone see my screen we can thank you okay great so we are very excited at the kansas biological survey to hear about the formation of this house committee on water and we are very grateful for the opportunity to talk about work being conducted at the biological survey all of which relates to our mission which is to serve kansas and the global environment through world-class research education and outreach water issues are prevalent and vary across the state ranging from high demand and scarcity in the west where many of our agricultural lands are to increasing variability and intermittency of streams in our rangelands to declining water quality quality and quantity in our reservoirs for drinking so i have several goals with this presentation today first i'm going to review the history of the biological survey and how it has expanded over time as well as our expertise and infrastructure for research and then i'd like to show you how survey data are used in statewide applications then i'll transition into presenting some of our current research on water dynamics in western farmlands and eastern flood plains in kansas and then i'm going to hand it over to ted harris who's going to provide you a summary of harmful algal bloom research in kansas and then we'll leave you with some key takeaways so organized efforts to survey the biota of kansas actually started in the 1860s but the biological survey was not formally established until 1911. by the chancellor at the university of kansas in 1959 house bill 133 recognized the biological survey as a unit of state government however we are a non-regulatory state agency and we are not a line item in the kansas budget like the kansas geological survey our mandate is to survey the animals and plants particularly those that are native and of economic and educational importance in kansas to publish our reports and our findings to receive and administer lands that are needed by the state to study and preserve native animals and plant resources and then lastly to accept grants and state monies or any gifts and donations the biological survey has expanded in its scope over time in 1986 the kansas natural heritage inventory was still was established by the legislature to survey ecologically important sites across the state and it became private part of the biological survey about 11 years later in 1997 the kansas applied remote sensing program also called cards which was originally established in 1972 by nasa and the state to conduct research on applications of satellite imagery and technology was also folded into the survey and i will talk about some of their current work today in 1999 the ku field station that was originally established in 1947 became administered by the survey and i'll give you some details on the field station in this talk today lastly monarch watch is affiliated with the biological survey and this is an internationally visible not-for-profit organization that is dedicated to the education conservation and research on the monarch butterfly so our budget comes from ku and it's oscillated around 1.8 1.9 million dollars per year over the last three fiscal years the source of these dollars are for come from um a variety of places so some of our funding comes from could come from tuition dollars endowments federal work study as well as then funding that's coming from the state general fund so the relative proportion of those dollars are decisions that are made at much higher levels than my position and so when i receive the budget um it's primarily for positions that are that are funded by ku and other operating expenses so fy21 right now we have uh 24 positions that are partially funded by the university of kansas um at the biological survey so we have 15 or i'm sorry 13 split appointed faculty with ku departments so they tend to be 50 biological survey 50 a department we have three scientists that are partially self-funded from grants and contracts and we have five administrative staff four at the biological survey and one at the ku field station and two project support staff or research support staff that are also partially funded by the budget coming to the biological survey other operating expenses just to give you an example of what those funds are used for for example if the biological survey needs to attend a kansas water authority meeting in western kansas then the cost for that travel would be charged to our other operating expenses along with all other kinds of you know supplies office supplies that are needed to run the biological survey i also included in this slide a table of our sponsored project expenditures so these are funds that are coming largely from outside the state the kansas biological survey receives three to four million dollars in grants and contracts every year and many of those are multi-year awards and so this table demonstrates the expenditures from those grants the dollars that are being expended each year and that these numbers were supplied from ku's center for research and they categorize these expenditures into into two sources those are non-federal funds such as grants and contracts from the state such as our work with the kansas water office there could be large grants from foundations to conduct research not-for-profit organizations industry as well as other universities by four by far the majority of funding coming into the kansas biological survey are from federal sources like the national science foundation and the united states department of agriculture and so these expenditures support many more people who work at the biological survey we have 7 70 to 100 employees many research many of those being researchers many of them coming from outside of the state into kansas and these expenditures most of which are coming outside the state are are spent in kansas and stimulating this kansas economy so the real point i really want to make here is that the biological survey has an over 200 percent return on the state's investment and this is because of sponsored projects is because of the research grants that are coming into the biological survey of which over half are used in some way to study the effects of of water on ecosystems and organisms our reporting structure is such that ku field station staff report to the director of the field station the field station director survey administrative staff scientists and split appointed faculty all report to me through annual evaluations and then i report to the ku office of research the biological survey produces an annual report each year and i meet with the ku office of resource of research quarterly throughout the year there is an annual review that is conducted of the director and there is a forthcoming five-year review of the director which is separate from a five-year review of our research center so today the kansas biological survey is one of 12 designated research centers at ku we conduct interdisciplinary and collaborative research on plants animals a lot of work on micro microbes their communities whole ecosystems nutrient cycling changes in soil carbon and water resources in the state and around the world again we employ 70 to 100 researchers the faculty affiliated with the survey teach classes at ku and mentor scientists at all levels and again most of these employees are funded by sources that are coming from outside the state those grants and contracts we have growing public outreach and service at all levels from local to national and we have an increasing infrastructure for research not only on campus but also at the ku field station which has really been made possible by the extra mile the effort that many of the faculty have gone to to seek funds from the national science foundation infrastructure grant program so i'm going to go into some of this infrastructure for research starting at the ku field station again established in 1947 its mission is to foster scholarly research environmental education and science-based stewardship of natural resources the field station consists of multiple sites that collectively contain over 3500 acres of land so the core site the main site is north of lawrence has a lot of different field experiments and then just south of that is a medicinal plant garden that really involves the community engages the community in caring for and and tending to those medicinal plants south of lawrence is a site called baldwin woods which is a really unique and interesting tract of forest you might want to you could call it across timbers in that it contains a lot of eastern deciduous forest species but also a lot of southern forest species and so we hold annual education events out there interpretive hikes and then students at k.u can go out there for field trips to learn about forest species and there is also some research the other side is anderson prairie just south and not shown on the map here but this is a large prairie area owned by the nature conservancy and managed by the ku field station and it is a it is a great resource to study prairie ecosystems and how they respond to grazing this picture here is just to demonstrate that we engage the broader community at ku these structures here were actually designed and built by ku architecture students at the field station going to our core area at the ku field station and infrastructure that's available there we have an armitage education center which is a very nice building where we can hold small conferences for lectures it also contains laboratories where students can participate in experiential learning take field classes there's also a large greenhouse that contains a sample processing area again this was funded by the national science foundation infrastructure for research program and there are some small cabins that enable visiting scientists to stay at the ku field station the field station also consists of a network of nature trails and many of these trails have become a valuable resource for the community particularly during this pandemic period we engage in a lot of outreach activities and this is just one example of a prairie restoration experiment that the biological survey helped set up a free state high school and this experiment is used by free state high school students to get experience with the scientific method and actually very interesting results have been published and the community comes here to learn about tallgrass prairie restoration honing in a little bit more on the ku field station core area this aerial view just demonstrates the scale and the complexity and diversity of experiments and the massive amount of infrastructure for research that's available at the ku field station north of lawrence the field station is also a national ecological observatory network also called neon site so neon has sites in every major ecosystem throughout the united states and the ku field station site is a transitional forest system and so these towers continuously measure gas flex into and out of this ecosystem and below the tower there is a footprint where neon personnel come and measure plants animals soils and other aspects of the ecosystem and this nicely links us to kansas state university where they have two neon sites the prairie and agricultural sites are located at the konza prairie biological station there are a lot of field experiments at the ku field station in grassland as well as old fields and this is a picture of the dimensions and biodiversity experiment which is a five-year study and there's a companion study in china that is funded by the national science foundation to look at how drought affects very complex plant soil interactions the field station also contains many replicated ponds and this enables us to conduct experiments so in the past there were several experiments on harmful pollutants such as atrazine and today they're used to look at factors that are affecting harmful algal blooms here's another kind of experimental setup these are very large tanks where you can manipulate a variety of factors in water and here's another one of our aquatic scientists amy bergen and she's using these tanks uh to test methods of remote water sensing with drug water testing with drones going off site the biological survey uh participates in a lot of monitoring of stream physical and biological conditions throughout the state and then the biological survey also harbors a very renowned internationally renowned expertise in aquatic biology and so this is jim thorpe uh he studies rivers in kansas and around the world and he is the author of a multi-volume series on freshwater invertebrates that's used throughout the world several scientists at the survey also study soil and many processes that are very relevant to sustainable and regenerative agriculture and many of us collaborate with scientists at kansas state university so now i want to go into demonstrating how some survey data are used in statewide applications so the natural heritage program at the biological survey is the main source of information on precise locations of at-risk species and so they receive all of these records across the state through our own inventories but also from other agencies and other researchers and so then these data are then used to generate maps like this so that we can visualize the frequency the occurrence and the frequency of a current of rare animals and rare plants and rare plant communities across the state so the heritage program works very closely with other state agencies to make these records that they receive discoverable and accessible for assessment and planning throughout the state so they receive information on these at-risk species and communities from kansas department of wildlife parks and tourism kansas department of health and environment from biological surveys that we conduct from other researchers as well as museums and so those data are all funneled to the heritage program where they are evaluated for quality control and then they are input and integrated with geographic information systems to basically produce maps of rare or at-risk community and species occurrences throughout the state so these datas are actually part of a larger database so they are funneled um to a lot to an international database called nature serve such that then national maps can be generated of these at-risk plant animals species and communities and be used for assessment and planning the data from the heritage program are also used in statewide applications like to develop the natural resource planner the crucial habitat assessment tool used by wildlife managers and to develop the what the state wildlife action plan the kansas applied remote sensing program also generates a lot of maps and so this here is an example of the green report that's developed by the cars program and this kind of map is janitor generated from the cars program that monitors cropland and rangeland vegetation productivity using satellite data and so the satellite data basically give give us an indication of greenness and that greenness is related to plant condition and productivity and so the cars program generates these maps weekly to show changes in plant condition and productivity in kansas across the united states and also internationally now in south america it's a very valuable resource so i'm going to transition into talking about some of our current work on water but before i do that i need to acknowledge our past or past contributions to water research in the state of kansas from the biological survey and one of the on one significant product from the biological survey was the atlas of kansas lakes which was the first attempt to calculate volume in 81 lakes and reservoirs used for drinking water in the state of kansas and this was enabled by conducting bathymetric studies that are used to estimate water volume in a reservoir from topographic maps and kind of create a topographic map of that current condition and then they are compared to old topographic maps and from that comparison sedimentation rate and reduction in storage volume can be estimated so the atlas of kansas lakes has these detailed measurements for these 81 lakes and reservoirs in kansas and we can make that available o you we have several copies to distribute our current work now focuses on water dynamics in western farmlands and eastern flood plains in kansas and i'm going to give you a few highlights from that research so water problems vary across the state we know and western kansas is what we would call a world of water deficit so this map demonstrates illustrates that world of water deficit by these pie charts that show time and drought and the larger the pies and the red darker red and orange colors in the pies show more time in moderate to exceptional drought and so in western kansas we see larger pies larger time in extreme and exceptional drought and so a big question that we are faced with is how can we sustain groundwater in western kansas for the livelihood of future generations and so one partial solution might be these small rainwater fed wetlands that are called playas that are spanked sprinkled all throughout western kansas indicated here on this map and the green dots each representing a playa so when times are dry pliers are exceptionally dry demonstrated by this large crack in the earth and when there is ample water the pliers can be too wet to farm so they accumulate water and that water infiltrates into the ogallala aquifer to date 22 000 plyos have been mapped 84 of those playas are cropped they are at best marginal farmlands and they're quite inconvenient to crop around so this research largely being conducted by jude castins in the cars program um in collaboration with the kansas geological survey the kansas water office and epa region 7 is looking at the field average yields um in farmland that contain these playas and so this picture here is is a is a field a farm field and the colors represent the percent of field average yield so the bluer and darker greener colors represent a relatively higher field average yield averaged over a four year period and the warmer colors the reds and the yellows show lower yield relative to the rest of the field lower average yield and so what you see here are that the playas really stick out you know they really pop out from this kind of analysis and so the question is might farming around these playas be a win-win situation for producers with better return not farming the playas and a win for wildlife providing more habitat but as we look east we know that kansas experiences a world of both water deficit and water excess and so this map here shows over the last 20 years flooding frequency and in different counties and then the darker blue represents higher flooding frequency and so the question is how can we be best prepared for when extreme flooding strikes so this image here shows in the background the neosho river flooding and the extent of that flooding the bottom left-hand map here is a product of this flood mapping tool so there this real time flood mapping tool is under development and collab by kbs in collaboration with the water office in the kansas division of emergency management ultimately to save time money and lives and so this flood map here that you see produced as a result of this tool is generated from plane flown aerial imagery combined with stream gage data on water depth to generate a flood map of the extent and depth of flooding in real time for emergency response to the right of the flood mapping tool output here in the right hand corner shows the extent of the current coverage in other words that which has been mapped and the purple dots represent the stream gages across the state feeding real-time data into them into the flood mapping tool so now i'm going to hand off to ted harris a scientist at the biological survey who has been studying harmful algal blooms thank you director bayer it's my pleasure to be here unfortunately i have sort of a gooey topic to talk about and i'll be talking about what's on my hand right there in that picture so our surface waters can be beautiful places here's a picture of wilson lake one of the clearest lakes in kansas it's a great place to be we also need our surface waters we require them or require them to be clean we do that for a number of reasons we do that for drinking water we also in some cases needed for irrigation surface waters are used for irrigation in kansas we need them to grow our domesticated livestock and of course we need them for recreation but there's a little bit of a problem in the last 20 years a blue-green foe has emerged in our surface waters taking them from what you see on the left that's military marina to what you see on the right transforming them into these blue-green goo landscapes and these are termed as harmful algal blooms or haves h.a.b cabs in kansas are are not your average pond scout they're a little bit different than that and this blue green goo that you see in the background of this slide and on the last one is disrupting our surface waters it's disrupting livelihoods people that live around the lake and people that use that water and they also cause serious costs in multiple ways these harmful algal blooms can produce very potent toxins some even more potent than cobra venom extremely potent and because they are so potent they have poisoned numerous dogs and unfortunately many cattle in livestock ponds so there's one of those economic sinks and we even have to close lakes and restrict access to them because the poisons are so powerful and can be so harmful they also produce or can produce these taste and odor compounds sometimes you've maybe opened your tap and you smell an earthy or musty smell that smell actually just after rain these little algae produce that smell and it compromises our drinking water supplies and it's very costly every plant that has to deal with these compounds has about a thousand dollars a day cost per plant so you can imagine all the cities on the kansas river when these balloons occur having to deal with these compounds and each of them having to deal with them individually and have these costly not knowing when they're going to end issues but these balloons don't always produce the toxins or compounds and we're not really sure what that trigger is to produce them part of the reason why the research is so important these balloons don't just happen on milford which you can see at the top left side of your screen i also collected a bottle from that scum and you can see that bottle is about four inches tall and you can see that scum is actually about two inches thick so it's not just right on the surface like an oil slick it can really build up but it doesn't just happen on our largest reservoir it happens in small right there out your back door in topeka there's lake shawnee in early 2020 they happen out west in reservoirs like sebelius or norton and also in webster even in some of our more pristine lakes like kanopolis these blooms have started showing up more recently and we also see them in marrying when we look across the state we can see that these blooms happen all over so when we see that state map you can see there are green dots located just about anywhere there is water and that's just what's happened in the last decade so what do these little algae need and you have to remember that they're just tiny plants and plants need three things they need light they need water and they need nutrients but of course these algae are already in water so really they only need life and nutrients and specifically the nutrients that are important are nitrogen and phosphorus and phosphorus in particular is going to be something you're going to see in the slides coming up but that poses the question what do we do with our have problem with these harmful blooms and i'm going to go over just a few of the projects that we currently investing in the first of those projects deals with taking sediment cores and this seems a little abstract to jam a tube down into the mud as far back as we can go but they're actually analogous to tree rings so just as you could uh drive something sideways into that tree and go back through all those rings through time the bottom of our reservoirs are exactly the same thing and so we take these tubes of mud and we slice them we dice them and we analyze them for indicators of these blooms over time to finally figure out when changes started to occur and why they might occur so for example this core right here which you'll also see on the next slide we analyze that core for harmful algal bloom trends over time so here you can see that we did this on milford that site s2 that's right across from wakefield a town that has been plagued by these blooms and we wanted to find out but when really did they start there were some big blooms around 2011 but there were indications that they had been there before so we went all the way back in time and constructed and reconstructed the history of milford and we see that right off the bat you can see on the y-axis there that's estimated year and then what we have here is an indicator of harmful blooms and you can see it first it just sort of bounces around right there next testament here these are relatively low concentrations so for decade milford did not have this problem but then sometime in the early 2000s something happened and all of a sudden that signal that indicator of these blooms gets worse and worse and worse and worse over time when we pair that with all the historical data that we had we found out that now when we knew when that change occurred we could start looking for what changed over that time span and sure enough one of those nutrients in this case ortho p there's that phosphorus nutrient again it increased along the same timeline as we saw in our course it made it clear that that was likely the culprit and one reason why there are big projects to stop phosphorus loading or at least prevent it and slow it down in milford because that has really become a culprit but we do more than that we also take water from milford we take it back to our field station those are those tanks you saw earlier and we grow the same exact blooms to find out when they're going to be toxic when they're going to produce those taste compounds what really makes them grow we found that phosphorus indeed was one of those key elements in milford but then once we've grown them and we've studied them they make a great playground to try out what can be safe and cost effective at killing these blooms and so myself and the university of missouri and epa region seven we teamed up to see what could this rock flower do to limit life another critical element for the allergies growth what we found is we were able to kill 70 of that bloom through this novel geoengineering approach so we not only grow the blooms to try to understand them but then we try to understand what would be best to kill them and try a whole host and options i've only gone over just a few of the projects that we've done and and really when you break it down all these projects together work in concert the bottom is that kansas water office funded taking sediment cores and combining long-term data to create long-term forecasts and look for when these changes started to happen and what changes went along with them we get a really really good idea of what the causes are then we go to our field station and we grow it we make sure that we know what that causes as you see in our tanks and you see in whole ponds and of course we also try some mitigation testing we also do this with high school students because we have to give the next generation as you see there from baldwin high school that was in 2019 we have to give the next generation the tools to understand what's happening and how to fight these blooms so that they can have clean surface water too and then finally at the top in conjunction with the kansas department of health the city of lawrence wichita state university epa region 7 and others we install these movies that take high frequency data every 10 minutes they're collecting data so we look at decades upon decades and we also look at really really short time scales to try to understand what really triggers these balloons in terms of the toxins and the tasting odor production they can make the ultimate goal of providing a short-term forecast just like you get a short-term weather forecast of three to five days we want to do the same thing for harmful algebras so i want to thank director bayer for letting me share this with you and turn it back over to her for some takeaway messages thank you thank you ted so again we're really appreciative of being able to present our work at the kansas biological survey uh to the house to be on water and we want to leave you with a with a few thoughts and one is that i we hope that this presentation has um enlightened you all about the range of theoretical and applied research that's being conducted at at the survey much of which does address water quality and quantity in kansas second we have many state-supported efforts um to understand our water resources in kansas we aim to to use that flood mapping tool to map flood extent in real time in order to support emergency response and really prevent human catastrophe we are working to understand the role of playa wetlands and aquifer recharge and on farmland productivity and as ted presented we are working to reveal the causes and treatments of harmful algal blooms to improve the quality of water for for humans wildlife and recreation so continued support will be absolutely critical for the survey to provide insight information and services facilitating cost-effective management of our water resources in the state into the future and with that we would be happy to take any questions and thank you again for your attention thank you director bear we'll now open it up for questions for either you or mr harris so let me check out our participants first one is representative bishop thank you mr chairman i have a question about the algal blooms and the uh factor of phosphorus my understanding and maybe it's just the area that i'm from which is i represent the wichita district in the wichita area that phosphorus is already abundant in kansas soil so what would be the motivation for i assume it's an agricultural motivation for increasing phosphorus your mic is turned off sorry thank you so much uh phosphorus certainly is abundant in in our soils it's what allows us to grow crops and do our agricultural production however there are ways to limit that um either through stream bank stabilization which prevents sediment and other things a no-till and so it at least prevents more from coming in we still have to deal with the phosphorus that's there and one reason why it's so important that we look at mitigation strategies for these blooms not only on small scales but also on large scales that's something that we're doing right now in marion reservoir and really our goal there it associates with wichita state and the kansas department of health and the environment is essentially to give you all and to kdhe a playbook so that you can say look when these blooms occur even if we're working really hard in the watershed to prevent phosphorus and nitrogen from coming into our systems and creating these blooms what's reasonable what's feasible what are the economic costs of doing these treatments there are plenty out there and there are plenty that don't work and so that's exactly what we're aiming to do is come up with a way that hey if we have these nutrients in our water body we know that there's going to be prolonged effects and we have to come with a way to mitigate these blue so people can still recreate and so the drinking water can can still be taken and still be used from that reservoir uh mr chairman oh sorry go ahead please yeah well my my k-state education's gonna going to come out now i work in my background is in soils and much many of which in in kansas and so phosphorus is a complex nutrient because it's ultimately derived um from rock weathering but then the majority of that phosphorus over time builds in into an organic pool and this organic pool is actually not readily available and so the phosphorus that's causing the harmful algal bloom problem is an available form of pee of phosphorus and so that is coming from from its release during tillage but then also if there are fertilizer if there s fertilizer application and so that available form is much more prevalent than it would be in say a native prairie soil where you have high stores of phosphorus but it's not available to be leached or run off from the environment does that help yes ma'am i think the bank stabilization is is a very important part of that and that's where in urban areas uh creating bank stabilization around residential ponds i live in a residential area that has two good sized ponds and bank stabilization i think is crucial it is part of the drainage system for that whole part of the city um so i appreciate the education this morning thank you mr chairman thank you any other questions this morning i'm looking on the outside world and inside i see none uh director thank you and mr harris also thank you for the presentation i would ask that uh director you provide us with uh a more uh detailed breakdown of number employees and on your budget so that we can look take a closer look at that and then you mentioned and you mentioned the atlas of kansas lakes is there a uh link to that somewhere i don't believe we have a digital an electronic version of that but we can certainly send them to the committee we will get them there okay we appreciate that all right see no further questions um mr chairman yes um this is representative carlson and i'm sorry um may i ask a question please yes okay um as far as the what it takes to to grow the uh algebra so we mentioned light well we know that sunshine is is everywhere hopefully but um in the wakefield area land management took out lots of acres of cattails which helped shade these shallow areas could that be anything that would help those blooms do better which we don't want it i'll say that it's a very complex um dynamic between the larger plants and some of these tiny plants um really part of that shade in our kansas systems is the sediment so as important as stream bag stabilization is there are these trade-offs and and that's really what we're dealing with now in most cases a trade-off between the blooms and how do we fix sedimentation and that's sediment right it makes the water very opaque not very clear and that can also help terminate these balloons so we're finding on on marion whether or not the the cattails make that big a difference is is hard the republican river is also uh which obviously flows into milford it's one of the largest rivers in the state so there's a lot of nutrients and farmland that is within that that district that is flowing in there so the cattails can help store nutrients they've also been shown to have uh positive effects and again those trade-offs are are hard to find so i don't have a better answer for you than that but i'll just say it is a complex system and although a simple problem uh the answers and solutions seem complex and like there are most certainly trade-offs involved okay thank you very much thank you mr chair any other questions i've failed to see do not so once again thank you both for the presentation uh very informative and with that we are adjourned

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How to eSign & fill out a document online

Document management isn't an easy task. The only thing that makes working with documents simple in today's world, is a comprehensive workflow solution. Signing and editing documents, and filling out forms is a simple task for those who utilize eSignature services. Businesses that have found reliable solutions to industry sign banking kansas last will and testament now don't need to spend their valuable time and effort on routine and monotonous actions.

Use airSlate SignNow and industry sign banking kansas last will and testament now online hassle-free today:

  1. Create your airSlate SignNow profile or use your Google account to sign up.
  2. Upload a document.
  3. Work on it; sign it, edit it and add fillable fields to it.
  4. Select Done and export the sample: send it or save it to your device.

As you can see, there is nothing complicated about filling out and signing documents when you have the right tool. Our advanced editor is great for getting forms and contracts exactly how you want/need them. It has a user-friendly interface and total comprehensibility, providing you with total control. Create an account today and start enhancing your digital signature workflows with effective tools to industry sign banking kansas last will and testament now online.

How to eSign and fill documents in Google Chrome How to eSign and fill documents in Google Chrome

How to eSign and fill documents in Google Chrome

Google Chrome can solve more problems than you can even imagine using powerful tools called 'extensions'. There are thousands you can easily add right to your browser called ‘add-ons’ and each has a unique ability to enhance your workflow. For example, industry sign banking kansas last will and testament now and edit docs with airSlate SignNow.

To add the airSlate SignNow extension for Google Chrome, follow the next steps:

  1. Go to Chrome Web Store, type in 'airSlate SignNow' and press enter. Then, hit the Add to Chrome button and wait a few seconds while it installs.
  2. Find a document that you need to sign, right click it and select airSlate SignNow.
  3. Edit and sign your document.
  4. Save your new file to your profile, the cloud or your device.

By using this extension, you eliminate wasting time on boring actions like downloading the file and importing it to an eSignature solution’s collection. Everything is close at hand, so you can quickly and conveniently industry sign banking kansas last will and testament now.

How to eSign forms in Gmail How to eSign forms in Gmail

How to eSign forms in Gmail

Gmail is probably the most popular mail service utilized by millions of people all across the world. Most likely, you and your clients also use it for personal and business communication. However, the question on a lot of people’s minds is: how can I industry sign banking kansas last will and testament now a document that was emailed to me in Gmail? Something amazing has happened that is changing the way business is done. airSlate SignNow and Google have created an impactful add on that lets you industry sign banking kansas last will and testament now, edit, set signing orders and much more without leaving your inbox.

Boost your workflow with a revolutionary Gmail add on from airSlate SignNow:

  1. Find the airSlate SignNow extension for Gmail from the Chrome Web Store and install it.
  2. Go to your inbox and open the email that contains the attachment that needs signing.
  3. Click the airSlate SignNow icon found in the right-hand toolbar.
  4. Work on your document; edit it, add fillable fields and even sign it yourself.
  5. Click Done and email the executed document to the respective parties.

With helpful extensions, manipulations to industry sign banking kansas last will and testament now various forms are easy. The less time you spend switching browser windows, opening many accounts and scrolling through your internal samples trying to find a document is more time to you for other important assignments.

How to securely sign documents in a mobile browser How to securely sign documents in a mobile browser

How to securely sign documents in a mobile browser

Are you one of the business professionals who’ve decided to go 100% mobile in 2020? If yes, then you really need to make sure you have an effective solution for managing your document workflows from your phone, e.g., industry sign banking kansas last will and testament now, and edit forms in real time. airSlate SignNow has one of the most exciting tools for mobile users. A web-based application. industry sign banking kansas last will and testament now instantly from anywhere.

How to securely sign documents in a mobile browser

  1. Create an airSlate SignNow profile or log in using any web browser on your smartphone or tablet.
  2. Upload a document from the cloud or internal storage.
  3. Fill out and sign the sample.
  4. Tap Done.
  5. Do anything you need right from your account.

airSlate SignNow takes pride in protecting customer data. Be confident that anything you upload to your account is protected with industry-leading encryption. Intelligent logging out will shield your information from unwanted access. industry sign banking kansas last will and testament now from the mobile phone or your friend’s phone. Protection is key to our success and yours to mobile workflows.

How to sign a PDF with an iOS device How to sign a PDF with an iOS device

How to sign a PDF with an iOS device

The iPhone and iPad are powerful gadgets that allow you to work not only from the office but from anywhere in the world. For example, you can finalize and sign documents or industry sign banking kansas last will and testament now directly on your phone or tablet at the office, at home or even on the beach. iOS offers native features like the Markup tool, though it’s limiting and doesn’t have any automation. Though the airSlate SignNow application for Apple is packed with everything you need for upgrading your document workflow. industry sign banking kansas last will and testament now, fill out and sign forms on your phone in minutes.

How to sign a PDF on an iPhone

  1. Go to the AppStore, find the airSlate SignNow app and download it.
  2. Open the application, log in or create a profile.
  3. Select + to upload a document from your device or import it from the cloud.
  4. Fill out the sample and create your electronic signature.
  5. Click Done to finish the editing and signing session.

When you have this application installed, you don't need to upload a file each time you get it for signing. Just open the document on your iPhone, click the Share icon and select the Sign with airSlate SignNow option. Your sample will be opened in the application. industry sign banking kansas last will and testament now anything. In addition, utilizing one service for all of your document management requirements, everything is faster, better and cheaper Download the app today!

How to eSign a PDF document on an Android How to eSign a PDF document on an Android

How to eSign a PDF document on an Android

What’s the number one rule for handling document workflows in 2020? Avoid paper chaos. Get rid of the printers, scanners and bundlers curriers. All of it! Take a new approach and manage, industry sign banking kansas last will and testament now, and organize your records 100% paperless and 100% mobile. You only need three things; a phone/tablet, internet connection and the airSlate SignNow app for Android. Using the app, create, industry sign banking kansas last will and testament now and execute documents right from your smartphone or tablet.

How to sign a PDF on an Android

  1. In the Google Play Market, search for and install the airSlate SignNow application.
  2. Open the program and log into your account or make one if you don’t have one already.
  3. Upload a document from the cloud or your device.
  4. Click on the opened document and start working on it. Edit it, add fillable fields and signature fields.
  5. Once you’ve finished, click Done and send the document to the other parties involved or download it to the cloud or your device.

airSlate SignNow allows you to sign documents and manage tasks like industry sign banking kansas last will and testament now with ease. In addition, the safety of your information is top priority. File encryption and private web servers can be used as implementing the most recent features in data compliance measures. Get the airSlate SignNow mobile experience and operate more efficiently.

Trusted esignature solution— what our customers are saying

Explore how the airSlate SignNow eSignature platform helps businesses succeed. Hear from real users and what they like most about electronic signing.

This service is really great! It has helped...
5
anonymous

This service is really great! It has helped us enormously by ensuring we are fully covered in our agreements. We are on a 100% for collecting on our jobs, from a previous 60-70%. I recommend this to everyone.

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I've been using airSlate SignNow for years (since it...
5
Susan S

I've been using airSlate SignNow for years (since it was CudaSign). I started using airSlate SignNow for real estate as it was easier for my clients to use. I now use it in my business for employement and onboarding docs.

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Everything has been great, really easy to incorporate...
5
Liam R

Everything has been great, really easy to incorporate into my business. And the clients who have used your software so far have said it is very easy to complete the necessary signatures.

Read full review
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Frequently asked questions

Learn everything you need to know to use airSlate SignNow eSignatures like a pro.

How do you make a document that has an electronic signature?

How do you make this information that was not in a digital format a computer-readable document for the user? " "So the question is not only how can you get to an individual from an individual, but how can you get to an individual with a group of individuals. How do you get from one location and say let's go to this location and say let's go to that location. How do you get from, you know, some of the more traditional forms of information that you are used to seeing in a document or other forms. The ability to do that in a digital medium has been a huge challenge. I think we've done it, but there's some work that we have to do on the security side of that. And of course, there's the question of how do you protect it from being read by people that you're not intending to be able to actually read it? " When asked to describe what he means by a "user-centric" approach to security, Bensley responds that "you're still in a situation where you are still talking about a lot of the security that is done by individuals, but we've done a very good job of making it a user-centric process. You're not going to be able to create a document or something on your own that you can give to an individual. You can't just open and copy over and then give it to somebody else. You still have to do the work of the document being created in the first place and the work of the document being delivered in a secure manner."

How to sign an online pdf?

This video from our friends over at the Institute for Justice provides you with all the info you need to learn how to download your own legal documents.

What is esign document?

What is this? This will help you to create your own eSignatures. Why you should use this? As you can see, it's quite easy. Just enter information, choose the language and choose the place for the signature. There are two modes: The first one is the first one: just enter the data in order. This option is very useful when you want to use the signature in a webpage or other documents, which require the data in order to process the request. The second one is when you need to create an actual eSignature and you don't know which one, which means, this option is really not appropriate. This is very useful when you need to use it in a document which needs additional information, but it isn't needed for the document to be processed. Here is how you make a signature: Choose a name for your signature. The name should be used as a reference when you will use it in other documents, or even in your own signature. For example, let's say you are a lawyer. You don't need the name because you'll be creating the signature when you'll send it to other people. The name will only be used when you will use the signature in some form. So the name must only be given once. Choose the language. You can use only one language. Choose one, but don't be scared to use two and even three. In fact it may even be very helpful to have the eSignature in more than one language. But in fact I suggest you to use one language for everything. Choose the place for the signature. You can only choose one pl...